xszheng2020/the_stack_dedup_python_hits_7 · Datasets at Hugging Face

52d7abb59baa304f215d5ad58f99005435deeeec

12,445

py

Python

djangoproj/djangoapp/csc/nl/ja/word.py

pbarton666/buzz_bot

9f44c66e8ecb10e231f70989421f164d7a55029a

[ "MIT" ]

null

djangoproj/djangoapp/csc/nl/ja/word.py

pbarton666/buzz_bot

9f44c66e8ecb10e231f70989421f164d7a55029a

[ "MIT" ]

null

djangoproj/djangoapp/csc/nl/ja/word.py

pbarton666/buzz_bot

9f44c66e8ecb10e231f70989421f164d7a55029a

[ "MIT" ]

null

#python-encoding: UTF-8 from csc.nl.ja.debug import * from csc.nl.ja.util import * from csc.nl.ja.tree import * import MeCab import CaboCha import re class JaWord(JaTreeBranch, JaLanguageNode): ''' Represents a single word inside a chunk/utterance This should only be called from JaUtterance, as it assumes that the text given has been cleaned properly. ''' def __init__(self, args): JaTreeBranch.__init__(self) self.children = args for child in self.children: child.parent = self @property def stem(self): ''' Returns the stem of this word as a string This is a default, AND SHOULD BE OVERRIDEN IN THE CHILD CLASS. ''' return self.children[0].stem @property def inflection(self): ''' Returns the inflection of this word as a string This is a default, AND SHOULD BE OVERRIDEN IN THE CHILD CLASS. ''' return "" def __str__(self): return self.surface dump_lines = JaDebug.dump_lines_word @shared_property def is_stopword(self): ''' True if this word is a stopword This is a default, AND SHOULD BE OVERRIDEN IN THE CHILD CLASS. ''' return self.children[0].is_stopword @shared_property def is_word(self): ''' Always true ''' return True @property def lemma_form(self): ''' Returns the lemma form of this word as a string This is a default, AND SHOULD BE OVERRIDEN IN THE CHILD CLASS. ''' return str().join([ x.lemma_form for x in self.children ]) @property def root(self): ''' Returns the root portion of the word as a list This is a default, AND SHOULD BE OVERRIDEN IN THE CHILD CLASS. ''' return self.children[:] @property def suffixes(self): ''' Returns the suffix portion of the word as a list This is a default, AND SHOULD BE OVERRIDEN IN THE CHILD CLASS. ''' return [] class JaDependantKoto(JaWord): ''' Dependant koto instance ''' def __init__(self, args): # Argument is a single JaWord object wrapped in a list # JaWord.__init__(self, args[0].children) def is_stopword(self): return True class JaDependantMono(JaWord): ''' Dependant mono instance ''' def __init__(self, args): # Argument is a single JaWord object wrapped in a list # JaWord.__init__(self, args[0].children) def is_stopword(self): return True class JaVerb(JaWord): ''' Basic verb ''' def __init__(self, args): JaWord.__init__(self, args) @property def lemma_form(self): ''' Returns the lemma form of this verb ''' return self.children[0].lemma_form @shared_property def is_verb(self): ''' Always true ''' return True @property def stem(self): ''' Returns the stem of this word as a string ''' return str().join([ x.stem for x in self.root ]) @property def inflection(self): ''' Returns the inflection of this word as a string ''' return str().join([ x.inflection for x in self.suffixes ]) @property def root(self): ''' Returns the root portion of the verb as a list ''' return self.children[0:1] @property def suffixes(self): ''' Returns the root portion of the verb as an object ''' return self.children[1:] @shared_property def is_stopword(self): ''' Always false ''' return False class JaNominalVerb(JaVerb): ''' A verb composed of a noun + verb ''' def __init__(self, args): JaVerb.__init__(self, args) @property def noun(self): ''' Returns the noun portion ''' return self.children[0] @property def verb(self): ''' Returns the verb portion ''' return self.children[1] @property def stem(self): ''' Returns the stem of this word as a string ''' return self.noun.stem + self.verb.stem @property def inflection(self): ''' Returns the inflection of this word as a string ''' return self.verb.inflection @property def lemma_form(self): ''' Returns the lemma form of this verb ''' return self.noun.lemma_form + self.verb.lemma_form @shared_property def is_nominal_verb(self): ''' Always true ''' return True @property def root(self): ''' Returns the root portion of the verb as a list ''' return [ self.noun ] + self.verb.root @property def suffixes(self): ''' Returns the root portion of the verb as an object ''' return self.verb.suffixes class JaAdjectivalVerb(JaVerb): ''' A verb composed of an adjective + verb ''' def __init__(self, args): JaVerb.__init__(self, args) @property def adjective(self): ''' Returns the adjective portion ''' return self.children[0] @property def verb(self): ''' Returns the verb portion ''' return self.children[1] @property def stem(self): ''' Returns the stem of this word as a string ''' return self.adjective.stem + self.verb.stem @property def inflection(self): ''' Returns the inflection of this word as a string ''' return self.verb.inflection @property def lemma_form(self): ''' Returns the lemma form of this verb ''' return self.adjective.surface + self.verb.lemma_form @shared_property def is_adjectival_verb(self): ''' Always true ''' return True @property def root(self): ''' Returns the root portion of the verb as a list ''' return self.adjective + self.verb.root @property def suffixes(self): ''' Returns the root portion of the verb as an object ''' return self.verb.suffixes class JaDeAru(JaVerb): ''' A verb form of de aru (de-aru, de-atta, da, desu, datta, desu, deshita) This class takes care of the infamous rare-yet-common irregular verb in Japanese. ''' def __init__(self, args): JaVerb.__init__(self, args) @shared_property def is_de_aru(self): ''' This is a form of the de-aru verb ''' return True @property def lemma_form(self): ''' Returns the lemma form of this verb Returns deAru for all cases, regardless of actual form. ''' return 'である' @property def inflection(self): ''' Returns the inflection of this word as a string ''' return str().join([ x.inflection for x in self.suffixes ]) @property def root(self): ''' Returns the root portion of the verb as a list ''' if len(self.children) == 1: return self.children[:] if self.children[0].is_particle: if self.children[1].base_form == ja_enc('ある'): return self.children[0:2] else: return self.children[0:1] if self.children[0].base_form == ja_enc('だ'): if self.children[1].base_form == ja_enc('ある'): return self.children[0:2] else: return self.children[0:1] if self.children[0].base_form == ja_enc('です'): return self.children[0:1] if self.children[0].base_form == ja_enc('です'): return self.children[0:1] # Should never get here # return self.children[0:1] @property def suffixes(self): ''' Returns the root portion of the verb as an object ''' return self.children[ len(self.root) : ] @shared_property def is_stopword(self): ''' Always true ''' return True class JaDeNai(JaVerb): ''' A verb form of negative de aru (denai, dewa nai, dewa arimasen, dewa nakatta, dewa arimasendeshita, jya nai, jya arimasen, jya nakatta, jya arimasendeshita) This class takes care of the infamous rare-yet-common irregular verb in Japanese. ''' def __init__(self, args): JaVerb.__init__(self, args) @property def root(self): ''' Returns the root portion of the verb as a list ''' if self.children[0].is_particle: if self.children[1].base_form == ja_enc('ある'): return self.children[0:2] else: return self.children[0:1] if self.children[0].is_token \ and self.children[0].base_form == ja_enc('だ'): if self.children[1].base_form == ja_enc('ある'): return self.children[0:2] else: return self.children[0:1] assert(False) @property def lemma_form(self): ''' Returns the lemma form of this verb Returns deAru for all cases, regardless of actual form. ''' return 'である' @property def suffixes(self): ''' Returns the root portion of the verb as an object ''' return self.children[ len(self.root) : ] @property def inflection(self): ''' Returns the inflection of this word as a string ''' return str().join([ x.inflection for x in self.suffixes ]) @shared_property def is_stopword(self): ''' Always true ''' return True class JaNoun(JaWord): ''' Basic verb ''' def __init__(self, args): JaWord.__init__(self, args) @shared_property def is_noun(self): ''' Always true ''' return True @property def stem(self): ''' Returns the stem of this word as a string ''' return str().join([ x.stem for x in self.children ]) @property def lemma_form(self): ''' Returns the lemma form of this word as a string ''' return str().join([ x.lemma_form for x in self.children ]) @shared_property def is_suru_conjunctive(self): ''' True if this is in conjuctive noun-suru form ''' return self.children[0].is_suru_conjunctive class JaAdjective(JaWord): ''' Basic Adjective ''' def __init__(self, args): JaWord.__init__(self, args) @shared_property def is_adjective(self): ''' Always true ''' return True @shared_property def is_negative(self): return len( filter(lambda x: x.is_verb and x.is_negative, self.children) ) @property def lemma_form(self): ''' Returns the lemma form of this adjective ''' return str().join([ x.lemma_form for x in filter(lambda x: x.is_adjective, self.children) ]) @property def inflection(self): ''' Returns the inflection of this word as a string ''' return str().join([ x.inflection for x in self.children[1:] ]) @shared_property def is_te_conjunctive(self): ''' True if this is te-conjuctive (adjective-suru or adjective-naru mostly) ''' return self.children[0].is_te_conjunctive class JaAdverb(JaWord): ''' Basic Adverb ''' def __init__(self, args): JaWord.__init__(self, args) @shared_property def is_adverb(self): ''' Always true ''' return True @shared_property def is_stopword(self): ''' Always true ''' return True class JaParticle(JaWord): ''' Basic particle ''' def __init__(self, args): JaWord.__init__(self, args) @shared_property def is_particle(self): ''' Always true ''' return True @property def lemma_form(self): ''' Returns the lemma form of this verb ''' return str().join([ x.lemma_form for x in self.children ]) @shared_property def is_stopword(self): ''' Always true ''' return True @property def stem(self): ''' Returns the stem of this word as a string ''' return str().join([ x.stem for x in self.children ]) class JaPunctuation(JaWord): ''' Basic punctuation ''' def __init__(self, args): JaWord.__init__(self, args) @shared_property def is_punctuation(self): ''' Always true ''' return True class JaUnknown(JaWord): ''' An unknown part-of-speech ''' def __init__(self, args): JaWord.__init__(self, args) @shared_property def is_unknown(self): ''' Always true ''' return True from csc.nl.ja.cabocha_token import *

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0.105656

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0.005726

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null

0

1

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1

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9

52f3838573b2869dcc945ed426724e7128ec2191

123

py

Python

projects/admin.py

ahmedy19/Projects_Library

5ee95c88db239d5b31b984a483dc9cda4618610d

[ "MIT" ]

null

projects/admin.py

ahmedy19/Projects_Library

5ee95c88db239d5b31b984a483dc9cda4618610d

[ "MIT" ]

null

projects/admin.py

ahmedy19/Projects_Library

5ee95c88db239d5b31b984a483dc9cda4618610d

[ "MIT" ]

null

from django.contrib import admin from .models import Tag, Project admin.site.register(Project) admin.site.register(Tag)

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1

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7

52f79fe2f6f27b4a8906168fb86f17ae4141eb92

899,999

py

Python

tests/benchmarks/assign_print_120k.py

feihong/arturo

b07bb638874c59d2fe976d7344dac065be04a459

[ "MIT" ]

401

2019-09-22T14:50:12.000Z

2022-03-24T02:00:40.000Z

tests/benchmarks/assign_print_120k.py

feihong/arturo

b07bb638874c59d2fe976d7344dac065be04a459

[ "MIT" ]

394

2020-02-04T05:46:39.000Z

2022-03-18T18:09:16.000Z

tests/benchmarks/assign_print_120k.py

feihong/arturo

b07bb638874c59d2fe976d7344dac065be04a459

[ "MIT" ]

14

2020-07-17T18:19:35.000Z

2022-03-05T18:51:48.000Z

a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a a = 10 print a

7.499992

7

0.600001

240,000

899,999

2.25

0.000013

0.333333

0.888889

1

0

0.2

0.333333

899,999

120,000

8

7.499992

0.7

0

1

0

null

0

null

0.5

0

null

1

0

1

0

1

0

null

0

1

0

1

0

13

5e3914757abd25786d26fd90142a11f3aaaf04d8

147

py

Python

os/paths.py

janbodnar/Python-Course

51705ab5a2adef52bcdb99a800e94c0d67144a38

[ "BSD-2-Clause" ]

13

2017-08-22T12:26:07.000Z

2021-07-29T16:13:50.000Z

os/paths.py

janbodnar/Python-Course

51705ab5a2adef52bcdb99a800e94c0d67144a38

[ "BSD-2-Clause" ]

1

2021-02-08T10:24:33.000Z

os/paths.py

janbodnar/Python-Course

51705ab5a2adef52bcdb99a800e94c0d67144a38

[ "BSD-2-Clause" ]

17

2018-08-13T11:10:33.000Z

2021-07-29T16:14:02.000Z

#!/usr/bin/python import os print(os.path.realpath(__file__)) print(__file__) print(os.path.basename(__file__)) print(os.path.dirname(__file__))

16.333333

33

0.768707

22

147

4.409091

0.5

0.216495

0.340206

0.309278

0

0.061224

147

8

34

18.375

0.702899

0.108844

0

1

0

true

0

0.2

0

0.2

0.8

1

0

null

1

0

1

0

null

0

1

0

1

0

7

eae771be0e02a5011e376a521c80eb841184c9b5

18,622

py

Python

etl/parsers/etw/Microsoft_Windows_AppLocker.py

IMULMUL/etl-parser

76b7c046866ce0469cd129ee3f7bb3799b34e271

[ "Apache-2.0" ]

104

2020-03-04T14:31:31.000Z

2022-03-28T02:59:36.000Z

etl/parsers/etw/Microsoft_Windows_AppLocker.py

IMULMUL/etl-parser

76b7c046866ce0469cd129ee3f7bb3799b34e271

[ "Apache-2.0" ]

7

2020-04-20T09:18:39.000Z

2022-03-19T17:06:19.000Z

etl/parsers/etw/Microsoft_Windows_AppLocker.py

IMULMUL/etl-parser

76b7c046866ce0469cd129ee3f7bb3799b34e271

[ "Apache-2.0" ]

16

2020-03-05T18:55:59.000Z

2022-03-01T10:19:28.000Z

# -*- coding: utf-8 -*- """ Microsoft-Windows-AppLocker GUID : cbda4dbf-8d5d-4f69-9578-be14aa540d22 """ from construct import Int8sl, Int8ul, Int16ul, Int16sl, Int32sl, Int32ul, Int64sl, Int64ul, Bytes, Double, Float32l, Struct from etl.utils import WString, CString, SystemTime, Guid from etl.dtyp import Sid from etl.parsers.etw.core import Etw, declare, guid @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8000, version=0) class Microsoft_Windows_AppLocker_8000_0(Etw): pattern = Struct( "Status" / Int32ul ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8002, version=0) class Microsoft_Windows_AppLocker_8002_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "FilePathLength" / Int16ul, "FilePathBuffer" / Bytes(lambda this: this.FilePathLength), "FileHashLength" / Int16ul, "FileHash" / Bytes(lambda this: this.FileHashLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength), "TargetLogonId" / Int64ul, "FullFilePathLength" / Int16ul, "FullFilePathBuffer" / Bytes(lambda this: this.FullFilePathLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8003, version=0) class Microsoft_Windows_AppLocker_8003_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "FilePathLength" / Int16ul, "FilePathBuffer" / Bytes(lambda this: this.FilePathLength), "FileHashLength" / Int16ul, "FileHash" / Bytes(lambda this: this.FileHashLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength), "TargetLogonId" / Int64ul, "FullFilePathLength" / Int16ul, "FullFilePathBuffer" / Bytes(lambda this: this.FullFilePathLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8004, version=0) class Microsoft_Windows_AppLocker_8004_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "FilePathLength" / Int16ul, "FilePathBuffer" / Bytes(lambda this: this.FilePathLength), "FileHashLength" / Int16ul, "FileHash" / Bytes(lambda this: this.FileHashLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength), "TargetLogonId" / Int64ul, "FullFilePathLength" / Int16ul, "FullFilePathBuffer" / Bytes(lambda this: this.FullFilePathLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8005, version=0) class Microsoft_Windows_AppLocker_8005_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "FilePathLength" / Int16ul, "FilePathBuffer" / Bytes(lambda this: this.FilePathLength), "FileHashLength" / Int16ul, "FileHash" / Bytes(lambda this: this.FileHashLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength), "TargetLogonId" / Int64ul, "FullFilePathLength" / Int16ul, "FullFilePathBuffer" / Bytes(lambda this: this.FullFilePathLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8006, version=0) class Microsoft_Windows_AppLocker_8006_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "FilePathLength" / Int16ul, "FilePathBuffer" / Bytes(lambda this: this.FilePathLength), "FileHashLength" / Int16ul, "FileHash" / Bytes(lambda this: this.FileHashLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength), "TargetLogonId" / Int64ul, "FullFilePathLength" / Int16ul, "FullFilePathBuffer" / Bytes(lambda this: this.FullFilePathLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8007, version=0) class Microsoft_Windows_AppLocker_8007_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "FilePathLength" / Int16ul, "FilePathBuffer" / Bytes(lambda this: this.FilePathLength), "FileHashLength" / Int16ul, "FileHash" / Bytes(lambda this: this.FileHashLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength), "TargetLogonId" / Int64ul, "FullFilePathLength" / Int16ul, "FullFilePathBuffer" / Bytes(lambda this: this.FullFilePathLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8008, version=0) class Microsoft_Windows_AppLocker_8008_0(Etw): pattern = Struct( "FilePathLength" / Int16ul, "FilePathBuffer" / Bytes(lambda this: this.FilePathLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8009, version=0) class Microsoft_Windows_AppLocker_8009_0(Etw): pattern = Struct( "FilePathLength" / Int16ul, "FilePathBuffer" / Bytes(lambda this: this.FilePathLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8020, version=0) class Microsoft_Windows_AppLocker_8020_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "PackageLength" / Int16ul, "PackageBuffer" / Bytes(lambda this: this.PackageLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8021, version=0) class Microsoft_Windows_AppLocker_8021_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "PackageLength" / Int16ul, "PackageBuffer" / Bytes(lambda this: this.PackageLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8022, version=0) class Microsoft_Windows_AppLocker_8022_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "PackageLength" / Int16ul, "PackageBuffer" / Bytes(lambda this: this.PackageLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8023, version=0) class Microsoft_Windows_AppLocker_8023_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "PackageLength" / Int16ul, "PackageBuffer" / Bytes(lambda this: this.PackageLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8024, version=0) class Microsoft_Windows_AppLocker_8024_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "PackageLength" / Int16ul, "PackageBuffer" / Bytes(lambda this: this.PackageLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8025, version=0) class Microsoft_Windows_AppLocker_8025_0(Etw): pattern = Struct( "PolicyNameLength" / Int16ul, "PolicyNameBuffer" / Bytes(lambda this: this.PolicyNameLength), "RuleId" / Guid, "RuleNameLength" / Int16ul, "RuleNameBuffer" / Bytes(lambda this: this.RuleNameLength), "RuleSddlLength" / Int16ul, "RuleSddlBuffer" / Bytes(lambda this: this.RuleSddlLength), "TargetUser" / Sid, "TargetProcessId" / Int32ul, "PackageLength" / Int16ul, "PackageBuffer" / Bytes(lambda this: this.PackageLength), "FqbnLength" / Int16ul, "Fqbn" / Bytes(lambda this: this.FqbnLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8028, version=0) class Microsoft_Windows_AppLocker_8028_0(Etw): pattern = Struct( "FilePathLength" / Int16ul, "FilePath" / Bytes(lambda this: this.FilePathLength), "Result" / Int32sl, "USN" / Int64sl, "UserWriteable" / Int8ul ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8029, version=0) class Microsoft_Windows_AppLocker_8029_0(Etw): pattern = Struct( "FilePathLength" / Int16ul, "FilePath" / Bytes(lambda this: this.FilePathLength), "Result" / Int32sl, "USN" / Int64sl, "UserWriteable" / Int8ul ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8030, version=0) class Microsoft_Windows_AppLocker_8030_0(Etw): pattern = Struct( "ImageNameLength" / Int16ul, "ImageName" / Bytes(lambda this: this.ImageNameLength), "ParentProcessLength" / Int16ul, "ParentProcess" / Bytes(lambda this: this.ParentProcessLength), "StatusCode" / Int32ul, "AppLockerReason" / Int32ul, "Bucket" / Int32ul, "USN" / Int64ul, "NtfsFileIdSize" / Int16ul, "NtfsFileId" / Bytes(lambda this: this.NtfsFileIdSize), "OriginDataPresent" / Int8ul, "SessionId" / Guid, "SubSessionId" / Guid, "Origin" / Int32ul, "Type" / Int32ul, "Generation" / Int32ul, "SmartScreen" / Int32ul, "RevocationID" / Int32ul, "DataLength" / Int16ul, "Data" / Bytes(lambda this: this.DataLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8031, version=0) class Microsoft_Windows_AppLocker_8031_0(Etw): pattern = Struct( "FileNameLength" / Int16ul, "FileName" / Bytes(lambda this: this.FileNameLength), "CurrentProcessLength" / Int16ul, "CurrentProcess" / Bytes(lambda this: this.CurrentProcessLength), "ParentProcessLength" / Int16ul, "ParentProcess" / Bytes(lambda this: this.ParentProcessLength), "USN" / Int64ul, "NtfsFileIdSize" / Int16ul, "NtfsFileId" / Bytes(lambda this: this.NtfsFileIdSize), "OriginDataPresent" / Int8ul, "SessionId" / Guid, "Origin" / Int32ul, "Type" / Int32ul, "Generation" / Int32ul, "SmartScreen" / Int32ul, "DataLength" / Int16ul, "Data" / Bytes(lambda this: this.DataLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8032, version=0) class Microsoft_Windows_AppLocker_8032_0(Etw): pattern = Struct( "ImageNameLength" / Int16ul, "ImageName" / Bytes(lambda this: this.ImageNameLength), "ParentProcessLength" / Int16ul, "ParentProcess" / Bytes(lambda this: this.ParentProcessLength), "StatusCode" / Int32ul, "AppLockerReason" / Int32ul, "Bucket" / Int32ul, "USN" / Int64ul, "NtfsFileIdSize" / Int16ul, "NtfsFileId" / Bytes(lambda this: this.NtfsFileIdSize), "OriginDataPresent" / Int8ul, "SessionId" / Guid, "SubSessionId" / Guid, "Origin" / Int32ul, "Type" / Int32ul, "Generation" / Int32ul, "SmartScreen" / Int32ul, "RevocationID" / Int32ul, "DataLength" / Int16ul, "Data" / Bytes(lambda this: this.DataLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8033, version=0) class Microsoft_Windows_AppLocker_8033_0(Etw): pattern = Struct( "ImageNameLength" / Int16ul, "ImageName" / Bytes(lambda this: this.ImageNameLength), "ParentProcessLength" / Int16ul, "ParentProcess" / Bytes(lambda this: this.ParentProcessLength), "StatusCode" / Int32ul, "AppLockerReason" / Int32ul, "Bucket" / Int32ul, "USN" / Int64ul, "NtfsFileIdSize" / Int16ul, "NtfsFileId" / Bytes(lambda this: this.NtfsFileIdSize), "OriginDataPresent" / Int8ul, "SessionId" / Guid, "SubSessionId" / Guid, "Origin" / Int32ul, "Type" / Int32ul, "Generation" / Int32ul, "SmartScreen" / Int32ul, "RevocationID" / Int32ul, "DataLength" / Int16ul, "Data" / Bytes(lambda this: this.DataLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8034, version=0) class Microsoft_Windows_AppLocker_8034_0(Etw): pattern = Struct( "ImageNameLength" / Int16ul, "ImageName" / Bytes(lambda this: this.ImageNameLength), "StatusCode" / Int32ul, "Bucket" / Int32ul, "OriginDataPresent" / Int8ul, "SessionId" / Guid, "SubSessionId" / Guid, "Origin" / Int32ul, "Type" / Int32ul, "Generation" / Int32ul, "SmartScreen" / Int32ul, "RevocationID" / Int32ul, "DataLength" / Int16ul, "Data" / Bytes(lambda this: this.DataLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8035, version=0) class Microsoft_Windows_AppLocker_8035_0(Etw): pattern = Struct( "ImageNameLength" / Int16ul, "ImageName" / Bytes(lambda this: this.ImageNameLength), "StatusCode" / Int32ul, "Bucket" / Int32ul, "OriginDataPresent" / Int8ul, "SessionId" / Guid, "SubSessionId" / Guid, "Origin" / Int32ul, "Type" / Int32ul, "Generation" / Int32ul, "SmartScreen" / Int32ul, "RevocationID" / Int32ul, "DataLength" / Int16ul, "Data" / Bytes(lambda this: this.DataLength) ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8036, version=0) class Microsoft_Windows_AppLocker_8036_0(Etw): pattern = Struct( "IsApproved" / Int8ul, "CLSID" / Guid ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8037, version=0) class Microsoft_Windows_AppLocker_8037_0(Etw): pattern = Struct( "FilePathLength" / Int16ul, "FilePath" / Bytes(lambda this: this.FilePathLength), "Result" / Int32sl, "USN" / Int64sl, "UserWriteable" / Int8ul ) @declare(guid=guid("cbda4dbf-8d5d-4f69-9578-be14aa540d22"), event_id=8038, version=0) class Microsoft_Windows_AppLocker_8038_0(Etw): pattern = Struct( "TotalSignatureCount" / Int32ul, "Signature" / Int32ul, "PublisherNameLength" / Int16ul, "PublisherName" / Bytes(lambda this: this.PublisherNameLength), "IssuerNameLength" / Int16ul, "IssuerName" / Bytes(lambda this: this.IssuerNameLength), "PublisherTBSHashSize" / Int32ul, "PublisherTBSHash" / Bytes(lambda this: this.PublisherTBSHashSize), "IssuerTBSHashSize" / Int32ul, "IssuerTBSHash" / Bytes(lambda this: this.IssuerTBSHashSize) )

38.004082

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18,622

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null

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d82febcd13fadf36d431ca36c143bcc1af66523f

25,105

py

Python

eeauditor/auditors/aws/Amazon_CognitoIdP_Auditor.py

kbhagi/ElectricEye

31960e1e1cfb75c5d354844ea9e07d5295442823

[ "Apache-2.0" ]

442

2020-03-15T20:56:36.000Z

2022-03-31T22:13:07.000Z

eeauditor/auditors/aws/Amazon_CognitoIdP_Auditor.py

kbhagi/ElectricEye

31960e1e1cfb75c5d354844ea9e07d5295442823

[ "Apache-2.0" ]

57

2020-03-15T22:09:56.000Z

2022-03-31T13:17:06.000Z

eeauditor/auditors/aws/Amazon_CognitoIdP_Auditor.py

kbhagi/ElectricEye

31960e1e1cfb75c5d354844ea9e07d5295442823

[ "Apache-2.0" ]

59

2020-03-15T21:19:10.000Z

2022-03-31T15:01:31.000Z

#This file is part of ElectricEye. #SPDX-License-Identifier: Apache-2.0 #Licensed to the Apache Software Foundation (ASF) under one #or more contributor license agreements. See the NOTICE file #distributed with this work for additional information #regarding copyright ownership. The ASF licenses this file #to you under the Apache License, Version 2.0 (the #"License"); you may not use this file except in compliance #with the License. You may obtain a copy of the License at #http://www.apache.org/licenses/LICENSE-2.0 #Unless required by applicable law or agreed to in writing, #software distributed under the License is distributed on an #"AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY #KIND, either express or implied. See the License for the #specific language governing permissions and limitations #under the License. import boto3 import datetime from check_register import CheckRegister, accumulate_paged_results registry = CheckRegister() cognitoidp = boto3.client("cognito-idp") def list_user_pools(cache): response = cache.get("list_user_pools") if response: return response paginator = cognitoidp.get_paginator("list_user_pools") response_iterator = paginator.paginate(PaginationConfig={"PageSize": 60}) cache["list_user_pools"] = accumulate_paged_results( page_iterator=response_iterator, key="UserPools" ) return cache["list_user_pools"] @registry.register_check("sns") def cognitoidp_cis_password_check(cache: dict, awsAccountId: str, awsRegion: str, awsPartition: str) -> dict: """[Cognito-IdP.1] Cognito user pools should have a password policy that meets or exceed AWS CIS Foundations Benchmark standards""" response = list_user_pools(cache) myCognitoUserPools = response["UserPools"] for userpools in myCognitoUserPools: userPoolId = str(userpools["Id"]) response = cognitoidp.describe_user_pool(UserPoolId=userPoolId) userPoolArn = str(response["UserPool"]["Arn"]) userPoolId = str(response["UserPool"]["Id"]) cognitoPwPolicy = response["UserPool"]["Policies"]["PasswordPolicy"] minLengthCheck = int(cognitoPwPolicy["MinimumLength"]) uppercaseCheck = str(cognitoPwPolicy["RequireUppercase"]) lowercaseCheck = str(cognitoPwPolicy["RequireLowercase"]) numberCheck = str(cognitoPwPolicy["RequireNumbers"]) symbolCheck = str(cognitoPwPolicy["RequireSymbols"]) # ISO Time iso8601Time = datetime.datetime.utcnow().replace(tzinfo=datetime.timezone.utc).isoformat() if ( minLengthCheck >= 14 and uppercaseCheck == "True" and lowercaseCheck == "True" and numberCheck == "True" and symbolCheck == "True" ): # this is a passing check # create Sec Hub finding finding = { "SchemaVersion": "2018-10-08", "Id": userPoolArn + "/cognito-user-pool-password-policy", "ProductArn": f"arn:{awsPartition}:securityhub:{awsRegion}:{awsAccountId}:product/{awsAccountId}/default", "GeneratorId": userPoolId, "awsAccountId": awsAccountId, "Types": ["Software and Configuration Checks/AWS Security Best Practices"], "FirstObservedAt": iso8601Time, "CreatedAt": iso8601Time, "UpdatedAt": iso8601Time, "Severity": {"Label": "INFORMATIONAL"}, "Confidence": 99, "Title": "[Cognito-IdP.1] Cognito user pools should have a password policy that meets or exceed AWS CIS Foundations Benchmark standards", "Description": "Cognito user pool " + userPoolArn + " meets the password guidelines.", "Remediation": { "Recommendation": { "Text": "To ensure you Cognito user pools have a password policy that meets or exceed AWS CIS Foundations Benchmark standards refer to the Adding User Pool Password Requirements section of the Amazon Cognito Developer Guide", "Url": "https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-policies.html", } }, "ProductFields": {"Product Name": "ElectricEye"}, "Resources": [ { "Type": "AwsCognitoUserPool", "Id": userPoolArn, "Partition": awsPartition, "Region": awsRegion, "Details": {"Other": {"UserPoolId": userPoolId}}, } ], "Compliance": { "Status": "PASSED", "RelatedRequirements": [ "NIST CSF PR.AC-1", "NIST SP 800-53 AC-1", "NIST SP 800-53 AC-2", "NIST SP 800-53 IA-1", "NIST SP 800-53 IA-2", "NIST SP 800-53 IA-3", "NIST SP 800-53 IA-4", "NIST SP 800-53 IA-5", "NIST SP 800-53 IA-6", "NIST SP 800-53 IA-7", "NIST SP 800-53 IA-8", "NIST SP 800-53 IA-9", "NIST SP 800-53 IA-10", "NIST SP 800-53 IA-11", "AICPA TSC CC6.1", "AICPA TSC CC6.2", "ISO 27001:2013 A.9.2.1", "ISO 27001:2013 A.9.2.2", "ISO 27001:2013 A.9.2.3", "ISO 27001:2013 A.9.2.4", "ISO 27001:2013 A.9.2.6", "ISO 27001:2013 A.9.3.1", "ISO 27001:2013 A.9.4.2", "ISO 27001:2013 A.9.4.3", ], }, "Workflow": {"Status": "RESOLVED"}, "RecordState": "ARCHIVED", } yield finding else: # create Sec Hub finding finding = { "SchemaVersion": "2018-10-08", "Id": userPoolArn + "/cognito-user-pool-password-policy", "ProductArn": f"arn:{awsPartition}:securityhub:{awsRegion}:{awsAccountId}:product/{awsAccountId}/default", "GeneratorId": userPoolId, "AwsAccountId": awsAccountId, "Types": ["Software and Configuration Checks/AWS Security Best Practices"], "FirstObservedAt": iso8601Time, "CreatedAt": iso8601Time, "UpdatedAt": iso8601Time, "Severity": {"Label": "MEDIUM"}, "Confidence": 99, "Title": "[Cognito-IdP.1] Cognito user pools should have a password policy that meets or exceed AWS CIS Foundations Benchmark standards", "Description": "Cognito user pool " + userPoolArn + " does not meet the password guidelines. Password policies, in part, enforce password complexity requirements, setting a password complexity policy increases account resiliency against brute force login attempts. Refer to the remediation instructions to remediate this behavior", "Remediation": { "Recommendation": { "Text": "To ensure you Cognito user pools have a password policy that meets or exceed AWS CIS Foundations Benchmark standards refer to the Adding User Pool Password Requirements section of the Amazon Cognito Developer Guide", "Url": "https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-policies.html", } }, "ProductFields": {"Product Name": "ElectricEye"}, "Resources": [ { "Type": "AwsCognitoUserPool", "Id": userPoolArn, "Partition": awsPartition, "Region": awsRegion, "Details": {"Other": {"UserPoolId": userPoolId}}, } ], "Compliance": { "Status": "FAILED", "RelatedRequirements": [ "NIST CSF PR.AC-1", "NIST SP 800-53 AC-1", "NIST SP 800-53 AC-2", "NIST SP 800-53 IA-1", "NIST SP 800-53 IA-2", "NIST SP 800-53 IA-3", "NIST SP 800-53 IA-4", "NIST SP 800-53 IA-5", "NIST SP 800-53 IA-6", "NIST SP 800-53 IA-7", "NIST SP 800-53 IA-8", "NIST SP 800-53 IA-9", "NIST SP 800-53 IA-10", "NIST SP 800-53 IA-11", "AICPA TSC CC6.1", "AICPA TSC CC6.2", "ISO 27001:2013 A.9.2.1", "ISO 27001:2013 A.9.2.2", "ISO 27001:2013 A.9.2.3", "ISO 27001:2013 A.9.2.4", "ISO 27001:2013 A.9.2.6", "ISO 27001:2013 A.9.3.1", "ISO 27001:2013 A.9.4.2", "ISO 27001:2013 A.9.4.3", ], }, "Workflow": {"Status": "NEW"}, "RecordState": "ACTIVE", } yield finding @registry.register_check("sns") def cognitoidp_temp_password_check(cache: dict, awsAccountId: str, awsRegion: str, awsPartition: str) -> dict: """[Cognito-IdP.2] Cognito user pools should not allow temporary passwords to stay valid beyond 24 hours""" response = list_user_pools(cache) myCognitoUserPools = response["UserPools"] for userpools in myCognitoUserPools: userPoolId = str(userpools["Id"]) response = cognitoidp.describe_user_pool(UserPoolId=userPoolId) userPoolArn = str(response["UserPool"]["Arn"]) userPoolId = str(response["UserPool"]["Id"]) cognitoPwPolicy = response["UserPool"]["Policies"]["PasswordPolicy"] tempPwValidityCheck = int(cognitoPwPolicy["TemporaryPasswordValidityDays"]) # ISO Time iso8601Time = datetime.datetime.utcnow().replace(tzinfo=datetime.timezone.utc).isoformat() if tempPwValidityCheck > 1: # create Sec Hub finding finding = { "SchemaVersion": "2018-10-08", "Id": userPoolArn + "/cognito-user-pool-temp-password-life", "ProductArn": f"arn:{awsPartition}:securityhub:{awsRegion}:{awsAccountId}:product/{awsAccountId}/default", "GeneratorId": userPoolId, "AwsAccountId": awsAccountId, "Types": ["Software and Configuration Checks/AWS Security Best Practices"], "FirstObservedAt": iso8601Time, "CreatedAt": iso8601Time, "UpdatedAt": iso8601Time, "Severity": {"Label": "MEDIUM"}, "Confidence": 99, "Title": "[Cognito-IdP.2] Cognito user pools should not allow temporary passwords to stay valid beyond 24 hours", "Description": "Cognito user pool " + userPoolArn + " allows temporary passwords to stay valid beyond 24 hours. Password policies, in part, enforce password complexity requirements, setting a password complexity policy increases account resiliency against brute force login attempts. Refer to the remediation instructions if this configuration is not intended", "Remediation": { "Recommendation": { "Text": "To modify your Cognito user pool temporary password policy refer to the Authentication Flow for Users Created by Administrators or Developers section of the Amazon Cognito Developer Guide", "Url": "https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-policies.html", } }, "ProductFields": {"Product Name": "ElectricEye"}, "Resources": [ { "Type": "AwsCognitoUserPool", "Id": userPoolArn, "Partition": awsPartition, "Region": awsRegion, "Details": {"Other": {"UserPoolId": userPoolId}}, } ], "Compliance": { "Status": "FAILED", "RelatedRequirements": [ "NIST CSF PR.AC-1", "NIST SP 800-53 AC-1", "NIST SP 800-53 AC-2", "NIST SP 800-53 IA-1", "NIST SP 800-53 IA-2", "NIST SP 800-53 IA-3", "NIST SP 800-53 IA-4", "NIST SP 800-53 IA-5", "NIST SP 800-53 IA-6", "NIST SP 800-53 IA-7", "NIST SP 800-53 IA-8", "NIST SP 800-53 IA-9", "NIST SP 800-53 IA-10", "NIST SP 800-53 IA-11", "AICPA TSC CC6.1", "AICPA TSC CC6.2", "ISO 27001:2013 A.9.2.1", "ISO 27001:2013 A.9.2.2", "ISO 27001:2013 A.9.2.3", "ISO 27001:2013 A.9.2.4", "ISO 27001:2013 A.9.2.6", "ISO 27001:2013 A.9.3.1", "ISO 27001:2013 A.9.4.2", "ISO 27001:2013 A.9.4.3", ], }, "Workflow": {"Status": "NEW"}, "RecordState": "ACTIVE", } yield finding else: finding = { "SchemaVersion": "2018-10-08", "Id": userPoolArn + "/cognito-user-pool-temp-password-life", "ProductArn": f"arn:{awsPartition}:securityhub:{awsRegion}:{awsAccountId}:product/{awsAccountId}/default", "GeneratorId": userPoolId, "AwsAccountId": awsAccountId, "Types": ["Software and Configuration Checks/AWS Security Best Practices"], "FirstObservedAt": iso8601Time, "CreatedAt": iso8601Time, "UpdatedAt": iso8601Time, "Severity": {"Label": "INFORMATIONAL"}, "Confidence": 99, "Title": "[Cognito-IdP.2] Cognito user pools should not allow temporary passwords to stay valid beyond 24 hours", "Description": "Cognito user pool " + userPoolArn + " does not allow temporary passwords to stay valid beyond 24 hours.", "Remediation": { "Recommendation": { "Text": "To modify your Cognito user pool temporary password policy refer to the Authentication Flow for Users Created by Administrators or Developers section of the Amazon Cognito Developer Guide", "Url": "https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-policies.html", } }, "ProductFields": {"Product Name": "ElectricEye"}, "Resources": [ { "Type": "AwsCognitoUserPool", "Id": userPoolArn, "Partition": awsPartition, "Region": awsRegion, "Details": {"Other": {"UserPoolId": userPoolId}}, } ], "Compliance": { "Status": "PASSED", "RelatedRequirements": [ "NIST CSF PR.AC-1", "NIST SP 800-53 AC-1", "NIST SP 800-53 AC-2", "NIST SP 800-53 IA-1", "NIST SP 800-53 IA-2", "NIST SP 800-53 IA-3", "NIST SP 800-53 IA-4", "NIST SP 800-53 IA-5", "NIST SP 800-53 IA-6", "NIST SP 800-53 IA-7", "NIST SP 800-53 IA-8", "NIST SP 800-53 IA-9", "NIST SP 800-53 IA-10", "NIST SP 800-53 IA-11", "AICPA TSC CC6.1", "AICPA TSC CC6.2", "ISO 27001:2013 A.9.2.1", "ISO 27001:2013 A.9.2.2", "ISO 27001:2013 A.9.2.3", "ISO 27001:2013 A.9.2.4", "ISO 27001:2013 A.9.2.6", "ISO 27001:2013 A.9.3.1", "ISO 27001:2013 A.9.4.2", "ISO 27001:2013 A.9.4.3", ], }, "Workflow": {"Status": "RESOLVED"}, "RecordState": "ARCHIVED", } yield finding @registry.register_check("sns") def cognitoidp_mfa_check(cache: dict, awsAccountId: str, awsRegion: str, awsPartition: str) -> dict: """[Cognito-IdP.3] Cognito user pools should enforce multi factor authentication (MFA)""" response = list_user_pools(cache) myCognitoUserPools = response["UserPools"] for userpools in myCognitoUserPools: userPoolId = str(userpools["Id"]) response = cognitoidp.describe_user_pool(UserPoolId=userPoolId) userPoolArn = str(response["UserPool"]["Arn"]) userPoolId = str(response["UserPool"]["Id"]) mfaCheck = str(response["UserPool"]["MfaConfiguration"]) # ISO Time iso8601Time = datetime.datetime.utcnow().replace(tzinfo=datetime.timezone.utc).isoformat() if mfaCheck != "ON": finding = { "SchemaVersion": "2018-10-08", "Id": userPoolArn + "/cognito-user-pool-mfa", "ProductArn": f"arn:{awsPartition}:securityhub:{awsRegion}:{awsAccountId}:product/{awsAccountId}/default", "GeneratorId": userPoolId, "AwsAccountId": awsAccountId, "Types": ["Software and Configuration Checks/AWS Security Best Practices"], "FirstObservedAt": iso8601Time, "CreatedAt": iso8601Time, "UpdatedAt": iso8601Time, "Severity": {"Label": "HIGH"}, "Confidence": 99, "Title": "[Cognito-IdP.3] Cognito user pools should enforce multi factor authentication (MFA)", "Description": "Cognito user pool " + userPoolArn + " does not enforce multi factor authentication (MFA). AWS recommends enabling MFA for all accounts that have a console password. Enabling MFA provides increased security for console access because it requires the authenticating principal to possess a device that emits a time-sensitive key and have knowledge of a credential. Refer to the remediation instructions to remediate this behavior", "Remediation": { "Recommendation": { "Text": "To ensure you Cognito user pools enforce MFA refer to the Adding Multi-Factor Authentication (MFA) to a User Pool section of the Amazon Cognito Developer Guide", "Url": "https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-mfa.html", } }, "ProductFields": {"Product Name": "ElectricEye"}, "Resources": [ { "Type": "AwsCognitoUserPool", "Id": userPoolArn, "Partition": awsPartition, "Region": awsRegion, "Details": {"Other": {"UserPoolId": userPoolId}}, } ], "Compliance": { "Status": "FAILED", "RelatedRequirements": [ "NIST CSF PR.AC-1", "NIST SP 800-53 AC-1", "NIST SP 800-53 AC-2", "NIST SP 800-53 IA-1", "NIST SP 800-53 IA-2", "NIST SP 800-53 IA-3", "NIST SP 800-53 IA-4", "NIST SP 800-53 IA-5", "NIST SP 800-53 IA-6", "NIST SP 800-53 IA-7", "NIST SP 800-53 IA-8", "NIST SP 800-53 IA-9", "NIST SP 800-53 IA-10", "NIST SP 800-53 IA-11", "AICPA TSC CC6.1", "AICPA TSC CC6.2", "ISO 27001:2013 A.9.2.1", "ISO 27001:2013 A.9.2.2", "ISO 27001:2013 A.9.2.3", "ISO 27001:2013 A.9.2.4", "ISO 27001:2013 A.9.2.6", "ISO 27001:2013 A.9.3.1", "ISO 27001:2013 A.9.4.2", "ISO 27001:2013 A.9.4.3", ], }, "Workflow": {"Status": "NEW"}, "RecordState": "ACTIVE", } yield finding else: finding = { "SchemaVersion": "2018-10-08", "Id": userPoolArn + "/cognito-user-pool-mfa", "ProductArn": f"arn:{awsPartition}:securityhub:{awsRegion}:{awsAccountId}:product/{awsAccountId}/default", "GeneratorId": userPoolId, "AwsAccountId": awsAccountId, "Types": ["Software and Configuration Checks/AWS Security Best Practices"], "FirstObservedAt": iso8601Time, "CreatedAt": iso8601Time, "UpdatedAt": iso8601Time, "Severity": {"Label": "INFORMATIONAL"}, "Confidence": 99, "Title": "[Cognito-IdP.3] Cognito user pools should enforce multi factor authentication (MFA)", "Description": "Cognito user pool " + userPoolArn + " enforces multi factor authentication (MFA).", "Remediation": { "Recommendation": { "Text": "To ensure you Cognito user pools enforce MFA refer to the Adding Multi-Factor Authentication (MFA) to a User Pool section of the Amazon Cognito Developer Guide", "Url": "https://docs.aws.amazon.com/cognito/latest/developerguide/user-pool-settings-mfa.html", } }, "ProductFields": {"Product Name": "ElectricEye"}, "Resources": [ { "Type": "AwsCognitoUserPool", "Id": userPoolArn, "Partition": awsPartition, "Region": awsRegion, "Details": {"Other": {"UserPoolId": userPoolId}}, } ], "Compliance": { "Status": "PASSED", "RelatedRequirements": [ "NIST CSF PR.AC-1", "NIST SP 800-53 AC-1", "NIST SP 800-53 AC-2", "NIST SP 800-53 IA-1", "NIST SP 800-53 IA-2", "NIST SP 800-53 IA-3", "NIST SP 800-53 IA-4", "NIST SP 800-53 IA-5", "NIST SP 800-53 IA-6", "NIST SP 800-53 IA-7", "NIST SP 800-53 IA-8", "NIST SP 800-53 IA-9", "NIST SP 800-53 IA-10", "NIST SP 800-53 IA-11", "AICPA TSC CC6.1", "AICPA TSC CC6.2", "ISO 27001:2013 A.9.2.1", "ISO 27001:2013 A.9.2.2", "ISO 27001:2013 A.9.2.3", "ISO 27001:2013 A.9.2.4", "ISO 27001:2013 A.9.2.6", "ISO 27001:2013 A.9.3.1", "ISO 27001:2013 A.9.4.2", "ISO 27001:2013 A.9.4.3", ], }, "Workflow": {"Status": "RESOLVED"}, "RecordState": "ARCHIVED", } yield finding

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py

Python

fasp/runner/__init__.py

lifebit-ai/fasp-scripts

572b0944372f0973979a3029e5c6dbeb01073d56

[ "Apache-2.0" ]

8

2020-09-30T16:45:07.000Z

2021-10-01T09:02:59.000Z

fasp/runner/__init__.py

lifebit-ai/fasp-scripts

572b0944372f0973979a3029e5c6dbeb01073d56

[ "Apache-2.0" ]

28

2020-10-09T12:07:26.000Z

2021-04-18T16:33:36.000Z

fasp/runner/__init__.py

lifebit-ai/fasp-scripts

572b0944372f0973979a3029e5c6dbeb01073d56

[ "Apache-2.0" ]

3

2020-11-27T17:49:28.000Z

2021-03-10T17:33:38.000Z

from fasp.runner.fasp_runner import FASPRunner from fasp.runner.fasp_logger import FASPLogger

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dc533000b0dcb43a4efaec8caa64173b447d04cb

13,175

py

Python

tests/testsuite_default_SharedObject.py

jwilso/sst-core

8ca5ab37f6b65537c7d58e01a8425e6084b9e315

[ "BSD-3-Clause" ]

77

2015-10-05T21:22:27.000Z

2022-03-19T23:19:21.000Z

tests/testsuite_default_SharedObject.py

jwilso/sst-core

8ca5ab37f6b65537c7d58e01a8425e6084b9e315

[ "BSD-3-Clause" ]

642

2015-10-07T14:30:11.000Z

2022-03-30T21:16:32.000Z

tests/testsuite_default_SharedObject.py

jwilso/sst-core

8ca5ab37f6b65537c7d58e01a8425e6084b9e315

[ "BSD-3-Clause" ]

75

2015-11-21T00:23:46.000Z

2022-03-11T01:27:51.000Z

# -*- coding: utf-8 -*- import os import sys from sst_unittest import * from sst_unittest_support import * ################################################################################ # Code to support a single instance module initialize, must be called setUp method module_init = 0 module_sema = threading.Semaphore() def initializeTestModule_SingleInstance(class_inst): global module_init global module_sema module_sema.acquire() if module_init != 1: # Put your single instance Init Code Here module_init = 1 module_sema.release() ################################################################################ class testcase_SharedObject(SSTTestCase): def initializeClass(self, testName): super(type(self), self).initializeClass(testName) # Put test based setup code here. it is called before testing starts # NOTE: This method is called once for every test def setUp(self): super(type(self), self).setUp() initializeTestModule_SingleInstance(self) # Put test based setup code here. it is called once before every test def tearDown(self): # Put test based teardown code here. it is called once after every test super(type(self), self).tearDown() ##### # SharedArray Tests # Full Initialization # single - only ID 0 initializes array # init_verify # fe_verify # no_verify # multi - also has ID N-1 initialize array # no conflict - both IDs write same data # conflict - IDs write different data # init_verify # fe_verify # no_verify # Partial initialize (everyone initializes their own portion) # late_write = true # do not publish = true # nopub and late_write true # double_initialize # Late_initialize def test_SharedObject_array_full_single_init(self): self.sharedobject_test_template("array_full_single_init", 0, "--param=object_type:array --param=num_entities:12 --param=full_initialization:true") def test_SharedObject_array_full_single_fe(self): self.sharedobject_test_template("array_full_single_fe", 0, "--param=object_type:array --param=num_entities:12 --param=full_initialization:true --param=verify_mode:FE") def test_SharedObject_array_full_single_none(self): self.sharedobject_test_template("array_full_single_none", 0, "--param=object_type:array --param=num_entities:12 --param=full_initialization:true --param=verify_mode:NONE") def test_SharedObject_array_full_multi(self): self.sharedobject_test_template("array_full_multi", 0, "--param=object_type:array --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true") def test_SharedObject_array_full_multi_conflict_init(self): self.sharedobject_test_template("array_full_multi_conflict_init", 1, "--param=object_type:array --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true --param=conflicting_write:true") def test_SharedObject_array_full_multi_conflict_fe(self): self.sharedobject_test_template("array_full_multi_conflict_fe", 1, "--param=object_type:array --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true --param=conflicting_write:true --param=verify_mode:FE") def test_SharedObject_array_full_multi_conflict_none(self): self.sharedobject_test_template("array_full_multi_conflict_none", 0, "--param=object_type:array --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true --param=conflicting_write:true --param=verify_mode:NONE") def test_SharedObject_array_partial(self): self.sharedobject_test_template("array_partial", 0, "--param=object_type:array --param=num_entities:12 --param=full_initialization:false") def test_SharedObject_array_partial_nopub(self): self.sharedobject_test_template("array_partial_nopub", 0, "--param=object_type:array --param=num_entities:12 --param=full_initialization:false --param=publish:false") def test_SharedObject_array_partial_late(self): self.sharedobject_test_template("array_partial_late", 1, "--param=object_type:array --param=num_entities:12 --param=full_initialization:false --param=late_write:true") def test_SharedObject_array_partial_late_nopub(self): self.sharedobject_test_template("array_partial_late_nopub", 1, "--param=object_type:array --param=num_entities:12 --param=full_initialization:false --param=late_write:true --param=publish:false") def test_SharedObject_array_partial_doubleinit(self): self.sharedobject_test_template("array_partial_doubleinit", 1, "--param=object_type:array --param=num_entities:12 --param=full_initialization:false --param=double_initialize:true") def test_SharedObject_array_late_initialize(self): self.sharedobject_test_template("array_late_initialize", 1, "--param=object_type:array --param=num_entities:12 --param=late_initialize:true") # SharedMap Tests # Full Initialization # single - only ID 0 initializes map # init_verify # fe_verify # no_verify # multi - also has ID N-1 initialize map # no conflict - both IDs write same data # conflict - IDs write different data # init_verify # fe_verify # no_verify # Partial initialize (everyone initializes their own portion) # late_write = true # do not publish = true # nopub and late_write true # double_initialize # Late_initialize def test_SharedObject_map_full_single_init(self): self.sharedobject_test_template("map_full_single_init", 0, "--param=object_type:map --param=num_entities:12 --param=full_initialization:true") def test_SharedObject_map_full_single_fe(self): self.sharedobject_test_template("map_full_single_fe", 0, "--param=object_type:map --param=num_entities:12 --param=full_initialization:true --param=verify_mode:FE") def test_SharedObject_map_full_single_none(self): self.sharedobject_test_template("map_full_single_none", 0, "--param=object_type:map --param=num_entities:12 --param=full_initialization:true --param=verify_mode:NONE") def test_SharedObject_map_full_multi(self): self.sharedobject_test_template("map_full_multi", 0, "--param=object_type:map --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true") def test_SharedObject_map_full_multi_conflict_init(self): self.sharedobject_test_template("map_full_multi_conflict_init", 1, "--param=object_type:map --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true --param=conflicting_write:true") def test_SharedObject_map_full_multi_conflict_fe(self): self.sharedobject_test_template("map_full_multi_conflict_fe", 1, "--param=object_type:map --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true --param=conflicting_write:true --param=verify_mode:FE") def test_SharedObject_map_full_multi_conflict_none(self): self.sharedobject_test_template("map_full_multi_conflict_none", 0, "--param=object_type:map --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true --param=conflicting_write:true --param=verify_mode:NONE") def test_SharedObject_map_partial(self): self.sharedobject_test_template("map_partial", 0, "--param=object_type:map --param=num_entities:12 --param=full_initialization:false") def test_SharedObject_map_partial_nopub(self): self.sharedobject_test_template("map_partial_nopub", 0, "--param=object_type:map --param=num_entities:12 --param=full_initialization:false --param=publish:false") def test_SharedObject_map_partial_late(self): self.sharedobject_test_template("map_partial_late", 1, "--param=object_type:map --param=num_entities:12 --param=full_initialization:false --param=late_write:true") def test_SharedObject_map_partial_late_nopub(self): self.sharedobject_test_template("map_partial_late_nopub", 1, "--param=object_type:map --param=num_entities:12 --param=full_initialization:false --param=late_write:true --param=publish:false") def test_SharedObject_map_partial_doubleinit(self): self.sharedobject_test_template("map_partial_doubleinit", 1, "--param=object_type:map --param=num_entities:12 --param=full_initialization:false --param=double_initialize:true") def test_SharedObject_map_late_initialize(self): self.sharedobject_test_template("map_late_initialize", 1, "--param=object_type:map --param=num_entities:12 --param=late_initialize:true") # SharedSet Tests # Full Initialization # single - only ID 0 initializes set # init_verify # fe_verify # no_verify # multi - also has ID N-1 initialize set # no conflict - both IDs write same data # conflict - IDs write different data # init_verify # fe_verify # no_verify # Partial initialize (everyone initializes their own portion) # late_write = true # do not publish = true # nopub and late_write true # double_initialize # Late_initialize def test_SharedObject_set_full_single_init(self): self.sharedobject_test_template("set_full_single_init", 0, "--param=object_type:set --param=num_entities:12 --param=full_initialization:true") def test_SharedObject_set_full_single_fe(self): self.sharedobject_test_template("set_full_single_fe", 0, "--param=object_type:set --param=num_entities:12 --param=full_initialization:true --param=verify_mode:FE") def test_SharedObject_set_full_single_none(self): self.sharedobject_test_template("set_full_single_none", 0, "--param=object_type:set --param=num_entities:12 --param=full_initialization:true --param=verify_mode:NONE") def test_SharedObject_set_full_multi(self): self.sharedobject_test_template("set_full_multi", 0, "--param=object_type:set --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true") def test_SharedObject_set_full_multi_conflict_init(self): self.sharedobject_test_template("set_full_multi_conflict_init", 1, "--param=object_type:set --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true --param=conflicting_write:true") def test_SharedObject_set_full_multi_conflict_fe(self): self.sharedobject_test_template("set_full_multi_conflict_fe", 1, "--param=object_type:set --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true --param=conflicting_write:true --param=verify_mode:FE") def test_SharedObject_set_full_multi_conflict_none(self): self.sharedobject_test_template("set_full_multi_conflict_none", 0, "--param=object_type:set --param=num_entities:12 --param=full_initialization:true --param=multiple_initializers:true --param=conflicting_write:true --param=verify_mode:NONE") def test_SharedObject_set_partial(self): self.sharedobject_test_template("set_partial", 0, "--param=object_type:set --param=num_entities:12 --param=full_initialization:false") def test_SharedObject_set_partial_nopub(self): self.sharedobject_test_template("set_partial_nopub", 0, "--param=object_type:set --param=num_entities:12 --param=full_initialization:false --param=publish:false") def test_SharedObject_set_partial_late(self): self.sharedobject_test_template("set_partial_late", 1, "--param=object_type:set --param=num_entities:12 --param=full_initialization:false --param=late_write:true") def test_SharedObject_set_partial_late_nopub(self): self.sharedobject_test_template("set_partial_late_nopub", 1, "--param=object_type:set --param=num_entities:12 --param=full_initialization:false --param=late_write:true --param=publish:false") def test_SharedObject_set_partial_doubleinit(self): self.sharedobject_test_template("set_partial_doubleinit", 1, "--param=object_type:set --param=num_entities:12 --param=full_initialization:false --param=double_initialize:true") def test_SharedObject_set_late_initialize(self): self.sharedobject_test_template("set_late_initialize", 1, "--param=object_type:set --param=num_entities:12 --param=late_initialize:true") ##### def sharedobject_test_template(self, testtype, exp_rc, options): testsuitedir = self.get_testsuite_dir() outdir = test_output_get_run_dir() model_options = '--model-options="{0}"'.format(options) # Set the various file paths sdlfile = "{0}/test_SharedObject.py".format(testsuitedir) #reffile = "{0}/sharedobject_tests/refFiles/test_{1}.out".format(testsuitedir, testtype) outfile = "{0}/test_SharedObject_{1}.out".format(outdir, testtype) self.run_sst(sdlfile, outfile, other_args=model_options, expected_rc = exp_rc) # No need to perform test since we're just looking for it to # complete without an error

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7

f4aad8d25cc4b61e95f1e145e50412b0b943546a

3,981

py

Python

starkplot/_axes/decorators.py

nstarman/starkplot

e629abfa96448281cf590911107362f77c11fb4a

[ "BSD-3-Clause" ]

2

2019-03-22T22:07:27.000Z

2020-11-20T18:27:09.000Z

starkplot/_axes/decorators.py

nstarman/starkplot

e629abfa96448281cf590911107362f77c11fb4a

[ "BSD-3-Clause" ]

3

2020-09-25T06:58:28.000Z

2021-12-20T00:16:21.000Z

starkplot/_axes/decorators.py

nstarman/starkplot

e629abfa96448281cf590911107362f77c11fb4a

[ "BSD-3-Clause" ]

null

#!/usr/bin/env python # -*- coding: utf-8 -*- # ---------------------------------------------------------------------------- # # TITLE : AddFigArg # PROJECT : starkplot # # ---------------------------------------------------------------------------- ### Docstring and Metadata """TODO """ __author__ = "Nathaniel Starkman" __credits__ = ["matplotlib"] # __all__ = ['figure', ] ############################################################################## ### IMPORTS ## General # matplotlib from matplotlib import pyplot from matplotlib.pyplot import figure, Figure ## Project-Specific from ._current_axes import gca, sca ############################################################################### class GetAxArg: r""" Make a function from a Figure method which accepts a figure as a kwarg ex: pyplot.Figure.set_size_inches(self, ...) becomes myfunc(..., fig=None) fig kwarg options: None: uses current figure Figure: uses figure instance int: uses figure with that number TODO test it as a decorator TODO use decorator.FunctionMaker.create to perserve docstring & signature """ def __new__(cls, func=None, **kw): # make self from super self = super().__new__(cls) # -------- docs -------- # Control the __doc__ options # default to wrapped functions documentation, if available _doc_default = func.__doc__ if func is not None else None doc = kw.get("_doc", _doc_default) # if _doc is if callable(doc): self._doc = doc.__doc__ else: self._doc = doc # -------- decorator return -------- # the function if func is None: return self else: return self(func) # /def def __call__(self, wrapped_func): def wrapped(ax=None): oldax = pyplot.gca() # saving old figure ax = gca(ax=ax) # get figure from fig argument return_ = wrapped_func(ax) sca(ax=oldax) # make old fig current return return_ # /def # assign documentation wrapped.__doc__ = wrapped_func.__doc__ return wrapped # /def # /class ############################################################################### class SetAxArg: r""" Make a function from a Figure method which accepts a figure as a kwarg ex: pyplot.Figure.set_size_inches(self, ...) becomes myfunc(..., fig=None) fig kwarg options: None: uses current figure Figure: uses figure instance int: uses figure with that number TODO test it as a decorator TODO use decorator.FunctionMaker.create to perserve docstring & signature """ def __new__(cls, func=None, **kw): # make self from super self = super().__new__(cls) # -------- docs -------- # Control the __doc__ options # default to wrapped functions documentation, if available _doc_default = func.__doc__ if func is not None else None doc = kw.get("_doc", _doc_default) # if _doc is if callable(doc): self._doc = doc.__doc__ else: self._doc = doc # -------- decorator return -------- # the function if func is None: return self else: return self(func) # /def def __call__(self, wrapped_func): def wrapped(*args, ax=None, **kwargs): oldax = pyplot.gca() # saving old figure ax = sca(ax=ax) # get right figure # apply function with correct figure return_ = wrapped_func(pyplot.gca(), *args, **kwargs) sca(ax=oldax) # make old fig current return return_ # /def # assign documentation wrapped.__doc__ = wrapped_func.__doc__ return wrapped # /def # /class

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1

0

null

0

1

0

7

7611c209e194f17dbee0542ad796ae730b3fcba0

1,927

py

Python

pyfirmata/boards.py

BosonsHiggs/arduPython

77114f70f5338109be1a440f8b35f833dc6bba1a

[ "MIT" ]

null

pyfirmata/boards.py

BosonsHiggs/arduPython

77114f70f5338109be1a440f8b35f833dc6bba1a

[ "MIT" ]

null

pyfirmata/boards.py

BosonsHiggs/arduPython

77114f70f5338109be1a440f8b35f833dc6bba1a

[ "MIT" ]

1

2022-01-05T00:01:46.000Z

BOARDS = { 'arduino_uno': { 'digital': tuple(x for x in range(14)), 'analog': tuple(x for x in range(6)), 'pwm': (3, 5, 6, 9, 10, 11), 'use_ports': True, 'disabled': (0, 1) # Rx, Tx, Crystal }, 'arduino_mega': { 'digital': tuple(x for x in range(54)), 'analog': tuple(x for x in range(16)), 'pwm': tuple(x for x in range(2, 14)), 'use_ports': True, 'disabled': (0, 1) # Rx, Tx, Crystal }, 'arduino_due': { 'digital': tuple(x for x in range(54)), 'analog': tuple(x for x in range(12)), 'pwm': tuple(x for x in range(2, 14)), 'use_ports': True, 'disabled': (0, 1) # Rx, Tx, Crystal }, 'arduino_nano': { 'digital': tuple(x for x in range(14)), 'analog': tuple(x for x in range(8)), 'pwm': (3, 5, 6, 9, 10, 11), 'use_ports': True, 'disabled': (0, 1) # Rx, Tx, Crystal }, 'arduino_leonardo': { 'digital': tuple(x for x in range(20)), 'analog': tuple(x for x in range(12)), 'pwm': (3, 5, 6, 9, 10, 11, 13), 'use_ports': True, 'disabled': (0, 1) # Rx, Tx, Crystal }, 'arduino_pro_micro': { 'digital': (0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 14, 15, 16), 'analog': (0, 1, 2, 3, 6, 7, 8, 9), 'pwm': (3, 5, 6, 9, 10), 'use_ports': True, 'disabled': (0, 1) # Rx, Tx, Crystal }, 'arduino_pro_mini': { 'digital': tuple(x for x in range(14)), 'analog': tuple(x for x in range(5)), 'pwm': (3, 5, 6, 9, 10, 11), 'use_ports': True, 'disabled': (0, 1) # Rx, Tx, Crystal }, 'arduino_lilypad': { 'digital': tuple(x for x in range(14)), 'analog': tuple(x for x in range(5)), 'pwm': (5, 6, 9, 10, 11), 'use_ports': True, 'disabled': (0, 1) # Rx, Tx, Crystal } }

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false

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null

0

1

0

null

0

7

761a5559f77917cdfc961f564c3d2a556ccf7790

9,246

py

Python

inspection_sdk/api/task/task_client.py

easyopsapis/easyops-api-python

adf6e3bad33fa6266b5fa0a449dd4ac42f8447d0

[ "Apache-2.0" ]

5

2019-07-31T04:11:05.000Z

2021-01-07T03:23:20.000Z

inspection_sdk/api/task/task_client.py

easyopsapis/easyops-api-python

adf6e3bad33fa6266b5fa0a449dd4ac42f8447d0

[ "Apache-2.0" ]

null

inspection_sdk/api/task/task_client.py

easyopsapis/easyops-api-python

adf6e3bad33fa6266b5fa0a449dd4ac42f8447d0

[ "Apache-2.0" ]

null

# -*- coding: utf-8 -*- import os import sys import inspection_sdk.api.task.create_pb2 import inspection_sdk.api.task.delete_pb2 import google.protobuf.empty_pb2 import inspection_sdk.api.task.get_pb2 import inspection_sdk.model.inspection.task_pb2 import inspection_sdk.api.task.list_pb2 import inspection_sdk.api.task.update_pb2 import inspection_sdk.utils.http_util import google.protobuf.json_format class TaskClient(object): def __init__(self, server_ip="", server_port=0, service_name="", host=""): """ 初始化client :param server_ip: 指定sdk请求的server_ip，为空时走名字服务路由 :param server_port: 指定sdk请求的server_port，与server_ip一起使用, 为空时走名字服务路由 :param service_name: 指定sdk请求的service_name, 为空时按契约名称路由。如果server_ip和service_name同时设置，server_ip优先级更高 :param host: 指定sdk请求服务的host名称, 如cmdb.easyops-only.com """ if server_ip == "" and server_port != 0 or server_ip != "" and server_port == 0: raise Exception("server_ip和server_port必须同时指定") self._server_ip = server_ip self._server_port = server_port self._service_name = service_name self._host = host def create_task(self, request, org, user, timeout=10): # type: (inspection_sdk.api.task.create_pb2.CreateTaskRequest, int, str, int) -> inspection_sdk.api.task.create_pb2.CreateTaskResponse """ 创建巡检任务 :param request: create_task请求 :param org: 客户的org编号，为数字 :param user: 调用api使用的用户名 :param timeout: 调用超时时间，单位秒 :return: inspection_sdk.api.task.create_pb2.CreateTaskResponse """ headers = {"org": org, "user": user} route_name = "" server_ip = self._server_ip if self._service_name != "": route_name = self._service_name elif self._server_ip != "": route_name = "easyops.api.inspection.task.CreateTask" uri = "/api/v1/inspection/{pluginId}/task".format( pluginId=request.pluginId, ) requestParam = request rsp_obj = inspection_sdk.utils.http_util.do_api_request( method="POST", src_name="logic.inspection_sdk", dst_name=route_name, server_ip=server_ip, server_port=self._server_port, host=self._host, uri=uri, params=google.protobuf.json_format.MessageToDict( requestParam, preserving_proto_field_name=True), headers=headers, timeout=timeout, ) rsp = inspection_sdk.api.task.create_pb2.CreateTaskResponse() google.protobuf.json_format.ParseDict(rsp_obj["data"], rsp, ignore_unknown_fields=True) return rsp def delete_task(self, request, org, user, timeout=10): # type: (inspection_sdk.api.task.delete_pb2.DeleteTaskRequest, int, str, int) -> google.protobuf.empty_pb2.Empty """ 删除巡检任务 :param request: delete_task请求 :param org: 客户的org编号，为数字 :param user: 调用api使用的用户名 :param timeout: 调用超时时间，单位秒 :return: google.protobuf.empty_pb2.Empty """ headers = {"org": org, "user": user} route_name = "" server_ip = self._server_ip if self._service_name != "": route_name = self._service_name elif self._server_ip != "": route_name = "easyops.api.inspection.task.DeleteTask" uri = "/api/v1/inspection/{pluginId}/task/{inspectionTaskId}".format( pluginId=request.pluginId, inspectionTaskId=request.inspectionTaskId, ) requestParam = request rsp_obj = inspection_sdk.utils.http_util.do_api_request( method="DELETE", src_name="logic.inspection_sdk", dst_name=route_name, server_ip=server_ip, server_port=self._server_port, host=self._host, uri=uri, params=google.protobuf.json_format.MessageToDict( requestParam, preserving_proto_field_name=True), headers=headers, timeout=timeout, ) rsp = google.protobuf.empty_pb2.Empty() google.protobuf.json_format.ParseDict(rsp_obj, rsp, ignore_unknown_fields=True) return rsp def get_task(self, request, org, user, timeout=10): # type: (inspection_sdk.api.task.get_pb2.GetTaskRequest, int, str, int) -> inspection_sdk.model.inspection.task_pb2.InspectionTask """ 获取巡检任务 :param request: get_task请求 :param org: 客户的org编号，为数字 :param user: 调用api使用的用户名 :param timeout: 调用超时时间，单位秒 :return: inspection_sdk.model.inspection.task_pb2.InspectionTask """ headers = {"org": org, "user": user} route_name = "" server_ip = self._server_ip if self._service_name != "": route_name = self._service_name elif self._server_ip != "": route_name = "easyops.api.inspection.task.GetTask" uri = "/api/v1/inspection/{pluginId}/task/{inspectionTaskId}".format( pluginId=request.pluginId, inspectionTaskId=request.inspectionTaskId, ) requestParam = request rsp_obj = inspection_sdk.utils.http_util.do_api_request( method="GET", src_name="logic.inspection_sdk", dst_name=route_name, server_ip=server_ip, server_port=self._server_port, host=self._host, uri=uri, params=google.protobuf.json_format.MessageToDict( requestParam, preserving_proto_field_name=True), headers=headers, timeout=timeout, ) rsp = inspection_sdk.model.inspection.task_pb2.InspectionTask() google.protobuf.json_format.ParseDict(rsp_obj["data"], rsp, ignore_unknown_fields=True) return rsp def list_inspection_info(self, request, org, user, timeout=10): # type: (inspection_sdk.api.task.list_pb2.ListInspectionInfoRequest, int, str, int) -> inspection_sdk.api.task.list_pb2.ListInspectionInfoResponse """ 获取巡检套件列表 :param request: list_inspection_info请求 :param org: 客户的org编号，为数字 :param user: 调用api使用的用户名 :param timeout: 调用超时时间，单位秒 :return: inspection_sdk.api.task.list_pb2.ListInspectionInfoResponse """ headers = {"org": org, "user": user} route_name = "" server_ip = self._server_ip if self._service_name != "": route_name = self._service_name elif self._server_ip != "": route_name = "easyops.api.inspection.task.ListInspectionInfo" uri = "/api/v1/inspection/{pluginId}/task".format( pluginId=request.pluginId, ) requestParam = request rsp_obj = inspection_sdk.utils.http_util.do_api_request( method="GET", src_name="logic.inspection_sdk", dst_name=route_name, server_ip=server_ip, server_port=self._server_port, host=self._host, uri=uri, params=google.protobuf.json_format.MessageToDict( requestParam, preserving_proto_field_name=True), headers=headers, timeout=timeout, ) rsp = inspection_sdk.api.task.list_pb2.ListInspectionInfoResponse() google.protobuf.json_format.ParseDict(rsp_obj["data"], rsp, ignore_unknown_fields=True) return rsp def update_inspection_info(self, request, org, user, timeout=10): # type: (inspection_sdk.api.task.update_pb2.UpdateInspectionInfoRequest, int, str, int) -> google.protobuf.empty_pb2.Empty """ 更新巡检套件 :param request: update_inspection_info请求 :param org: 客户的org编号，为数字 :param user: 调用api使用的用户名 :param timeout: 调用超时时间，单位秒 :return: google.protobuf.empty_pb2.Empty """ headers = {"org": org, "user": user} route_name = "" server_ip = self._server_ip if self._service_name != "": route_name = self._service_name elif self._server_ip != "": route_name = "easyops.api.inspection.task.UpdateInspectionInfo" uri = "/api/v1/inspection/{pluginId}/task/{inspectionTaskId}".format( pluginId=request.pluginId, inspectionTaskId=request.inspectionTaskId, ) requestParam = request rsp_obj = inspection_sdk.utils.http_util.do_api_request( method="PUT", src_name="logic.inspection_sdk", dst_name=route_name, server_ip=server_ip, server_port=self._server_port, host=self._host, uri=uri, params=google.protobuf.json_format.MessageToDict( requestParam, preserving_proto_field_name=True), headers=headers, timeout=timeout, ) rsp = google.protobuf.empty_pb2.Empty() google.protobuf.json_format.ParseDict(rsp_obj, rsp, ignore_unknown_fields=True) return rsp

37.13253

154

0.619619

996

9,246

5.478916

0.125502

0.07385

0.046912

0.05864

0.846069

0.838556

0.786146

0.720359

0.706615

0

0.006938

0.282933

9,246

248

155

37.282258

0.816139

0.19522

0

0.722222

0

0.088464

0.064968

0

1

0.037037

false

0

0.067901

0

0.141975

0

null

0

1

0

1

0

null

0

7

5210f0f862bfd4c29010086d9f6eedecc6c8ee95

2,885

py

Python

modules_for_nn_training/utility_callbacks.py

zhihanyang2022/bishop1995_notes

7d428726b8fb1afac40c13bd43103a5d672ead91

[ "MIT" ]

2

2021-01-22T08:29:58.000Z

2021-12-22T02:12:33.000Z

modules_for_nn_training/utility_callbacks.py

zhihanyang2022/bishop1995_notes

7d428726b8fb1afac40c13bd43103a5d672ead91

[ "MIT" ]

null

modules_for_nn_training/utility_callbacks.py

zhihanyang2022/bishop1995_notes

7d428726b8fb1afac40c13bd43103a5d672ead91

[ "MIT" ]

null

import numpy as np import matplotlib.pyplot as plt from callbacks import Callback class BinaryAccuracyCallback(Callback): def on_train_begin(self): self.state_dict['accs'] = [] def on_epoch_begin(self): self.weighted_values = [] self.num_examples = 0 def eval_on_forward_end(self): preds = self.state_dict['yhatb'].detach().numpy() preds[preds >= 0.5] = 1 preds[preds < 0.5] = 0 preds = preds.astype(int) targets = self.state_dict['yb'].numpy() targets = targets.astype(int) acc = np.mean(preds == targets) self.weighted_values.append(acc * self.state_dict['bs']) self.num_examples += self.state_dict['bs'] def on_epoch_end(self): self.state_dict['accs'].append(np.sum(self.weighted_values) / self.num_examples) def plot(self, ax=None): if ax is None: ax = plt.gca() ax.plot(self.state_dict['accs']) ax.set_ylim(0.5, 1) ax.grid() ax.set_xlabel('Epoch'); ax.set_ylabel('Test acc') class MulticlassAccuracyCallback(Callback): def on_train_begin(self): self.state_dict['accs'] = [] def on_epoch_begin(self): self.weighted_values = [] self.num_examples = 0 def eval_on_forward_end(self): preds = self.state_dict['yhatb'].detach().numpy() preds = preds.argmax(axis=1) preds = preds.astype(int) targets = self.state_dict['yb'].numpy() targets = targets.astype(int) acc = np.mean(preds == targets) self.weighted_values.append(acc * self.state_dict['bs']) self.num_examples += self.state_dict['bs'] def on_epoch_end(self): self.state_dict['accs'].append(np.sum(self.weighted_values) / self.num_examples) def plot(self, ax=None): if ax is None: ax = plt.gca() ax.plot(self.state_dict['accs']) ax.set_ylim(0.5, 1) ax.grid() ax.set_xlabel('Epoch'); ax.set_ylabel('Test acc') class LossCallback(Callback): def on_train_begin(self): self.state_dict['losses'] = [] def on_epoch_begin(self): self.weighted_values = [] self.num_examples = 0 def eval_on_loss_end(self): self.weighted_values.append(self.state_dict['lossb'] * self.state_dict['bs']) self.num_examples += self.state_dict['bs'] def on_epoch_end(self): self.state_dict['losses'].append(np.sum(self.weighted_values) / self.num_examples) def plot(self, ax=None): if ax is None: ax = plt.gca() ax.plot(self.state_dict['losses']) ax.grid() ax.set_xlabel('Epoch'); ax.set_ylabel('Test loss')

30.368421

90

0.575043

374

2,885

4.240642

0.165775

0.113493

0.163934

0.064313

0.858764

0.851198

0.825977

0

0.007843

0.292894

2,885

95

91

30.368421

0.769608

0

0.782609

0

0.039155

0

1

0.217391

false

0

0.043478

0

0.304348

0

null

0

1

0

1

0

null

0

1

0

8

5242b176088626bc13e19afa41bc6c4770f3737b

21,215

py

Python

amazonJoma/amazonJoma/spiders/amazon.py

m2jobe/AmazonScraper

84a4c4da7d6cbd7c8f63c576e52fabffa51d281d

[ "MIT" ]

1

2017-02-15T11:20:53.000Z

amazonJoma/amazonJoma/spiders/amazon.py

m2jobe/AmazonScraper

84a4c4da7d6cbd7c8f63c576e52fabffa51d281d

[ "MIT" ]

null

amazonJoma/amazonJoma/spiders/amazon.py

m2jobe/AmazonScraper

84a4c4da7d6cbd7c8f63c576e52fabffa51d281d

[ "MIT" ]

null

# -*- coding: utf-8 -*- import scrapy from scrapy_splash import SplashRequest from amazonJoma.items import AmazonjomaItem from difflib import SequenceMatcher LISTVAL = 5200 script = """ function main(splash) splash:on_request(function(request) request:set_proxy{ host = "tor", port = 9050, type = 'HTTP', } end) assert(splash:go{ splash.args.url, headers=splash.args.headers, http_method=splash.args.http_method, body=splash.args.body, }) assert(splash:wait(0.5)) local entries = splash:history() local last_response = entries[#entries].response return { url = splash:url(), headers = last_response.headers, http_status = last_response.status, html = splash:html(), } end """ class AmazonSpider(scrapy.Spider): #http_user = "spidy" only needed if you set up authentication for your splash servers #http_pass = "spiderman" name = "amazon" allowed_domains = ["amazon.com", "jomashop.com"] #start_urls = ['http://amazon.com/'] inp = 'url.txt' data = open(inp) dat = data.read() url = dat.splitlines() inp1 = 'name.txt' data1 = open(inp1) dat1 = data1.read() prodName = dat1.splitlines() inp2 = 'retailPrice.txt' data2 = open(inp2) dat2 = data2.read() retailPrice = dat2.splitlines() inp3 = 'promoPrice.txt' data3 = open(inp3) dat3 = data3.read() promoPrice = dat3.splitlines() inp4 = 'brand.txt' data4 = open(inp4) dat4 = data4.read() brand = dat4.splitlines() inp5 = 'id.txt' data5 = open(inp5) dat5 = data5.read() id = dat5.splitlines() inp6 = 'reviews.txt' data6 = open(inp6) dat6 = data6.read() reviews = dat6.splitlines() def access_only(self): global LISTVAL return int(LISTVAL) def increment(self): global LISTVAL LISTVAL = LISTVAL+1 def start_requests(self): yield scrapy.Request("https://www.amazon.com/dp/1482703270/" , self.parse_result_page, dont_filter=True, meta={ 'splash': { 'args': { 'html': 0, 'png': 0, 'lua_source': script, 'timeout': 100, }, 'endpoint': 'render.json', }, }) def parse_result_page(self, response): #if LISTVAL < 7 : jomaBrand = self.brand[LISTVAL] jomaProductName = self.prodName[LISTVAL] jomaProductID = self.id[LISTVAL] jomaRetailPrice = self.retailPrice[LISTVAL] jomaPromotedPrice = self.promoPrice[LISTVAL] jomaUrl = self.url[LISTVAL] jomaReviews = self.reviews[LISTVAL] if response.xpath('//*[@id="noResultsTitle"]/text()').extract(): print "No results" print response.url else: if response.xpath('//*[@id="productTitle"]/text()').extract_first() or response.xpath('//*[@id="title"]/text()').extract_first(): comic = AmazonjomaItem() jomaBrand = response.meta.get('jomaBrand') jomaProductName = response.meta.get('jomaProductName') jomaProductID = response.meta.get('jomaProductID') jomaRetailPrice = response.meta.get('jomaRetailPrice') jomaPromotedPrice = response.meta.get('jomaPromotedPrice') jomaUrl = response.meta.get('jomaUrl') jomaReviews = response.meta.get('jomaReviews') comic['jomaBrand'] = jomaBrand comic['jomaProductName'] = jomaProductName comic['jomaProductID'] = jomaProductID comic['jomaRetailPrice'] = jomaRetailPrice comic['jomaPromotedPrice'] = jomaPromotedPrice comic['jomaUrl'] = jomaUrl comic['jomaReviews'] = jomaReviews comic['amazonUrl'] = response.url comic['amazonComp1Name'] = "N/A" comic['amazonComp2Name'] = "N/A" comic['amazonComp3Name'] = "N/A" comic['amazonComp1Price'] = "N/A" comic['amazonComp2Price'] = "N/A" comic['amazonComp3Price'] = "N/A" if response.xpath('//*[@id="price-shipping-message"]').extract_first(): comic['amazonRetailer'] = "amazon" elif response.xpath('//*[@id="soldByThirdParty"]/b').extract_first(): comic['amazonRetailer'] = response.xpath('//*[@id="soldByThirdParty"]/b').extract_first() if response.xpath('//*[@id="productTitle"]/text()').extract_first(): comic['amazonTitle'] = response.xpath('//*[@id="productTitle"]/text()').extract_first() elif response.xpath('//*[@id="title"]/text()').extract_first(): comic['amazonTitle'] = response.xpath('//*[@id="title"]/text()').extract_first() else : comic['amazonTitle'] = "N/A" if response.xpath('//*[@id="priceblock_ourprice"]/text()').extract_first(): comic['amazonPrice'] = response.xpath('//*[@id="priceblock_ourprice"]/text()').extract_first() else : comic['amazonPrice'] = "N/A" if response.xpath('//*[@id="acrCustomerReviewText"]/text()').extract_first(): comic['amazonReview'] = response.xpath('//*[@id="acrCustomerReviewText"]/text()').extract_first() else : comic['amazonReview'] = "N/A" if response.xpath('//*[@id="acrPopover"]/span[1]/a/i[1]/span/text()').extract_first(): comic['amazonStars'] = response.xpath('//*[@id="acrPopover"]/span[1]/a/i[1]/span/text()').extract_first() else : comic['amazonStars'] = "N/A" if response.xpath('//*[@id="mbc"]/div[2]/div/span[2]/div/div[2]/span[2]').extract_first(): comic['amazonComp1Name'] = response.xpath('//*[@id="mbc"]/div[2]/div/span[2]/div/div[2]/span[2]/text()').extract_first() comic['amazonComp1Price'] = response.xpath('//*[@id="mbc"]/div[2]/div/span[2]/div/div[1]/span[1]/text()').extract_first() if response.xpath('//*[@id="mbc"]/div[3]/div/span[2]/div/div[2]/span[2]').extract_first(): comic['amazonComp2Name'] = response.xpath('//*[@id="mbc"]/div[3]/div/span[2]/div/div[2]/span[2]/text()').extract_first() comic['amazonComp2Price'] = response.xpath('//*[@id="mbc"]/div[3]/div/span[2]/div/div[1]/span[1]/text()').extract_first() if response.xpath('//*[@id="mbc"]/div[4]/div/span[2]/div/div[2]/span[2]').extract_first(): comic['amazonComp3Name'] = response.xpath('//*[@id="mbc"]/div[4]/div/span[2]/div/div[2]/span[2]/text()').extract_first() comic['amazonComp3Price'] = response.xpath('//*[@id="mbc"]/div[4]/div/span[2]/div/div[1]/span[1]/text()').extract_first() yield comic if response.xpath('//*[@id="result_0"]/div/div[3]/div/a/h2/text()').extract(): searchStringResult = response.xpath('//*[@id="result_0"]/div/div[3]/div/a/h2/text()').extract_first() matchPerc = SequenceMatcher(None, jomaProductName, searchStringResult ).ratio() print "Joma name: " + jomaBrand print "Joma prod name: " + jomaProductName print "Joma prod id: " + jomaProductID print "Joma prod list val: " + str(LISTVAL) print "Match perc: " +str(matchPerc) print response.url if matchPerc > 0.50 : print "Fetching page" if response.xpath('//*[@id="result_0"]/div/div[3]/div[2]/a/@href').extract_first(): print "Processing Page" yield scrapy.Request(response.xpath('//*[@id="result_0"]/div/div[3]/div[2]/a/@href').extract_first(), self.parse_final_result, dont_filter=True, meta={ 'splash': { 'args': { 'html': 1, 'png': 0, 'lua_source': script, 'timeout': 200, }, 'endpoint': 'render.json' }, 'jomaProductName' : jomaProductName, 'jomaBrand' : jomaBrand, 'jomaProductID' : jomaProductID, 'jomaRetailPrice' : jomaRetailPrice, 'jomaPromotedPrice' : jomaPromotedPrice, 'jomaUrl' : jomaUrl, 'jomaReviews' : jomaReviews }) self.increment() jomaBrand = self.brand[LISTVAL] jomaProductName = self.prodName[LISTVAL] jomaProductID = self.id[LISTVAL] jomaRetailPrice = self.retailPrice[LISTVAL] jomaPromotedPrice = self.promoPrice[LISTVAL] jomaUrl = self.url[LISTVAL] jomaReviews = self.reviews[LISTVAL] keyword = jomaBrand + " " + jomaProductName + " " + jomaProductID yield scrapy.Request("https://www.amazon.com/s/ref=nb_sb_noss?url=search-alias%3Dfashion&field-keywords="+ keyword.decode('unicode_escape').encode('ascii','ignore'), self.parse_result_page, dont_filter=True, meta={ 'splash': { 'args': { 'html': 1, 'png': 0, 'lua_source': script, 'timeout': 100, }, 'endpoint': 'render.json', }, }) def parse_final_result(self, response): print "Final processing..." jomaBrand = response.meta.get('jomaBrand') jomaProductName = response.meta.get('jomaProductName') jomaProductID = response.meta.get('jomaProductID') jomaRetailPrice = response.meta.get('jomaRetailPrice') jomaPromotedPrice = response.meta.get('jomaPromotedPrice') jomaUrl = response.meta.get('jomaUrl') jomaReviews = response.meta.get('jomaReviews') if response.xpath('//*[@id="availability"]/span/a/@href').extract(): print "Alternative sellers processing.." href = response.xpath('//*[@id="availability"]/span/a/@href').extract_first() yield scrapy.Request("https://www.amazon.com" + (href), self.parse_deeper_page, dont_filter=True, meta={ 'splash': { 'args': { 'html': 1, 'png': 0, 'lua_source': script, 'timeout': 100, }, 'endpoint': 'render.json' }, 'jomaProductName' : jomaProductName, 'jomaBrand' : jomaBrand, 'jomaProductID' : jomaProductID, 'jomaRetailPrice' : jomaRetailPrice, 'jomaPromotedPrice' : jomaPromotedPrice, 'jomaUrl' : jomaUrl, 'jomaReviews' : jomaReviews }) else : comic = AmazonjomaItem() comic['jomaBrand'] = jomaBrand comic['jomaProductName'] = jomaProductName comic['jomaProductID'] = jomaProductID comic['jomaRetailPrice'] = jomaRetailPrice comic['jomaPromotedPrice'] = jomaPromotedPrice comic['jomaUrl'] = jomaUrl comic['jomaReviews'] = jomaReviews comic['amazonUrl'] = response.url comic['amazonComp1Name'] = "N/A" comic['amazonComp2Name'] = "N/A" comic['amazonComp3Name'] = "N/A" comic['amazonComp1Price'] = "N/A" comic['amazonComp2Price'] = "N/A" comic['amazonComp3Price'] = "N/A" if response.xpath('//*[@id="price-shipping-message"]').extract_first(): comic['amazonRetailer'] = "amazon" elif response.xpath('//*[@id="soldByThirdParty"]/b').extract_first(): comic['amazonRetailer'] = response.xpath('//*[@id="soldByThirdParty"]/b').extract_first() elif response.xpath('//*[@id="olpOfferList"]/div/div/div[2]/div[4]/h3/span/a/text()').extract_first(): comic['amazonRetailer'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[2]/div[4]/h3/span/a/text()').extract_first() if response.xpath('//*[@id="productTitle"]/text()').extract_first(): comic['amazonTitle'] = response.xpath('//*[@id="productTitle"]/text()').extract_first() elif response.xpath('//*[@id="title"]/text()').extract_first(): comic['amazonTitle'] = response.xpath('//*[@id="title"]/text()').extract_first() elif response.xpath('//*[@id="olpProductDetails"]/div[1]/h1/text()').extract_first(): comic['amazonTitle'] = response.xpath('//*[@id="olpProductDetails"]/div[1]/h1/text()').extract() else : comic['amazonTitle'] = "N/A" if response.xpath('//*[@id="priceblock_ourprice"]/text()').extract_first(): comic['amazonPrice'] = response.xpath('//*[@id="priceblock_ourprice"]/text()').extract_first() else : comic['amazonPrice'] = "N/A" if response.xpath('//*[@id="acrCustomerReviewText"]/text()').extract_first(): comic['amazonReview'] = response.xpath('//*[@id="acrCustomerReviewText"]/text()').extract_first() else : comic['amazonReview'] = "N/A" if response.xpath('//*[@id="acrPopover"]/span[1]/a/i[1]/span/text()').extract_first(): comic['amazonStars'] = response.xpath('//*[@id="acrPopover"]/span[1]/a/i[1]/span/text()').extract_first() else : comic['amazonStars'] = "N/A" if response.xpath('//*[@id="mbc"]/div[2]/div/span[2]/div/div[2]/span[2]').extract_first(): comic['amazonComp1Name'] = response.xpath('//*[@id="mbc"]/div[2]/div/span[2]/div/div[2]/span[2]/text()').extract_first() comic['amazonComp1Price'] = response.xpath('//*[@id="mbc"]/div[2]/div/span[2]/div/div[1]/span[1]/text()').extract_first() if response.xpath('//*[@id="mbc"]/div[3]/div/span[2]/div/div[2]/span[2]').extract_first(): comic['amazonComp2Name'] = response.xpath('//*[@id="mbc"]/div[3]/div/span[2]/div/div[2]/span[2]/text()').extract_first() comic['amazonComp2Price'] = response.xpath('//*[@id="mbc"]/div[3]/div/span[2]/div/div[1]/span[1]/text()').extract_first() if response.xpath('//*[@id="mbc"]/div[4]/div/span[2]/div/div[2]/span[2]').extract_first(): comic['amazonComp3Name'] = response.xpath('//*[@id="mbc"]/div[4]/div/span[2]/div/div[2]/span[2]/text()').extract_first() comic['amazonComp3Price'] = response.xpath('//*[@id="mbc"]/div[4]/div/span[2]/div/div[1]/span[1]/text()').extract_first() if response.xpath('//*[@id="olpOfferList"]/div/div/div[2]/div[4]/h3/span/a/text()').extract_first(): comic['amazonComp1Name'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[2]/div[4]/h3/span/a/text()').extract_first() comic['amazonComp1Price'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[2]/div[1]/span[1]/text()').extract_first() if response.xpath('//*[@id="olpOfferList"]/div/div/div[4]/div[4]/h3/span/a/text()').extract_first(): comic['amazonComp2Name'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[4]/div[4]/h3/span/a/text()').extract_first() comic['amazonComp2Price'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[4]/div[1]/span[1]/text()').extract_first() if response.xpath('//*[@id="olpOfferList"]/div/div/div[6]/div[4]/h3/span/a/text()').extract_first(): comic['amazonComp3Name'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[6]/div[4]/h3/span/a/text()').extract_first() comic['amazonComp3Price'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[6]/div[1]/span[1]/text()').extract_first() yield comic def parse_deeper_page(self, response): print "Alternative processing now" comic = AmazonjomaItem() jomaBrand = response.meta.get('jomaBrand') jomaProductName = response.meta.get('jomaProductName') jomaProductID = response.meta.get('jomaProductID') jomaRetailPrice = response.meta.get('jomaRetailPrice') jomaPromotedPrice = response.meta.get('jomaPromotedPrice') jomaUrl = response.meta.get('jomaUrl') jomaReviews = response.meta.get('jomaReviews') comic['jomaBrand'] = jomaBrand comic['jomaProductName'] = jomaProductName comic['jomaProductID'] = jomaProductID comic['jomaRetailPrice'] = jomaRetailPrice comic['jomaPromotedPrice'] = jomaPromotedPrice comic['jomaUrl'] = jomaUrl comic['jomaReviews'] = jomaReviews comic['amazonUrl'] = response.url comic['amazonComp1Name'] = "N/A" comic['amazonComp2Name'] = "N/A" comic['amazonComp3Name'] = "N/A" comic['amazonComp1Price'] = "N/A" comic['amazonComp2Price'] = "N/A" comic['amazonComp3Price'] = "N/A" if response.xpath('//*[@id="price-shipping-message"]').extract_first(): comic['amazonRetailer'] = "amazon" elif response.xpath('//*[@id="soldByThirdParty"]/b').extract_first(): comic['amazonRetailer'] = response.xpath('//*[@id="soldByThirdParty"]/b').extract_first() elif response.xpath('//*[@id="olpOfferList"]/div/div/div[2]/div[4]/h3/span/a/text()').extract_first(): comic['amazonRetailer'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[2]/div[4]/h3/span/a/text()').extract_first() if response.xpath('//*[@id="productTitle"]/text()').extract_first(): comic['amazonTitle'] = response.xpath('//*[@id="productTitle"]/text()').extract_first() elif response.xpath('//*[@id="title"]/text()').extract_first(): comic['amazonTitle'] = response.xpath('//*[@id="title"]/text()').extract_first() elif response.xpath('//*[@id="olpProductDetails"]/div[1]/h1/text()').extract_first(): comic['amazonTitle'] = response.xpath('//*[@id="olpProductDetails"]/div[1]/h1/text()').extract_first() else : comic['amazonTitle'] = "N/A" if response.xpath('//*[@id="priceblock_ourprice"]/text()').extract_first(): comic['amazonPrice'] = response.xpath('//*[@id="priceblock_ourprice"]/text()').extract_first() else : comic['amazonPrice'] = "None" if response.xpath('//*[@id="acrCustomerReviewText"]/text()').extract_first(): comic['amazonReview'] = response.xpath('//*[@id="acrCustomerReviewText"]/text()').extract_first() else : comic['amazonReview'] = "N/A" if response.xpath('//*[@id="acrPopover"]/span[1]/a/i[1]/span/text()').extract_first(): comic['amazonStars'] = response.xpath('//*[@id="acrPopover"]/span[1]/a/i[1]/span/text()').extract_first() else : comic['amazonStars'] = "None" if response.xpath('//*[@id="olpOfferList"]/div/div/div[2]/div[4]/h3/span/a/text()').extract_first(): comic['amazonComp1Name'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[2]/div[4]/h3/span/a/text()').extract_first() comic['amazonComp1Price'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[2]/div[1]/span[1]/text()').extract_first() if response.xpath('//*[@id="olpOfferList"]/div/div/div[4]/div[4]/h3/span/a/text()').extract_first(): comic['amazonComp2Name'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[4]/div[4]/h3/span/a/text()').extract_first() comic['amazonComp2Price'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[4]/div[1]/span[1]/text()').extract_first() if response.xpath('//*[@id="olpOfferList"]/div/div/div[6]/div[4]/h3/span/a/text()').extract_first(): comic['amazonComp3Name'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[6]/div[4]/h3/span/a/text()').extract_first() comic['amazonComp3Price'] = response.xpath('//*[@id="olpOfferList"]/div/div/div[6]/div[1]/span[1]/text()').extract_first() yield comic

50.8753

272

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0.108468

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0.121575

0.070302

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0

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null

0

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null

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1

0

7

526b94833de344af5fd4ff01932f4849f86389d5

458

py

Python

scripts/convert_id_list.py

Levertion/minecraft-json-schema

7c259bcaf8525c0421bf388c9055e7198b59b033

[ "CC-BY-4.0" ]

24

2017-12-21T05:15:51.000Z

2021-04-23T16:00:04.000Z

scripts/convert_id_list.py

Levertion/minecraft-json-schema

7c259bcaf8525c0421bf388c9055e7198b59b033

[ "CC-BY-4.0" ]

12

2018-03-14T20:22:24.000Z

2021-08-29T11:44:06.000Z

scripts/convert_id_list.py

Levertion/minecraft-json-schema

7c259bcaf8525c0421bf388c9055e7198b59b033

[ "CC-BY-4.0" ]

14

2018-11-01T04:08:23.000Z

2022-02-12T10:31:44.000Z

import json #block IDs with open('block_ids.json', 'r') as data_file: json_data = data_file.read() data = json.loads(json_data) f = open('block_ids_out.json','w+') for id in data.keys(): f.write('"' + id + '",\r\n') f.close() #item IDs with open('block_ids.json', 'r') as data_file: json_data = data_file.read() data = json.loads(json_data) f = open('item_ids_out.json','w+') for id in data.keys(): f.write('"' + id + '",\r\n') f.close()

20.818182

46

0.624454

82

458

3.317073

0.280488

0.117647

0.132353

0.117647

0.897059

0

0.161572

458

21

47

21.809524

0.708333

0.037118

0

0.8

0

0.189066

0

1

0

false

0

0.066667

0

0.066667

0

null

0

1

0

1

0

null

0

7

52762d36f9acfc0b78b62887fddeed68c56b9f9e

27,221

py

Python

addons/wakatime/wakatime-cli-10.2.1/tests/test_configs.py

ondoheer/match3_godot

4e61d05337e3da8d66f2d92bedb36fdda1df9532

[ "MIT" ]

27

2018-03-18T22:58:25.000Z

2022-03-12T10:30:04.000Z

addons/wakatime/wakatime-cli-10.2.1/tests/test_configs.py

ondoheer/match3_godot

4e61d05337e3da8d66f2d92bedb36fdda1df9532

[ "MIT" ]

3

2021-06-20T19:55:02.000Z

2022-02-12T18:26:17.000Z

addons/wakatime/wakatime-cli-10.2.1/tests/test_configs.py

ondoheer/match3_godot

4e61d05337e3da8d66f2d92bedb36fdda1df9532

[ "MIT" ]

8

2018-03-18T23:21:12.000Z

2021-07-08T11:13:22.000Z

# -*- coding: utf-8 -*- from wakatime.main import execute from wakatime.packages import requests import base64 import logging import os import time import re import shutil import sys import uuid from testfixtures import log_capture from wakatime.compat import u, is_py3 from wakatime.constants import ( AUTH_ERROR, CONFIG_FILE_PARSE_ERROR, SUCCESS, ) from wakatime.packages.requests.models import Response from .utils import mock, ANY, CustomResponse, TemporaryDirectory, TestCase class ConfigsTestCase(TestCase): patch_these = [ 'wakatime.packages.requests.adapters.HTTPAdapter.send', 'wakatime.offlinequeue.Queue.push', ['wakatime.offlinequeue.Queue.pop', None], ['wakatime.offlinequeue.Queue.connect', None], 'wakatime.session_cache.SessionCache.save', 'wakatime.session_cache.SessionCache.delete', ['wakatime.session_cache.SessionCache.get', requests.session], ['wakatime.session_cache.SessionCache.connect', None], ] def test_config_file_not_passed_in_command_line_args(self): self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) args = ['--file', entity, '--log-file', '~/.wakatime.log'] with mock.patch('wakatime.configs.os.environ.get') as mock_env: mock_env.return_value = None with mock.patch('wakatime.configs.open') as mock_open: mock_open.side_effect = IOError('') with self.assertRaises(SystemExit) as e: execute(args) self.assertEquals(int(str(e.exception)), AUTH_ERROR) expected_stdout = u('') expected_stderr = open('tests/samples/output/configs_test_config_file_not_passed_in_command_line_args').read() self.assertEquals(sys.stdout.getvalue(), expected_stdout) self.assertEquals(sys.stderr.getvalue(), expected_stderr) self.patched['wakatime.session_cache.SessionCache.get'].assert_not_called() @log_capture() def test_config_file_from_env(self, logs): logging.disable(logging.NOTSET) self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) config = 'tests/samples/configs/has_everything.cfg' shutil.copy(config, os.path.join(tempdir, '.wakatime.cfg')) config = os.path.realpath(os.path.join(tempdir, '.wakatime.cfg')) with mock.patch('wakatime.configs.os.environ.get') as mock_env: mock_env.return_value = tempdir args = ['--file', entity, '--log-file', '~/.wakatime.log'] retval = execute(args) self.assertEquals(retval, SUCCESS) expected_stdout = open('tests/samples/output/configs_test_good_config_file').read() traceback_file = os.path.realpath('wakatime/arguments.py') lineno = int(re.search(r' line (\d+),', sys.stdout.getvalue()).group(1)) self.assertEquals(sys.stdout.getvalue(), expected_stdout.format(file=traceback_file, lineno=lineno)) self.assertEquals(sys.stderr.getvalue(), '') self.assertHeartbeatSent(proxies=ANY, verify=ANY) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved() def test_missing_config_file(self): config = 'foo' with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) args = ['--file', entity, '--config', config, '--log-file', '~/.wakatime.log'] with self.assertRaises(SystemExit) as e: execute(args) self.assertEquals(int(str(e.exception)), AUTH_ERROR) expected_stdout = u('') expected_stderr = open('tests/samples/output/configs_test_missing_config_file').read() self.assertEquals(sys.stdout.getvalue(), expected_stdout) self.assertEquals(sys.stderr.getvalue(), expected_stderr) self.patched['wakatime.session_cache.SessionCache.get'].assert_not_called() def test_good_config_file(self): self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) config = 'tests/samples/configs/has_everything.cfg' args = ['--file', entity, '--config', config, '--log-file', '~/.wakatime.log'] retval = execute(args) self.assertEquals(retval, SUCCESS) expected_stdout = open('tests/samples/output/configs_test_good_config_file').read() traceback_file = os.path.realpath('wakatime/arguments.py') lineno = int(re.search(r' line (\d+),', sys.stdout.getvalue()).group(1)) self.assertEquals(sys.stdout.getvalue(), expected_stdout.format(file=traceback_file, lineno=lineno)) self.assertEquals(sys.stderr.getvalue(), '') self.patched['wakatime.session_cache.SessionCache.get'].assert_called_once_with() self.patched['wakatime.session_cache.SessionCache.delete'].assert_not_called() self.patched['wakatime.session_cache.SessionCache.save'].assert_called_once_with(ANY) self.patched['wakatime.offlinequeue.Queue.push'].assert_not_called() self.patched['wakatime.offlinequeue.Queue.pop'].assert_called_once_with() def test_api_key_setting_without_underscore_accepted(self): """Api key in wakatime.cfg should also work without an underscore: apikey = XXX """ self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) config = 'tests/samples/configs/sample_alternate_apikey.cfg' args = ['--file', entity, '--config', config, '--log-file', '~/.wakatime.log'] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertEquals(sys.stdout.getvalue(), '') self.assertEquals(sys.stderr.getvalue(), '') self.patched['wakatime.session_cache.SessionCache.get'].assert_called_once_with() self.patched['wakatime.session_cache.SessionCache.delete'].assert_not_called() self.patched['wakatime.session_cache.SessionCache.save'].assert_called_once_with(ANY) self.patched['wakatime.offlinequeue.Queue.push'].assert_not_called() self.patched['wakatime.offlinequeue.Queue.pop'].assert_called_once_with() @log_capture() def test_bad_config_file(self, logs): logging.disable(logging.NOTSET) with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) config = 'tests/samples/configs/bad_config.cfg' args = ['--file', entity, '--config', config, '--log-file', '~/.wakatime.log'] with self.assertRaises(SystemExit) as e: execute(args) self.assertEquals(int(str(e.exception)), CONFIG_FILE_PARSE_ERROR) self.assertIn('ParsingError', sys.stdout.getvalue()) expected_stderr = '' self.assertEquals(sys.stderr.getvalue(), expected_stderr) log_output = u("\n").join([u(' ').join(x) for x in logs.actual()]) expected = '' self.assertEquals(log_output, expected) self.patched['wakatime.offlinequeue.Queue.push'].assert_not_called() self.patched['wakatime.session_cache.SessionCache.get'].assert_not_called() self.patched['wakatime.session_cache.SessionCache.delete'].assert_not_called() self.patched['wakatime.session_cache.SessionCache.save'].assert_not_called() @log_capture() def test_non_hidden_filename(self, logs): logging.disable(logging.NOTSET) self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/twolinefile.txt' shutil.copy(entity, os.path.join(tempdir, 'twolinefile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'twolinefile.txt')) now = u(int(time.time())) config = 'tests/samples/configs/good_config.cfg' key = str(uuid.uuid4()) args = ['--file', entity, '--key', key, '--config', config, '--time', now, '--log-file', '~/.wakatime.log'] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() self.assertNothingLogged(logs) heartbeat = { 'entity': os.path.realpath(entity), 'project': None, 'branch': None, 'time': float(now), 'type': 'file', 'cursorpos': None, 'dependencies': [], 'language': u('Text only'), 'lineno': None, 'lines': 2, 'is_write': False, 'user_agent': ANY, } self.assertHeartbeatSent(heartbeat) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved() def test_hide_all_filenames(self): self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/python.py' shutil.copy(entity, os.path.join(tempdir, 'python.py')) entity = os.path.realpath(os.path.join(tempdir, 'python.py')) now = u(int(time.time())) config = 'tests/samples/configs/paranoid.cfg' key = u(uuid.uuid4()) project = 'abcxyz' args = ['--file', entity, '--key', key, '--config', config, '--time', now, '--log-file', '~/.wakatime.log', '--alternate-project', project] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() heartbeat = { 'language': 'Python', 'lines': None, 'entity': 'HIDDEN.py', 'project': project, 'time': float(now), 'is_write': False, 'type': 'file', 'dependencies': None, 'user_agent': ANY, } self.assertHeartbeatSent(heartbeat) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved() def test_legacy_hidefilenames_config_supported(self): self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/python.py' shutil.copy(entity, os.path.join(tempdir, 'python.py')) entity = os.path.realpath(os.path.join(tempdir, 'python.py')) now = u(int(time.time())) config = 'tests/samples/configs/paranoid_legacy.cfg' key = u(uuid.uuid4()) project = 'abcxyz' args = ['--file', entity, '--key', key, '--config', config, '--time', now, '--log-file', '~/.wakatime.log', '--alternate-project', project] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() heartbeat = { 'language': 'Python', 'lines': None, 'entity': 'HIDDEN.py', 'project': project, 'time': float(now), 'is_write': False, 'type': 'file', 'dependencies': None, 'user_agent': ANY, } self.assertHeartbeatSent(heartbeat) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved() def test_hide_all_filenames_from_cli_arg(self): self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/python.py' shutil.copy(entity, os.path.join(tempdir, 'python.py')) entity = os.path.realpath(os.path.join(tempdir, 'python.py')) now = u(int(time.time())) config = 'tests/samples/configs/good_config.cfg' key = str(uuid.uuid4()) project = 'abcxyz' args = ['--file', entity, '--key', key, '--config', config, '--time', now, '--hide-filenames', '--log-file', '~/.wakatime.log', '--alternate-project', project] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() heartbeat = { 'language': 'Python', 'lines': None, 'entity': 'HIDDEN.py', 'project': project, 'time': float(now), 'is_write': False, 'type': 'file', 'dependencies': None, 'user_agent': ANY, } self.assertHeartbeatSent(heartbeat) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved() def test_hide_matching_filenames(self): self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/python.py' shutil.copy(entity, os.path.join(tempdir, 'python.py')) entity = os.path.realpath(os.path.join(tempdir, 'python.py')) now = u(int(time.time())) config = 'tests/samples/configs/hide_file_names.cfg' key = '033c47c9-0441-4eb5-8b3f-b51f27b31049' project = 'abcxyz' args = ['--file', entity, '--key', key, '--config', config, '--time', now, '--log-file', '~/.wakatime.log', '--alternate-project', project] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() heartbeat = { 'language': 'Python', 'lines': None, 'entity': 'HIDDEN.py', 'project': project, 'time': float(now), 'is_write': False, 'type': 'file', 'dependencies': None, 'user_agent': ANY, } headers = { 'Authorization': u('Basic {0}').format(u(base64.b64encode(str.encode(key) if is_py3 else key))), } self.assertHeartbeatSent(heartbeat, headers=headers) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved() def test_does_not_hide_unmatching_filenames(self): self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/python.py' shutil.copy(entity, os.path.join(tempdir, 'python.py')) entity = os.path.realpath(os.path.join(tempdir, 'python.py')) now = u(int(time.time())) config = 'tests/samples/configs/hide_file_names_not_python.cfg' key = u(uuid.uuid4()) dependencies = ['sqlalchemy', 'jinja', 'simplejson', 'flask', 'app', 'django', 'pygments', 'unittest', 'mock'] project = 'abcxyz' args = ['--file', entity, '--key', key, '--config', config, '--time', now, '--log-file', '~/.wakatime.log', '--alternate-project', project] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() heartbeat = { 'language': 'Python', 'lines': 37, 'entity': entity, 'project': project, 'time': float(now), 'is_write': False, 'type': 'file', 'dependencies': dependencies, 'user_agent': ANY, } self.assertHeartbeatSent(heartbeat) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved() @log_capture() def test_does_not_hide_filenames_from_invalid_regex(self, logs): logging.disable(logging.NOTSET) self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) now = u(int(time.time())) config = 'tests/samples/configs/invalid_hide_file_names.cfg' key = str(uuid.uuid4()) args = ['--file', entity, '--key', key, '--config', config, '--time', now, '--log-file', '~/.wakatime.log'] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() actual = self.getLogOutput(logs) expected = u('WakaTime WARNING Regex error (unbalanced parenthesis) for include pattern: invalid(regex') if self.isPy35OrNewer: expected = 'WakaTime WARNING Regex error (missing ), unterminated subpattern at position 7) for include pattern: invalid(regex' self.assertEquals(expected, actual) heartbeat = { 'language': 'Text only', 'lines': 0, 'entity': os.path.realpath(entity), 'project': None, 'cursorpos': None, 'lineno': None, 'time': float(now), 'is_write': False, 'type': 'file', 'dependencies': [], 'user_agent': ANY, } self.assertHeartbeatSent(heartbeat) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved() @log_capture() def test_exclude_file(self, logs): logging.disable(logging.NOTSET) response = Response() response.status_code = 0 self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = response with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) config = 'tests/samples/configs/good_config.cfg' args = ['--file', entity, '--config', config, '--exclude', 'empty', '--verbose', '--log-file', '~/.wakatime.log'] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() actual = self.getLogOutput(logs) expected = 'WakaTime DEBUG Skipping because matches exclude pattern: empty' self.assertEquals(actual, expected) self.assertHeartbeatNotSent() self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheUntouched() @log_capture() def test_exclude_file_without_project_file(self, logs): logging.disable(logging.NOTSET) response = Response() response.status_code = 0 self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = response with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) config = 'tests/samples/configs/include_only_with_project_file.cfg' args = ['--file', entity, '--config', config, '--verbose', '--log-file', '~/.wakatime.log'] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() actual = self.getLogOutput(logs) expected = 'WakaTime DEBUG Skipping because missing .wakatime-project file in parent path.' self.assertEquals(actual, expected) self.assertHeartbeatNotSent() self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheUntouched() @log_capture() def test_exclude_file_because_project_unknown(self, logs): logging.disable(logging.NOTSET) response = Response() response.status_code = 0 self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = response with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) config = 'tests/samples/configs/exclude_unknown_project.cfg' args = ['--file', entity, '--config', config, '--verbose', '--log-file', '~/.wakatime.log'] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() actual = self.getLogOutput(logs) expected = 'WakaTime DEBUG Skipping because project unknown.' self.assertEquals(actual, expected) self.assertHeartbeatNotSent() self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheUntouched() @log_capture() def test_include_file_with_project_file(self, logs): logging.disable(logging.NOTSET) self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) config = 'tests/samples/configs/include_only_with_project_file.cfg' project = 'abcxyz' now = u(int(time.time())) with open(os.path.join(tempdir, '.wakatime-project'), 'w'): pass args = ['--file', entity, '--config', config, '--time', now, '--verbose', '--log-file', '~/.wakatime.log', '--project', project] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() heartbeat = { 'language': 'Text only', 'lines': 0, 'entity': os.path.realpath(entity), 'project': project, 'branch': ANY, 'cursorpos': None, 'lineno': None, 'time': float(now), 'is_write': False, 'type': 'file', 'dependencies': [], 'user_agent': ANY, } self.assertHeartbeatSent(heartbeat) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved() def test_hostname_set_from_config_file(self): self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) hostname = 'fromcfgfile' config = 'tests/samples/configs/has_everything.cfg' args = ['--file', entity, '--config', config, '--timeout', '15', '--log-file', '~/.wakatime.log'] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() headers = { 'X-Machine-Name': hostname.encode('utf-8') if is_py3 else hostname, } self.assertHeartbeatSent(headers=headers, proxies=ANY, timeout=15) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved() def test_no_ssl_verify_from_config_file(self): self.patched['wakatime.packages.requests.adapters.HTTPAdapter.send'].return_value = CustomResponse() with TemporaryDirectory() as tempdir: entity = 'tests/samples/codefiles/emptyfile.txt' shutil.copy(entity, os.path.join(tempdir, 'emptyfile.txt')) entity = os.path.realpath(os.path.join(tempdir, 'emptyfile.txt')) config = 'tests/samples/configs/has_ssl_verify_disabled.cfg' args = ['--file', entity, '--config', config, '--timeout', '15', '--log-file', '~/.wakatime.log'] retval = execute(args) self.assertEquals(retval, SUCCESS) self.assertNothingPrinted() self.assertHeartbeatSent(proxies=ANY, timeout=15, verify=False) self.assertHeartbeatNotSavedOffline() self.assertOfflineHeartbeatsSynced() self.assertSessionCacheSaved()

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528f04643a3ae3bd50833ecfde05049c31fe540c

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Python

tests/data_for_tests.py

PiotrekGa/mtd-learn

e0897aa291970671a37be4301d444124bd38e591

[ "MIT" ]

5

2020-07-20T01:20:58.000Z

2021-09-02T10:14:48.000Z

tests/data_for_tests.py

PiotrekGa/mtd-learn

e0897aa291970671a37be4301d444124bd38e591

[ "MIT" ]

4

2020-03-16T08:55:39.000Z

2020-03-17T09:59:27.000Z

tests/data_for_tests.py

PiotrekGa/mtd-learn

e0897aa291970671a37be4301d444124bd38e591

[ "MIT" ]

1

2020-03-18T19:16:34.000Z

import numpy as np data_for_tests = dict() data_for_tests['transition_matrices'] = np.array([[[0.4, 0.6], [0.7, 0.3]], [[0.1, 0.9], [0.5, 0.5]]]) data_for_tests['lambdas'] = np.array([0.4, 0.6]) data_for_tests['indexes'] = [(0, 0, 0), (0, 0, 1), (0, 1, 0), (0, 1, 1), (1, 0, 0), (1, 0, 1), (1, 1, 0), (1, 1, 1)] data_for_tests['expected_p_array'] = np.array([[8 / 11, 3 / 11], [12 / 39, 27 / 39], [8 / 23, 15 / 23], [12 / 27, 15 / 27], [14 / 17, 3 / 17], [2 / 11, 9 / 11], [14 / 29, 15 / 29], [2 / 7, 5 / 7]]) expected_p_direct_array = np.array( [[[data_for_tests['expected_p_array'][0, 0] + data_for_tests['expected_p_array'][2, 0], data_for_tests['expected_p_array'][1, 0] + data_for_tests['expected_p_array'][3, 0]], [data_for_tests['expected_p_array'][4, 0] + data_for_tests['expected_p_array'][6, 0], data_for_tests['expected_p_array'][5, 0] + data_for_tests['expected_p_array'][7, 0]]], [[data_for_tests['expected_p_array'][0, 1] + data_for_tests['expected_p_array'][4, 1], data_for_tests['expected_p_array'][1, 1] + data_for_tests['expected_p_array'][5, 1]], [data_for_tests['expected_p_array'][2, 1] + data_for_tests['expected_p_array'][6, 1], data_for_tests['expected_p_array'][3, 1] + data_for_tests['expected_p_array'][7, 1]]] ]) data_for_tests['expected_p_direct_array'] = expected_p_direct_array / expected_p_direct_array.sum(0) expected_p_direct_array2 = expected_p_direct_array.sum(2) data_for_tests['expected_p_direct_array2'] = expected_p_direct_array2 / expected_p_direct_array2.sum(1).reshape(-1, 1) data_for_tests['n_passes'] = np.array([100, 100, 400, 400, 100, 100, 400, 400]) data_for_tests['n_passes_direct'] = np.array([[[500, 500], [500, 500]], [[200, 200], [800, 800]]]) denominator = 1 / (data_for_tests['n_passes'].sum() - 2) lambda1 = denominator * np.dot(data_for_tests['expected_p_array'][:, 0], data_for_tests['n_passes']) lambda2 = denominator * np.dot(data_for_tests['expected_p_array'][:, 1], data_for_tests['n_passes']) lambda_sum = lambda1 + lambda2 lambda1 = lambda1 / lambda_sum lambda2 = lambda2 / lambda_sum data_for_tests['expected_lambdas'] = np.array([lambda1, lambda2]) expected_transition_matrices = data_for_tests['n_passes_direct'] * data_for_tests['expected_p_direct_array'] expected_transition_matrices = expected_transition_matrices / expected_transition_matrices.sum(2).reshape(2, -1, 1) data_for_tests['expected_transition_matrices'] = expected_transition_matrices log_likelihood1 = 0 log_likelihood1 = log_likelihood1 + data_for_tests['n_passes'][0] * np.log( data_for_tests['lambdas'][0] * data_for_tests['transition_matrices'][0, 0, 0] + data_for_tests['lambdas'][1] * data_for_tests['transition_matrices'][1, 0, 0]) log_likelihood1 = log_likelihood1 + data_for_tests['n_passes'][1] * np.log( data_for_tests['lambdas'][0] * data_for_tests['transition_matrices'][0, 0, 1] + data_for_tests['lambdas'][1] * data_for_tests['transition_matrices'][1, 0, 1]) log_likelihood1 = log_likelihood1 + data_for_tests['n_passes'][2] * np.log( data_for_tests['lambdas'][0] * data_for_tests['transition_matrices'][0, 0, 0] + data_for_tests['lambdas'][1] * data_for_tests['transition_matrices'][1, 1, 0]) log_likelihood1 = log_likelihood1 + data_for_tests['n_passes'][3] * np.log( data_for_tests['lambdas'][0] * data_for_tests['transition_matrices'][0, 0, 1] + data_for_tests['lambdas'][1] * data_for_tests['transition_matrices'][1, 1, 1]) log_likelihood1 = log_likelihood1 + data_for_tests['n_passes'][4] * np.log( data_for_tests['lambdas'][0] * data_for_tests['transition_matrices'][0, 1, 0] + data_for_tests['lambdas'][1] * data_for_tests['transition_matrices'][1, 0, 0]) log_likelihood1 = log_likelihood1 + data_for_tests['n_passes'][5] * np.log( data_for_tests['lambdas'][0] * data_for_tests['transition_matrices'][0, 1, 1] + data_for_tests['lambdas'][1] * data_for_tests['transition_matrices'][1, 0, 1]) log_likelihood1 = log_likelihood1 + data_for_tests['n_passes'][6] * np.log( data_for_tests['lambdas'][0] * data_for_tests['transition_matrices'][0, 1, 0] + data_for_tests['lambdas'][1] * data_for_tests['transition_matrices'][1, 1, 0]) log_likelihood1 = log_likelihood1 + data_for_tests['n_passes'][7] * np.log( data_for_tests['lambdas'][0] * data_for_tests['transition_matrices'][0, 1, 1] + data_for_tests['lambdas'][1] * data_for_tests['transition_matrices'][1, 1, 1]) data_for_tests['log_likelihood1'] = log_likelihood1 log_likelihood2 = 0 log_likelihood2 = log_likelihood2 + data_for_tests['n_passes'][0] * np.log( data_for_tests['expected_lambdas'][0] * data_for_tests['expected_transition_matrices'][0, 0, 0] + data_for_tests['expected_lambdas'][1] * data_for_tests['expected_transition_matrices'][1, 0, 0]) log_likelihood2 = log_likelihood2 + data_for_tests['n_passes'][1] * np.log( data_for_tests['expected_lambdas'][0] * data_for_tests['expected_transition_matrices'][0, 0, 1] + data_for_tests['expected_lambdas'][1] * data_for_tests['expected_transition_matrices'][1, 0, 1]) log_likelihood2 = log_likelihood2 + data_for_tests['n_passes'][2] * np.log( data_for_tests['expected_lambdas'][0] * data_for_tests['expected_transition_matrices'][0, 0, 0] + data_for_tests['expected_lambdas'][1] * data_for_tests['expected_transition_matrices'][1, 1, 0]) log_likelihood2 = log_likelihood2 + data_for_tests['n_passes'][3] * np.log( data_for_tests['expected_lambdas'][0] * data_for_tests['expected_transition_matrices'][0, 0, 1] + data_for_tests['expected_lambdas'][1] * data_for_tests['expected_transition_matrices'][1, 1, 1]) log_likelihood2 = log_likelihood2 + data_for_tests['n_passes'][4] * np.log( data_for_tests['expected_lambdas'][0] * data_for_tests['expected_transition_matrices'][0, 1, 0] + data_for_tests['expected_lambdas'][1] * data_for_tests['expected_transition_matrices'][1, 0, 0]) log_likelihood2 = log_likelihood2 + data_for_tests['n_passes'][5] * np.log( data_for_tests['expected_lambdas'][0] * data_for_tests['expected_transition_matrices'][0, 1, 1] + data_for_tests['expected_lambdas'][1] * data_for_tests['expected_transition_matrices'][1, 0, 1]) log_likelihood2 = log_likelihood2 + data_for_tests['n_passes'][6] * np.log( data_for_tests['expected_lambdas'][0] * data_for_tests['expected_transition_matrices'][0, 1, 0] + data_for_tests['expected_lambdas'][1] * data_for_tests['expected_transition_matrices'][1, 1, 0]) log_likelihood2 = log_likelihood2 + data_for_tests['n_passes'][7] * np.log( data_for_tests['expected_lambdas'][0] * data_for_tests['expected_transition_matrices'][0, 1, 1] + data_for_tests['expected_lambdas'][1] * data_for_tests['expected_transition_matrices'][1, 1, 1]) data_for_tests['log_likelihood2'] = log_likelihood2

56.043165

119

0.631065

1,083

7,790

4.130194

0.048938

0.181534

0.311201

0.250391

0.892019

0.868545

0.814442

0.703555

0.651911

0.626425

0

0.06397

0.219384

7,790

138

120

56.449275

0.6716

0

0.31068

0

0.234056

0.071354

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1

0

false

0.213592

0.009709

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0

1

0

1

0

null

0

1

0

8

bfdfd2bce9d9294a941f7beb767d735aa9917264

4,142

py

Python

tests/test_cms_plugins.py

compoundpartners/js-forms

7e3c6428bfd5585a7ef4e986a2e6bff09948b060

[ "BSD-3-Clause" ]

null

tests/test_cms_plugins.py

compoundpartners/js-forms

7e3c6428bfd5585a7ef4e986a2e6bff09948b060

[ "BSD-3-Clause" ]

null

tests/test_cms_plugins.py

compoundpartners/js-forms

7e3c6428bfd5585a7ef4e986a2e6bff09948b060

[ "BSD-3-Clause" ]

null

from cms.api import add_plugin, create_page from cms.test_utils.testcases import CMSTestCase from django.core import mail from django.contrib.auth.models import User from aldryn_forms.models import FormSubmission class FormPluginTestCase(CMSTestCase): def setUp(self): super(FormPluginTestCase, self).setUp() self.page = create_page('test page', 'test_page.html', 'en', published=True) self.placeholder = self.page.placeholders.get(slot='content') self.user = User.objects.create_superuser('username', 'email@example.com', 'password') plugin_data = { 'redirect_type': 'redirect_to_url', 'url': 'http://www.google.com', } self.form_plugin = add_plugin(self.placeholder, 'FormPlugin', 'en', **plugin_data) self.form_plugin.recipients.add(self.user) add_plugin(self.placeholder, 'SubmitButton', 'en', target=self.form_plugin) def test_form_submission_default_action(self): self.form_plugin.action_backend = 'default' self.form_plugin.save() self.page.publish('en') response = self.client.post(self.page.get_absolute_url('en'), {}) self.assertEquals(response.status_code, 200) self.assertEquals(FormSubmission.objects.count(), 1) self.assertEquals(len(mail.outbox), 1) def test_form_submission_email_action(self): self.form_plugin.action_backend = 'email_only' self.form_plugin.save() self.page.publish('en') response = self.client.post(self.page.get_absolute_url('en'), {}) self.assertEquals(response.status_code, 200) self.assertEquals(FormSubmission.objects.count(), 0) self.assertEquals(len(mail.outbox), 1) def test_form_submission_no_action(self): self.form_plugin.action_backend = 'none' self.form_plugin.save() self.page.publish('en') response = self.client.post(self.page.get_absolute_url('en'), {}) self.assertEquals(response.status_code, 200) self.assertEquals(FormSubmission.objects.count(), 0) self.assertEquals(len(mail.outbox), 0) class EmailNotificationFormPluginTestCase(CMSTestCase): def setUp(self): super(EmailNotificationFormPluginTestCase, self).setUp() self.page = create_page('test page', 'test_page.html', 'en', published=True) self.placeholder = self.page.placeholders.get(slot='content') self.user = User.objects.create_superuser('username', 'email@example.com', 'password') plugin_data = { 'redirect_type': 'redirect_to_url', 'url': 'http://www.google.com', } self.form_plugin = add_plugin(self.placeholder, 'EmailNotificationForm', 'en', **plugin_data) self.form_plugin.email_notifications.create(to_user=self.user, theme='default') add_plugin(self.placeholder, 'SubmitButton', 'en', target=self.form_plugin) def test_form_submission_default_action(self): self.form_plugin.action_backend = 'default' self.form_plugin.save() self.page.publish('en') response = self.client.post(self.page.get_absolute_url('en'), {}) self.assertEquals(response.status_code, 200) self.assertEquals(FormSubmission.objects.count(), 1) self.assertEquals(len(mail.outbox), 1) def test_form_submission_email_action(self): self.form_plugin.action_backend = 'email_only' self.form_plugin.save() self.page.publish('en') response = self.client.post(self.page.get_absolute_url('en'), {}) self.assertEquals(response.status_code, 200) self.assertEquals(FormSubmission.objects.count(), 0) self.assertEquals(len(mail.outbox), 1) def test_form_submission_no_action(self): self.form_plugin.action_backend = 'none' self.form_plugin.save() self.page.publish('en') response = self.client.post(self.page.get_absolute_url('en'), {}) self.assertEquals(response.status_code, 200) self.assertEquals(FormSubmission.objects.count(), 0) self.assertEquals(len(mail.outbox), 0)

38

101

0.679141

496

4,142

5.481855

0.167339

0.052961

0.092681

0.046341

0.85399

0.833395

0.81427

0

0.008958

0.191453

4,142

108

102

38.351852

0.802926

0

0.810127

0

0.089329

0.00507

0

0.227848

1

0.101266

false

0.025316

0.063291

0

0.189873

0

null

0

1

0

1

0

null

0

7

bfe6130b505559335092594433dd83b45e082f10

81,364

py

Python

dingtalk/python/alibabacloud_dingtalk/resident_1_0/client.py

aliyun/dingtalk-sdk

ab4f856b8cfe94f6b69f10a0730a2e5a7d4901c5

[ "Apache-2.0" ]

15

2020-08-27T04:10:26.000Z

2022-03-07T06:25:42.000Z

dingtalk/python/alibabacloud_dingtalk/resident_1_0/client.py

aliyun/dingtalk-sdk

ab4f856b8cfe94f6b69f10a0730a2e5a7d4901c5

[ "Apache-2.0" ]

1

2020-09-27T01:30:46.000Z

2021-12-29T09:15:34.000Z

dingtalk/python/alibabacloud_dingtalk/resident_1_0/client.py

aliyun/dingtalk-sdk

ab4f856b8cfe94f6b69f10a0730a2e5a7d4901c5

[ "Apache-2.0" ]

5

2020-08-27T04:07:44.000Z

2021-12-03T02:55:20.000Z

# -*- coding: utf-8 -*- # This file is auto-generated, don't edit it. Thanks. from Tea.core import TeaCore from alibabacloud_tea_openapi.client import Client as OpenApiClient from alibabacloud_tea_openapi import models as open_api_models from alibabacloud_tea_util.client import Client as UtilClient from alibabacloud_dingtalk.resident_1_0 import models as dingtalkresident__1__0_models from alibabacloud_tea_util import models as util_models from alibabacloud_openapi_util.client import Client as OpenApiUtilClient class Client(OpenApiClient): """ *\ """ def __init__( self, config: open_api_models.Config, ): super().__init__(config) self._endpoint_rule = '' if UtilClient.empty(self._endpoint): self._endpoint = 'api.dingtalk.com' def get_property_info( self, request: dingtalkresident__1__0_models.GetPropertyInfoRequest, ) -> dingtalkresident__1__0_models.GetPropertyInfoResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetPropertyInfoHeaders() return self.get_property_info_with_options(request, headers, runtime) async def get_property_info_async( self, request: dingtalkresident__1__0_models.GetPropertyInfoRequest, ) -> dingtalkresident__1__0_models.GetPropertyInfoResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetPropertyInfoHeaders() return await self.get_property_info_with_options_async(request, headers, runtime) def get_property_info_with_options( self, request: dingtalkresident__1__0_models.GetPropertyInfoRequest, headers: dingtalkresident__1__0_models.GetPropertyInfoHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetPropertyInfoResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.property_corp_id): query['propertyCorpId'] = request.property_corp_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.GetPropertyInfoResponse(), self.do_roarequest('GetPropertyInfo', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/propertyInfos', 'json', req, runtime) ) async def get_property_info_with_options_async( self, request: dingtalkresident__1__0_models.GetPropertyInfoRequest, headers: dingtalkresident__1__0_models.GetPropertyInfoHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetPropertyInfoResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.property_corp_id): query['propertyCorpId'] = request.property_corp_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.GetPropertyInfoResponse(), await self.do_roarequest_async('GetPropertyInfo', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/propertyInfos', 'json', req, runtime) ) def get_space_id_by_type( self, request: dingtalkresident__1__0_models.GetSpaceIdByTypeRequest, ) -> dingtalkresident__1__0_models.GetSpaceIdByTypeResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetSpaceIdByTypeHeaders() return self.get_space_id_by_type_with_options(request, headers, runtime) async def get_space_id_by_type_async( self, request: dingtalkresident__1__0_models.GetSpaceIdByTypeRequest, ) -> dingtalkresident__1__0_models.GetSpaceIdByTypeResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetSpaceIdByTypeHeaders() return await self.get_space_id_by_type_with_options_async(request, headers, runtime) def get_space_id_by_type_with_options( self, request: dingtalkresident__1__0_models.GetSpaceIdByTypeRequest, headers: dingtalkresident__1__0_models.GetSpaceIdByTypeHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetSpaceIdByTypeResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.department_type): query['departmentType'] = request.department_type real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.GetSpaceIdByTypeResponse(), self.do_roarequest('GetSpaceIdByType', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/spaces/types', 'json', req, runtime) ) async def get_space_id_by_type_with_options_async( self, request: dingtalkresident__1__0_models.GetSpaceIdByTypeRequest, headers: dingtalkresident__1__0_models.GetSpaceIdByTypeHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetSpaceIdByTypeResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.department_type): query['departmentType'] = request.department_type real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.GetSpaceIdByTypeResponse(), await self.do_roarequest_async('GetSpaceIdByType', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/spaces/types', 'json', req, runtime) ) def list_sub_space( self, request: dingtalkresident__1__0_models.ListSubSpaceRequest, ) -> dingtalkresident__1__0_models.ListSubSpaceResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.ListSubSpaceHeaders() return self.list_sub_space_with_options(request, headers, runtime) async def list_sub_space_async( self, request: dingtalkresident__1__0_models.ListSubSpaceRequest, ) -> dingtalkresident__1__0_models.ListSubSpaceResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.ListSubSpaceHeaders() return await self.list_sub_space_with_options_async(request, headers, runtime) def list_sub_space_with_options( self, request: dingtalkresident__1__0_models.ListSubSpaceRequest, headers: dingtalkresident__1__0_models.ListSubSpaceHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.ListSubSpaceResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.resident_corp_id): query['residentCorpId'] = request.resident_corp_id if not UtilClient.is_unset(request.refer_id): query['referId'] = request.refer_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.ListSubSpaceResponse(), self.do_roarequest('ListSubSpace', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/spaces/subSpaces', 'json', req, runtime) ) async def list_sub_space_with_options_async( self, request: dingtalkresident__1__0_models.ListSubSpaceRequest, headers: dingtalkresident__1__0_models.ListSubSpaceHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.ListSubSpaceResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.resident_corp_id): query['residentCorpId'] = request.resident_corp_id if not UtilClient.is_unset(request.refer_id): query['referId'] = request.refer_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.ListSubSpaceResponse(), await self.do_roarequest_async('ListSubSpace', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/spaces/subSpaces', 'json', req, runtime) ) def update_residece_group( self, request: dingtalkresident__1__0_models.UpdateResideceGroupRequest, ) -> dingtalkresident__1__0_models.UpdateResideceGroupResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.UpdateResideceGroupHeaders() return self.update_residece_group_with_options(request, headers, runtime) async def update_residece_group_async( self, request: dingtalkresident__1__0_models.UpdateResideceGroupRequest, ) -> dingtalkresident__1__0_models.UpdateResideceGroupResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.UpdateResideceGroupHeaders() return await self.update_residece_group_with_options_async(request, headers, runtime) def update_residece_group_with_options( self, request: dingtalkresident__1__0_models.UpdateResideceGroupRequest, headers: dingtalkresident__1__0_models.UpdateResideceGroupHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.UpdateResideceGroupResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.manager_user_id): query['managerUserId'] = request.manager_user_id if not UtilClient.is_unset(request.department_name): query['departmentName'] = request.department_name if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.UpdateResideceGroupResponse(), self.do_roarequest('UpdateResideceGroup', 'resident_1.0', 'HTTP', 'PUT', 'AK', f'/v1.0/resident/departments/updateResideceGroup', 'json', req, runtime) ) async def update_residece_group_with_options_async( self, request: dingtalkresident__1__0_models.UpdateResideceGroupRequest, headers: dingtalkresident__1__0_models.UpdateResideceGroupHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.UpdateResideceGroupResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.manager_user_id): query['managerUserId'] = request.manager_user_id if not UtilClient.is_unset(request.department_name): query['departmentName'] = request.department_name if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.UpdateResideceGroupResponse(), await self.do_roarequest_async('UpdateResideceGroup', 'resident_1.0', 'HTTP', 'PUT', 'AK', f'/v1.0/resident/departments/updateResideceGroup', 'json', req, runtime) ) def get_resident_info( self, request: dingtalkresident__1__0_models.GetResidentInfoRequest, ) -> dingtalkresident__1__0_models.GetResidentInfoResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetResidentInfoHeaders() return self.get_resident_info_with_options(request, headers, runtime) async def get_resident_info_async( self, request: dingtalkresident__1__0_models.GetResidentInfoRequest, ) -> dingtalkresident__1__0_models.GetResidentInfoResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetResidentInfoHeaders() return await self.get_resident_info_with_options_async(request, headers, runtime) def get_resident_info_with_options( self, request: dingtalkresident__1__0_models.GetResidentInfoRequest, headers: dingtalkresident__1__0_models.GetResidentInfoHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetResidentInfoResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.resident_corp_id): query['residentCorpId'] = request.resident_corp_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.GetResidentInfoResponse(), self.do_roarequest('GetResidentInfo', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/residentInfos', 'json', req, runtime) ) async def get_resident_info_with_options_async( self, request: dingtalkresident__1__0_models.GetResidentInfoRequest, headers: dingtalkresident__1__0_models.GetResidentInfoHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetResidentInfoResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.resident_corp_id): query['residentCorpId'] = request.resident_corp_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.GetResidentInfoResponse(), await self.do_roarequest_async('GetResidentInfo', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/residentInfos', 'json', req, runtime) ) def search_resident( self, request: dingtalkresident__1__0_models.SearchResidentRequest, ) -> dingtalkresident__1__0_models.SearchResidentResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.SearchResidentHeaders() return self.search_resident_with_options(request, headers, runtime) async def search_resident_async( self, request: dingtalkresident__1__0_models.SearchResidentRequest, ) -> dingtalkresident__1__0_models.SearchResidentResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.SearchResidentHeaders() return await self.search_resident_with_options_async(request, headers, runtime) def search_resident_with_options( self, request: dingtalkresident__1__0_models.SearchResidentRequest, headers: dingtalkresident__1__0_models.SearchResidentHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.SearchResidentResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.resident_crop_id): query['residentCropId'] = request.resident_crop_id if not UtilClient.is_unset(request.search_word): query['searchWord'] = request.search_word real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.SearchResidentResponse(), self.do_roarequest('SearchResident', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/residences', 'json', req, runtime) ) async def search_resident_with_options_async( self, request: dingtalkresident__1__0_models.SearchResidentRequest, headers: dingtalkresident__1__0_models.SearchResidentHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.SearchResidentResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.resident_crop_id): query['residentCropId'] = request.resident_crop_id if not UtilClient.is_unset(request.search_word): query['searchWord'] = request.search_word real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.SearchResidentResponse(), await self.do_roarequest_async('SearchResident', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/residences', 'json', req, runtime) ) def add_resident_department( self, request: dingtalkresident__1__0_models.AddResidentDepartmentRequest, ) -> dingtalkresident__1__0_models.AddResidentDepartmentResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.AddResidentDepartmentHeaders() return self.add_resident_department_with_options(request, headers, runtime) async def add_resident_department_async( self, request: dingtalkresident__1__0_models.AddResidentDepartmentRequest, ) -> dingtalkresident__1__0_models.AddResidentDepartmentResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.AddResidentDepartmentHeaders() return await self.add_resident_department_with_options_async(request, headers, runtime) def add_resident_department_with_options( self, request: dingtalkresident__1__0_models.AddResidentDepartmentRequest, headers: dingtalkresident__1__0_models.AddResidentDepartmentHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.AddResidentDepartmentResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.is_residence_group): query['isResidenceGroup'] = request.is_residence_group if not UtilClient.is_unset(request.department_name): query['departmentName'] = request.department_name if not UtilClient.is_unset(request.parent_department_id): query['parentDepartmentId'] = request.parent_department_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.AddResidentDepartmentResponse(), self.do_roarequest('AddResidentDepartment', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/departments', 'json', req, runtime) ) async def add_resident_department_with_options_async( self, request: dingtalkresident__1__0_models.AddResidentDepartmentRequest, headers: dingtalkresident__1__0_models.AddResidentDepartmentHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.AddResidentDepartmentResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.is_residence_group): query['isResidenceGroup'] = request.is_residence_group if not UtilClient.is_unset(request.department_name): query['departmentName'] = request.department_name if not UtilClient.is_unset(request.parent_department_id): query['parentDepartmentId'] = request.parent_department_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.AddResidentDepartmentResponse(), await self.do_roarequest_async('AddResidentDepartment', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/departments', 'json', req, runtime) ) def page_point_history( self, request: dingtalkresident__1__0_models.PagePointHistoryRequest, ) -> dingtalkresident__1__0_models.PagePointHistoryResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.PagePointHistoryHeaders() return self.page_point_history_with_options(request, headers, runtime) async def page_point_history_async( self, request: dingtalkresident__1__0_models.PagePointHistoryRequest, ) -> dingtalkresident__1__0_models.PagePointHistoryResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.PagePointHistoryHeaders() return await self.page_point_history_with_options_async(request, headers, runtime) def page_point_history_with_options( self, request: dingtalkresident__1__0_models.PagePointHistoryRequest, headers: dingtalkresident__1__0_models.PagePointHistoryHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.PagePointHistoryResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.is_circle): query['isCircle'] = request.is_circle if not UtilClient.is_unset(request.user_id): query['userId'] = request.user_id if not UtilClient.is_unset(request.next_token): query['nextToken'] = request.next_token if not UtilClient.is_unset(request.max_results): query['maxResults'] = request.max_results if not UtilClient.is_unset(request.start_time): query['startTime'] = request.start_time if not UtilClient.is_unset(request.end_time): query['endTime'] = request.end_time real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.PagePointHistoryResponse(), self.do_roarequest('PagePointHistory', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/points/records', 'json', req, runtime) ) async def page_point_history_with_options_async( self, request: dingtalkresident__1__0_models.PagePointHistoryRequest, headers: dingtalkresident__1__0_models.PagePointHistoryHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.PagePointHistoryResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.is_circle): query['isCircle'] = request.is_circle if not UtilClient.is_unset(request.user_id): query['userId'] = request.user_id if not UtilClient.is_unset(request.next_token): query['nextToken'] = request.next_token if not UtilClient.is_unset(request.max_results): query['maxResults'] = request.max_results if not UtilClient.is_unset(request.start_time): query['startTime'] = request.start_time if not UtilClient.is_unset(request.end_time): query['endTime'] = request.end_time real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.PagePointHistoryResponse(), await self.do_roarequest_async('PagePointHistory', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/points/records', 'json', req, runtime) ) def get_spaces_info( self, request: dingtalkresident__1__0_models.GetSpacesInfoRequest, ) -> dingtalkresident__1__0_models.GetSpacesInfoResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetSpacesInfoHeaders() return self.get_spaces_info_with_options(request, headers, runtime) async def get_spaces_info_async( self, request: dingtalkresident__1__0_models.GetSpacesInfoRequest, ) -> dingtalkresident__1__0_models.GetSpacesInfoResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetSpacesInfoHeaders() return await self.get_spaces_info_with_options_async(request, headers, runtime) def get_spaces_info_with_options( self, request: dingtalkresident__1__0_models.GetSpacesInfoRequest, headers: dingtalkresident__1__0_models.GetSpacesInfoHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetSpacesInfoResponse: UtilClient.validate_model(request) body = {} if not UtilClient.is_unset(request.resident_corp_id): body['residentCorpId'] = request.resident_corp_id if not UtilClient.is_unset(request.refer_ids): body['referIds'] = request.refer_ids if not UtilClient.is_unset(request.ding_isv_org_id): body['dingIsvOrgId'] = request.ding_isv_org_id if not UtilClient.is_unset(request.ding_suite_key): body['dingSuiteKey'] = request.ding_suite_key if not UtilClient.is_unset(request.ding_corp_id): body['dingCorpId'] = request.ding_corp_id if not UtilClient.is_unset(request.ding_token_grant_type): body['dingTokenGrantType'] = request.ding_token_grant_type real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, body=OpenApiUtilClient.parse_to_map(body) ) return TeaCore.from_map( dingtalkresident__1__0_models.GetSpacesInfoResponse(), self.do_roarequest('GetSpacesInfo', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/spaces/query', 'json', req, runtime) ) async def get_spaces_info_with_options_async( self, request: dingtalkresident__1__0_models.GetSpacesInfoRequest, headers: dingtalkresident__1__0_models.GetSpacesInfoHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetSpacesInfoResponse: UtilClient.validate_model(request) body = {} if not UtilClient.is_unset(request.resident_corp_id): body['residentCorpId'] = request.resident_corp_id if not UtilClient.is_unset(request.refer_ids): body['referIds'] = request.refer_ids if not UtilClient.is_unset(request.ding_isv_org_id): body['dingIsvOrgId'] = request.ding_isv_org_id if not UtilClient.is_unset(request.ding_suite_key): body['dingSuiteKey'] = request.ding_suite_key if not UtilClient.is_unset(request.ding_corp_id): body['dingCorpId'] = request.ding_corp_id if not UtilClient.is_unset(request.ding_token_grant_type): body['dingTokenGrantType'] = request.ding_token_grant_type real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, body=OpenApiUtilClient.parse_to_map(body) ) return TeaCore.from_map( dingtalkresident__1__0_models.GetSpacesInfoResponse(), await self.do_roarequest_async('GetSpacesInfo', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/spaces/query', 'json', req, runtime) ) def update_resident_user( self, request: dingtalkresident__1__0_models.UpdateResidentUserRequest, ) -> dingtalkresident__1__0_models.UpdateResidentUserResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.UpdateResidentUserHeaders() return self.update_resident_user_with_options(request, headers, runtime) async def update_resident_user_async( self, request: dingtalkresident__1__0_models.UpdateResidentUserRequest, ) -> dingtalkresident__1__0_models.UpdateResidentUserResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.UpdateResidentUserHeaders() return await self.update_resident_user_with_options_async(request, headers, runtime) def update_resident_user_with_options( self, request: dingtalkresident__1__0_models.UpdateResidentUserRequest, headers: dingtalkresident__1__0_models.UpdateResidentUserHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.UpdateResidentUserResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.address): query['address'] = request.address if not UtilClient.is_unset(request.is_retain_old_dept): query['isRetainOldDept'] = request.is_retain_old_dept if not UtilClient.is_unset(request.user_name): query['userName'] = request.user_name if not UtilClient.is_unset(request.mobile): query['mobile'] = request.mobile if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id if not UtilClient.is_unset(request.ext_field): query['extField'] = request.ext_field if not UtilClient.is_unset(request.relate_type): query['relateType'] = request.relate_type if not UtilClient.is_unset(request.user_id): query['userId'] = request.user_id if not UtilClient.is_unset(request.old_department_id): query['oldDepartmentId'] = request.old_department_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.UpdateResidentUserResponse(), self.do_roarequest('UpdateResidentUser', 'resident_1.0', 'HTTP', 'PUT', 'AK', f'/v1.0/resident/users', 'json', req, runtime) ) async def update_resident_user_with_options_async( self, request: dingtalkresident__1__0_models.UpdateResidentUserRequest, headers: dingtalkresident__1__0_models.UpdateResidentUserHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.UpdateResidentUserResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.address): query['address'] = request.address if not UtilClient.is_unset(request.is_retain_old_dept): query['isRetainOldDept'] = request.is_retain_old_dept if not UtilClient.is_unset(request.user_name): query['userName'] = request.user_name if not UtilClient.is_unset(request.mobile): query['mobile'] = request.mobile if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id if not UtilClient.is_unset(request.ext_field): query['extField'] = request.ext_field if not UtilClient.is_unset(request.relate_type): query['relateType'] = request.relate_type if not UtilClient.is_unset(request.user_id): query['userId'] = request.user_id if not UtilClient.is_unset(request.old_department_id): query['oldDepartmentId'] = request.old_department_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.UpdateResidentUserResponse(), await self.do_roarequest_async('UpdateResidentUser', 'resident_1.0', 'HTTP', 'PUT', 'AK', f'/v1.0/resident/users', 'json', req, runtime) ) def delete_resident_black_board( self, request: dingtalkresident__1__0_models.DeleteResidentBlackBoardRequest, ) -> dingtalkresident__1__0_models.DeleteResidentBlackBoardResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.DeleteResidentBlackBoardHeaders() return self.delete_resident_black_board_with_options(request, headers, runtime) async def delete_resident_black_board_async( self, request: dingtalkresident__1__0_models.DeleteResidentBlackBoardRequest, ) -> dingtalkresident__1__0_models.DeleteResidentBlackBoardResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.DeleteResidentBlackBoardHeaders() return await self.delete_resident_black_board_with_options_async(request, headers, runtime) def delete_resident_black_board_with_options( self, request: dingtalkresident__1__0_models.DeleteResidentBlackBoardRequest, headers: dingtalkresident__1__0_models.DeleteResidentBlackBoardHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.DeleteResidentBlackBoardResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.blackboard_id): query['blackboardId'] = request.blackboard_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.DeleteResidentBlackBoardResponse(), self.do_roarequest('DeleteResidentBlackBoard', 'resident_1.0', 'HTTP', 'DELETE', 'AK', f'/v1.0/resident/blackboards', 'json', req, runtime) ) async def delete_resident_black_board_with_options_async( self, request: dingtalkresident__1__0_models.DeleteResidentBlackBoardRequest, headers: dingtalkresident__1__0_models.DeleteResidentBlackBoardHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.DeleteResidentBlackBoardResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.blackboard_id): query['blackboardId'] = request.blackboard_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.DeleteResidentBlackBoardResponse(), await self.do_roarequest_async('DeleteResidentBlackBoard', 'resident_1.0', 'HTTP', 'DELETE', 'AK', f'/v1.0/resident/blackboards', 'json', req, runtime) ) def add_point( self, request: dingtalkresident__1__0_models.AddPointRequest, ) -> dingtalkresident__1__0_models.AddPointResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.AddPointHeaders() return self.add_point_with_options(request, headers, runtime) async def add_point_async( self, request: dingtalkresident__1__0_models.AddPointRequest, ) -> dingtalkresident__1__0_models.AddPointResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.AddPointHeaders() return await self.add_point_with_options_async(request, headers, runtime) def add_point_with_options( self, request: dingtalkresident__1__0_models.AddPointRequest, headers: dingtalkresident__1__0_models.AddPointHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.AddPointResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.is_circle): query['isCircle'] = request.is_circle if not UtilClient.is_unset(request.uuid): query['uuid'] = request.uuid if not UtilClient.is_unset(request.user_id): query['userId'] = request.user_id if not UtilClient.is_unset(request.rule_code): query['ruleCode'] = request.rule_code if not UtilClient.is_unset(request.rule_name): query['ruleName'] = request.rule_name if not UtilClient.is_unset(request.action_time): query['actionTime'] = request.action_time if not UtilClient.is_unset(request.score): query['score'] = request.score real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.AddPointResponse(), self.do_roarequest('AddPoint', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/points', 'none', req, runtime) ) async def add_point_with_options_async( self, request: dingtalkresident__1__0_models.AddPointRequest, headers: dingtalkresident__1__0_models.AddPointHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.AddPointResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.is_circle): query['isCircle'] = request.is_circle if not UtilClient.is_unset(request.uuid): query['uuid'] = request.uuid if not UtilClient.is_unset(request.user_id): query['userId'] = request.user_id if not UtilClient.is_unset(request.rule_code): query['ruleCode'] = request.rule_code if not UtilClient.is_unset(request.rule_name): query['ruleName'] = request.rule_name if not UtilClient.is_unset(request.action_time): query['actionTime'] = request.action_time if not UtilClient.is_unset(request.score): query['score'] = request.score real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.AddPointResponse(), await self.do_roarequest_async('AddPoint', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/points', 'none', req, runtime) ) def delete_resident_department( self, request: dingtalkresident__1__0_models.DeleteResidentDepartmentRequest, ) -> dingtalkresident__1__0_models.DeleteResidentDepartmentResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.DeleteResidentDepartmentHeaders() return self.delete_resident_department_with_options(request, headers, runtime) async def delete_resident_department_async( self, request: dingtalkresident__1__0_models.DeleteResidentDepartmentRequest, ) -> dingtalkresident__1__0_models.DeleteResidentDepartmentResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.DeleteResidentDepartmentHeaders() return await self.delete_resident_department_with_options_async(request, headers, runtime) def delete_resident_department_with_options( self, request: dingtalkresident__1__0_models.DeleteResidentDepartmentRequest, headers: dingtalkresident__1__0_models.DeleteResidentDepartmentHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.DeleteResidentDepartmentResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.DeleteResidentDepartmentResponse(), self.do_roarequest('DeleteResidentDepartment', 'resident_1.0', 'HTTP', 'DELETE', 'AK', f'/v1.0/resident/departments', 'json', req, runtime) ) async def delete_resident_department_with_options_async( self, request: dingtalkresident__1__0_models.DeleteResidentDepartmentRequest, headers: dingtalkresident__1__0_models.DeleteResidentDepartmentHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.DeleteResidentDepartmentResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.DeleteResidentDepartmentResponse(), await self.do_roarequest_async('DeleteResidentDepartment', 'resident_1.0', 'HTTP', 'DELETE', 'AK', f'/v1.0/resident/departments', 'json', req, runtime) ) def add_resident_users( self, request: dingtalkresident__1__0_models.AddResidentUsersRequest, ) -> dingtalkresident__1__0_models.AddResidentUsersResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.AddResidentUsersHeaders() return self.add_resident_users_with_options(request, headers, runtime) async def add_resident_users_async( self, request: dingtalkresident__1__0_models.AddResidentUsersRequest, ) -> dingtalkresident__1__0_models.AddResidentUsersResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.AddResidentUsersHeaders() return await self.add_resident_users_with_options_async(request, headers, runtime) def add_resident_users_with_options( self, request: dingtalkresident__1__0_models.AddResidentUsersRequest, headers: dingtalkresident__1__0_models.AddResidentUsersHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.AddResidentUsersResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.address): query['address'] = request.address if not UtilClient.is_unset(request.is_leaseholder): query['isLeaseholder'] = request.is_leaseholder if not UtilClient.is_unset(request.user_name): query['userName'] = request.user_name if not UtilClient.is_unset(request.mobile): query['mobile'] = request.mobile if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id if not UtilClient.is_unset(request.ext_field): query['extField'] = request.ext_field if not UtilClient.is_unset(request.relate_type): query['relateType'] = request.relate_type real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.AddResidentUsersResponse(), self.do_roarequest('AddResidentUsers', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/users', 'json', req, runtime) ) async def add_resident_users_with_options_async( self, request: dingtalkresident__1__0_models.AddResidentUsersRequest, headers: dingtalkresident__1__0_models.AddResidentUsersHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.AddResidentUsersResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.address): query['address'] = request.address if not UtilClient.is_unset(request.is_leaseholder): query['isLeaseholder'] = request.is_leaseholder if not UtilClient.is_unset(request.user_name): query['userName'] = request.user_name if not UtilClient.is_unset(request.mobile): query['mobile'] = request.mobile if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id if not UtilClient.is_unset(request.ext_field): query['extField'] = request.ext_field if not UtilClient.is_unset(request.relate_type): query['relateType'] = request.relate_type real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.AddResidentUsersResponse(), await self.do_roarequest_async('AddResidentUsers', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/users', 'json', req, runtime) ) def get_resident_members_info( self, request: dingtalkresident__1__0_models.GetResidentMembersInfoRequest, ) -> dingtalkresident__1__0_models.GetResidentMembersInfoResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetResidentMembersInfoHeaders() return self.get_resident_members_info_with_options(request, headers, runtime) async def get_resident_members_info_async( self, request: dingtalkresident__1__0_models.GetResidentMembersInfoRequest, ) -> dingtalkresident__1__0_models.GetResidentMembersInfoResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetResidentMembersInfoHeaders() return await self.get_resident_members_info_with_options_async(request, headers, runtime) def get_resident_members_info_with_options( self, request: dingtalkresident__1__0_models.GetResidentMembersInfoRequest, headers: dingtalkresident__1__0_models.GetResidentMembersInfoHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetResidentMembersInfoResponse: UtilClient.validate_model(request) body = {} if not UtilClient.is_unset(request.resident_crop_id): body['residentCropId'] = request.resident_crop_id if not UtilClient.is_unset(request.user_id_list): body['userIdList'] = request.user_id_list if not UtilClient.is_unset(request.ding_suite_key): body['dingSuiteKey'] = request.ding_suite_key if not UtilClient.is_unset(request.ding_corp_id): body['dingCorpId'] = request.ding_corp_id if not UtilClient.is_unset(request.ding_token_grant_type): body['dingTokenGrantType'] = request.ding_token_grant_type if not UtilClient.is_unset(request.ding_isv_org_id): body['dingIsvOrgId'] = request.ding_isv_org_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, body=OpenApiUtilClient.parse_to_map(body) ) return TeaCore.from_map( dingtalkresident__1__0_models.GetResidentMembersInfoResponse(), self.do_roarequest('GetResidentMembersInfo', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/residences/query', 'json', req, runtime) ) async def get_resident_members_info_with_options_async( self, request: dingtalkresident__1__0_models.GetResidentMembersInfoRequest, headers: dingtalkresident__1__0_models.GetResidentMembersInfoHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetResidentMembersInfoResponse: UtilClient.validate_model(request) body = {} if not UtilClient.is_unset(request.resident_crop_id): body['residentCropId'] = request.resident_crop_id if not UtilClient.is_unset(request.user_id_list): body['userIdList'] = request.user_id_list if not UtilClient.is_unset(request.ding_suite_key): body['dingSuiteKey'] = request.ding_suite_key if not UtilClient.is_unset(request.ding_corp_id): body['dingCorpId'] = request.ding_corp_id if not UtilClient.is_unset(request.ding_token_grant_type): body['dingTokenGrantType'] = request.ding_token_grant_type if not UtilClient.is_unset(request.ding_isv_org_id): body['dingIsvOrgId'] = request.ding_isv_org_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, body=OpenApiUtilClient.parse_to_map(body) ) return TeaCore.from_map( dingtalkresident__1__0_models.GetResidentMembersInfoResponse(), await self.do_roarequest_async('GetResidentMembersInfo', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/residences/query', 'json', req, runtime) ) def remove_resident_user( self, request: dingtalkresident__1__0_models.RemoveResidentUserRequest, ) -> dingtalkresident__1__0_models.RemoveResidentUserResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.RemoveResidentUserHeaders() return self.remove_resident_user_with_options(request, headers, runtime) async def remove_resident_user_async( self, request: dingtalkresident__1__0_models.RemoveResidentUserRequest, ) -> dingtalkresident__1__0_models.RemoveResidentUserResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.RemoveResidentUserHeaders() return await self.remove_resident_user_with_options_async(request, headers, runtime) def remove_resident_user_with_options( self, request: dingtalkresident__1__0_models.RemoveResidentUserRequest, headers: dingtalkresident__1__0_models.RemoveResidentUserHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.RemoveResidentUserResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id if not UtilClient.is_unset(request.user_id): query['userId'] = request.user_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.RemoveResidentUserResponse(), self.do_roarequest('RemoveResidentUser', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/users/remove', 'json', req, runtime) ) async def remove_resident_user_with_options_async( self, request: dingtalkresident__1__0_models.RemoveResidentUserRequest, headers: dingtalkresident__1__0_models.RemoveResidentUserHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.RemoveResidentUserResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id if not UtilClient.is_unset(request.user_id): query['userId'] = request.user_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.RemoveResidentUserResponse(), await self.do_roarequest_async('RemoveResidentUser', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/users/remove', 'json', req, runtime) ) def update_residence( self, request: dingtalkresident__1__0_models.UpdateResidenceRequest, ) -> dingtalkresident__1__0_models.UpdateResidenceResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.UpdateResidenceHeaders() return self.update_residence_with_options(request, headers, runtime) async def update_residence_async( self, request: dingtalkresident__1__0_models.UpdateResidenceRequest, ) -> dingtalkresident__1__0_models.UpdateResidenceResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.UpdateResidenceHeaders() return await self.update_residence_with_options_async(request, headers, runtime) def update_residence_with_options( self, request: dingtalkresident__1__0_models.UpdateResidenceRequest, headers: dingtalkresident__1__0_models.UpdateResidenceHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.UpdateResidenceResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.manager_user_id): query['managerUserId'] = request.manager_user_id if not UtilClient.is_unset(request.department_name): query['departmentName'] = request.department_name if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id if not UtilClient.is_unset(request.grid): query['grid'] = request.grid if not UtilClient.is_unset(request.home_tel): query['homeTel'] = request.home_tel if not UtilClient.is_unset(request.destitute): query['destitute'] = request.destitute if not UtilClient.is_unset(request.parent_department_id): query['parentDepartmentId'] = request.parent_department_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.UpdateResidenceResponse(), self.do_roarequest('UpdateResidence', 'resident_1.0', 'HTTP', 'PUT', 'AK', f'/v1.0/resident/departments/updateResidece', 'json', req, runtime) ) async def update_residence_with_options_async( self, request: dingtalkresident__1__0_models.UpdateResidenceRequest, headers: dingtalkresident__1__0_models.UpdateResidenceHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.UpdateResidenceResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.manager_user_id): query['managerUserId'] = request.manager_user_id if not UtilClient.is_unset(request.department_name): query['departmentName'] = request.department_name if not UtilClient.is_unset(request.department_id): query['departmentId'] = request.department_id if not UtilClient.is_unset(request.grid): query['grid'] = request.grid if not UtilClient.is_unset(request.home_tel): query['homeTel'] = request.home_tel if not UtilClient.is_unset(request.destitute): query['destitute'] = request.destitute if not UtilClient.is_unset(request.parent_department_id): query['parentDepartmentId'] = request.parent_department_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.UpdateResidenceResponse(), await self.do_roarequest_async('UpdateResidence', 'resident_1.0', 'HTTP', 'PUT', 'AK', f'/v1.0/resident/departments/updateResidece', 'json', req, runtime) ) def create_resident_black_board( self, request: dingtalkresident__1__0_models.CreateResidentBlackBoardRequest, ) -> dingtalkresident__1__0_models.CreateResidentBlackBoardResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.CreateResidentBlackBoardHeaders() return self.create_resident_black_board_with_options(request, headers, runtime) async def create_resident_black_board_async( self, request: dingtalkresident__1__0_models.CreateResidentBlackBoardRequest, ) -> dingtalkresident__1__0_models.CreateResidentBlackBoardResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.CreateResidentBlackBoardHeaders() return await self.create_resident_black_board_with_options_async(request, headers, runtime) def create_resident_black_board_with_options( self, request: dingtalkresident__1__0_models.CreateResidentBlackBoardRequest, headers: dingtalkresident__1__0_models.CreateResidentBlackBoardHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.CreateResidentBlackBoardResponse: UtilClient.validate_model(request) body = {} if not UtilClient.is_unset(request.ding_isv_org_id): body['dingIsvOrgId'] = request.ding_isv_org_id if not UtilClient.is_unset(request.ding_corp_id): body['dingCorpId'] = request.ding_corp_id if not UtilClient.is_unset(request.ding_suite_key): body['dingSuiteKey'] = request.ding_suite_key if not UtilClient.is_unset(request.ding_token_grant_type): body['dingTokenGrantType'] = request.ding_token_grant_type if not UtilClient.is_unset(request.title): body['title'] = request.title if not UtilClient.is_unset(request.context): body['context'] = request.context if not UtilClient.is_unset(request.media_id): body['mediaId'] = request.media_id if not UtilClient.is_unset(request.send_time): body['sendTime'] = request.send_time real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, body=OpenApiUtilClient.parse_to_map(body) ) return TeaCore.from_map( dingtalkresident__1__0_models.CreateResidentBlackBoardResponse(), self.do_roarequest('CreateResidentBlackBoard', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/blackboards', 'json', req, runtime) ) async def create_resident_black_board_with_options_async( self, request: dingtalkresident__1__0_models.CreateResidentBlackBoardRequest, headers: dingtalkresident__1__0_models.CreateResidentBlackBoardHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.CreateResidentBlackBoardResponse: UtilClient.validate_model(request) body = {} if not UtilClient.is_unset(request.ding_isv_org_id): body['dingIsvOrgId'] = request.ding_isv_org_id if not UtilClient.is_unset(request.ding_corp_id): body['dingCorpId'] = request.ding_corp_id if not UtilClient.is_unset(request.ding_suite_key): body['dingSuiteKey'] = request.ding_suite_key if not UtilClient.is_unset(request.ding_token_grant_type): body['dingTokenGrantType'] = request.ding_token_grant_type if not UtilClient.is_unset(request.title): body['title'] = request.title if not UtilClient.is_unset(request.context): body['context'] = request.context if not UtilClient.is_unset(request.media_id): body['mediaId'] = request.media_id if not UtilClient.is_unset(request.send_time): body['sendTime'] = request.send_time real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, body=OpenApiUtilClient.parse_to_map(body) ) return TeaCore.from_map( dingtalkresident__1__0_models.CreateResidentBlackBoardResponse(), await self.do_roarequest_async('CreateResidentBlackBoard', 'resident_1.0', 'HTTP', 'POST', 'AK', f'/v1.0/resident/blackboards', 'json', req, runtime) ) def update_resident_black_board( self, request: dingtalkresident__1__0_models.UpdateResidentBlackBoardRequest, ) -> dingtalkresident__1__0_models.UpdateResidentBlackBoardResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.UpdateResidentBlackBoardHeaders() return self.update_resident_black_board_with_options(request, headers, runtime) async def update_resident_black_board_async( self, request: dingtalkresident__1__0_models.UpdateResidentBlackBoardRequest, ) -> dingtalkresident__1__0_models.UpdateResidentBlackBoardResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.UpdateResidentBlackBoardHeaders() return await self.update_resident_black_board_with_options_async(request, headers, runtime) def update_resident_black_board_with_options( self, request: dingtalkresident__1__0_models.UpdateResidentBlackBoardRequest, headers: dingtalkresident__1__0_models.UpdateResidentBlackBoardHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.UpdateResidentBlackBoardResponse: UtilClient.validate_model(request) body = {} if not UtilClient.is_unset(request.ding_isv_org_id): body['dingIsvOrgId'] = request.ding_isv_org_id if not UtilClient.is_unset(request.ding_corp_id): body['dingCorpId'] = request.ding_corp_id if not UtilClient.is_unset(request.ding_suite_key): body['dingSuiteKey'] = request.ding_suite_key if not UtilClient.is_unset(request.ding_token_grant_type): body['dingTokenGrantType'] = request.ding_token_grant_type if not UtilClient.is_unset(request.title): body['title'] = request.title if not UtilClient.is_unset(request.context): body['context'] = request.context if not UtilClient.is_unset(request.media_id): body['mediaId'] = request.media_id if not UtilClient.is_unset(request.blackboard_id): body['blackboardId'] = request.blackboard_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, body=OpenApiUtilClient.parse_to_map(body) ) return TeaCore.from_map( dingtalkresident__1__0_models.UpdateResidentBlackBoardResponse(), self.do_roarequest('UpdateResidentBlackBoard', 'resident_1.0', 'HTTP', 'PUT', 'AK', f'/v1.0/resident/blackboards', 'json', req, runtime) ) async def update_resident_black_board_with_options_async( self, request: dingtalkresident__1__0_models.UpdateResidentBlackBoardRequest, headers: dingtalkresident__1__0_models.UpdateResidentBlackBoardHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.UpdateResidentBlackBoardResponse: UtilClient.validate_model(request) body = {} if not UtilClient.is_unset(request.ding_isv_org_id): body['dingIsvOrgId'] = request.ding_isv_org_id if not UtilClient.is_unset(request.ding_corp_id): body['dingCorpId'] = request.ding_corp_id if not UtilClient.is_unset(request.ding_suite_key): body['dingSuiteKey'] = request.ding_suite_key if not UtilClient.is_unset(request.ding_token_grant_type): body['dingTokenGrantType'] = request.ding_token_grant_type if not UtilClient.is_unset(request.title): body['title'] = request.title if not UtilClient.is_unset(request.context): body['context'] = request.context if not UtilClient.is_unset(request.media_id): body['mediaId'] = request.media_id if not UtilClient.is_unset(request.blackboard_id): body['blackboardId'] = request.blackboard_id real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, body=OpenApiUtilClient.parse_to_map(body) ) return TeaCore.from_map( dingtalkresident__1__0_models.UpdateResidentBlackBoardResponse(), await self.do_roarequest_async('UpdateResidentBlackBoard', 'resident_1.0', 'HTTP', 'PUT', 'AK', f'/v1.0/resident/blackboards', 'json', req, runtime) ) def list_point_rules( self, request: dingtalkresident__1__0_models.ListPointRulesRequest, ) -> dingtalkresident__1__0_models.ListPointRulesResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.ListPointRulesHeaders() return self.list_point_rules_with_options(request, headers, runtime) async def list_point_rules_async( self, request: dingtalkresident__1__0_models.ListPointRulesRequest, ) -> dingtalkresident__1__0_models.ListPointRulesResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.ListPointRulesHeaders() return await self.list_point_rules_with_options_async(request, headers, runtime) def list_point_rules_with_options( self, request: dingtalkresident__1__0_models.ListPointRulesRequest, headers: dingtalkresident__1__0_models.ListPointRulesHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.ListPointRulesResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.is_circle): query['isCircle'] = request.is_circle real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.ListPointRulesResponse(), self.do_roarequest('ListPointRules', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/points/rules', 'json', req, runtime) ) async def list_point_rules_with_options_async( self, request: dingtalkresident__1__0_models.ListPointRulesRequest, headers: dingtalkresident__1__0_models.ListPointRulesHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.ListPointRulesResponse: UtilClient.validate_model(request) query = {} if not UtilClient.is_unset(request.is_circle): query['isCircle'] = request.is_circle real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers, query=OpenApiUtilClient.query(query) ) return TeaCore.from_map( dingtalkresident__1__0_models.ListPointRulesResponse(), await self.do_roarequest_async('ListPointRules', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/points/rules', 'json', req, runtime) ) def get_industry_type(self) -> dingtalkresident__1__0_models.GetIndustryTypeResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetIndustryTypeHeaders() return self.get_industry_type_with_options(headers, runtime) async def get_industry_type_async(self) -> dingtalkresident__1__0_models.GetIndustryTypeResponse: runtime = util_models.RuntimeOptions() headers = dingtalkresident__1__0_models.GetIndustryTypeHeaders() return await self.get_industry_type_with_options_async(headers, runtime) def get_industry_type_with_options( self, headers: dingtalkresident__1__0_models.GetIndustryTypeHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetIndustryTypeResponse: real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers ) return TeaCore.from_map( dingtalkresident__1__0_models.GetIndustryTypeResponse(), self.do_roarequest('GetIndustryType', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/organizations/industryTypes', 'json', req, runtime) ) async def get_industry_type_with_options_async( self, headers: dingtalkresident__1__0_models.GetIndustryTypeHeaders, runtime: util_models.RuntimeOptions, ) -> dingtalkresident__1__0_models.GetIndustryTypeResponse: real_headers = {} if not UtilClient.is_unset(headers.common_headers): real_headers = headers.common_headers if not UtilClient.is_unset(headers.x_acs_dingtalk_access_token): real_headers['x-acs-dingtalk-access-token'] = headers.x_acs_dingtalk_access_token req = open_api_models.OpenApiRequest( headers=real_headers ) return TeaCore.from_map( dingtalkresident__1__0_models.GetIndustryTypeResponse(), await self.do_roarequest_async('GetIndustryType', 'resident_1.0', 'HTTP', 'GET', 'AK', f'/v1.0/resident/organizations/industryTypes', 'json', req, runtime) )

50.884303

175

0.707438

8,696

81,364

6.201817

0.032774

0.012386

0.097124

0.129499

0.982886

0.963694

0.947173

0.939293

0.923309

0.902505

0

0.011707

0.209503

81,364

1,598

176

50.916145

0.826798

0.000983

0

0.822709

1

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0.072302

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0

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0

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0

null

0

1

0

1

0

null

0

8

870beca4079cee153c8e908c9d6b7bfbc7e1123a

1,873

py

Python

autogoal/contrib/wikipedia/_base.py

gmijenes/autogoal

916b0eb4d1aa1a222d0ff1b0f6f202bf56458ef5

[ "MIT" ]

null

autogoal/contrib/wikipedia/_base.py

gmijenes/autogoal

916b0eb4d1aa1a222d0ff1b0f6f202bf56458ef5

[ "MIT" ]

null

autogoal/contrib/wikipedia/_base.py

gmijenes/autogoal

916b0eb4d1aa1a222d0ff1b0f6f202bf56458ef5

[ "MIT" ]

null

import wikipedia from autogoal.kb import Word, Document, FeatureSet from autogoal.utils import nice_repr from autogoal.kb import AlgorithmBase @nice_repr class WikipediaSummary(AlgorithmBase): """This class find a word in Wikipedia and return a summary in english. """ def __init__(self): pass def run(self, input: Word) -> Document: """This method use Word2Vect of gensim for tranform a word in embedding vector. """ try: return wikipedia.summary(input) except: return "" @nice_repr class WikipediaContainsWord(AlgorithmBase): """This class find a word in Wikipedia and return a summary in english. """ def __init__(self): pass def run(self, input: Word) -> FeatureSet: """This method use Word2Vect of gensim for tranform a word in embedding vector. """ return dict(in_wikipedia=bool(wikipedia.search(input))) @nice_repr class WikipediaSummarySpanish(AlgorithmBase): """This class find a word in Wikipedia and return a summary in Spanish. """ def __init__(self): wikipedia.set_lang("es") def run(self, input: Word) -> Document: """This method use Word2Vect of gensim for tranform a word in embedding vector. """ try: return wikipedia.summary(input) except: return "" @nice_repr class WikipediaContainsWordSpanish(AlgorithmBase): """This class find a word in Wikipedia and return a summary in Spanish. """ def __init__(self): wikipedia.set_lang("es") def run(self, input: Word) -> FeatureSet: """This method use Word2Vect of gensim for tranform a word in embedding vector. """ return dict(in_wikipedia=bool(wikipedia.search(input)))

27.544118

88

0.632141

220

1,873

5.268182

0.222727

0.034513

0.048318

0.089733

0.797239

0

0.002983

0.284036

1,873

67

89

27.955224

0.861298

0.336359

0

0.764706

0

0.003552

0

1

0.235294

false

0.058824

0.117647

0

0.647059

0

null

0

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0

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0

null

0

1

0

1

0

1

0

9

870d6b3b0924cc0085506ad3998b8c02cbe2bc17

2,019

py

Python

api/helpers.py

FAANG/faang-portal-proxy

2a2fbde17a64e619a7cb7c639fb8fe4d078ec9d0

[ "Apache-2.0" ]

null

api/helpers.py

FAANG/faang-portal-proxy

2a2fbde17a64e619a7cb7c639fb8fe4d078ec9d0

[ "Apache-2.0" ]

null

api/helpers.py

FAANG/faang-portal-proxy

2a2fbde17a64e619a7cb7c639fb8fe4d078ec9d0

[ "Apache-2.0" ]

1

2022-03-15T09:15:14.000Z

import pandas as pd def generate_df(field_name, column_name, data): """ This function will generate tables with summary :param field_name: field name to parse :param column_name: column name to use in result table :param data: data to parse :return: results in pandas format as tables """ data_all = dict() data_faang_only = dict() for name in [field_name, "{}FAANGOnly".format(field_name)]: tmp = data_all if name == field_name else data_faang_only for item in data[name]: tmp.setdefault(column_name, list()) tmp.setdefault('Number', list()) tmp[column_name].append(item['name']) tmp['Number'].append(item['value']) df = pd.DataFrame(data_all, columns=[column_name, 'Number']) df_faang_only = pd.DataFrame(data_faang_only, columns=[column_name, 'Number']) return df, df_faang_only def generate_df_for_breeds(field_name, column_name, data): """ This function will generate tables with summary (specific for breeds data) :param field_name: field name to parse :param column_name: column name to use in result table :param data: data to parse :return: results in pandas format as tables """ data_all = dict() data_faang_only = dict() for name in [field_name, "{}FAANGOnly".format(field_name)]: tmp = data_all if name == field_name else data_faang_only for item in data[name]: for sc_item in item['speciesValue']: tmp.setdefault(column_name, list()) tmp.setdefault('Number', list()) tmp[column_name].append(sc_item['breedsName']) tmp['Number'].append(sc_item['breedsValue']) df = pd.DataFrame(data_all, columns=[column_name, 'Number']) df_faang_only = pd.DataFrame(data_faang_only, columns=[column_name, 'Number']) return df, df_faang_only

41.204082

78

0.6211

262

2,019

4.576336

0.19084

0.116764

0.065054

0.076731

0.850709

0

0.277365

2,019

48

79

42.0625

0.821796

0.223873

0

0.733333

1

0

0.074468

0

1

0.066667

false

0

0.033333

0

0.166667

0

null

0

1

0

1

0

null

0

8

87498c1902df5627b5a49691b5683829d8030689

178

py

Python

src/mutator/__init__.py

AAU-PSix/canary

93b07d23cd9380adc03a6aa1291a13eaa3b3008c

[ "MIT" ]

null

src/mutator/__init__.py

AAU-PSix/canary

93b07d23cd9380adc03a6aa1291a13eaa3b3008c

[ "MIT" ]

null

src/mutator/__init__.py

AAU-PSix/canary

93b07d23cd9380adc03a6aa1291a13eaa3b3008c

[ "MIT" ]

null

from .mutation_strategy import * from .mutator import * from .obom_strategy import * from .ocor_strategy import * from .mutation import * from .mutation_strategy_factory import *

29.666667

40

0.803371

23

178

6

0.347826

0.362319

0.391304

0

0.129213

178

6

40

29.666667

0.890323

0

1

0

true

0

1

0

1

0

1

0

null

1

0

1

0

null

0

1

0

1

0

1

0

7

5ebbfa2ddb294e4eb41a06d59ae5d6ff9fbd47e6

68

py

Python

pairio/__init__.py

flatironinstitute/pairio

69bac1f8303ecb8f6c19a5e620915f8c75556009

[ "Apache-2.0" ]

1

2021-09-23T01:08:57.000Z

pairio/__init__.py

flatironinstitute/pairio

69bac1f8303ecb8f6c19a5e620915f8c75556009

[ "Apache-2.0" ]

null

pairio/__init__.py

flatironinstitute/pairio

69bac1f8303ecb8f6c19a5e620915f8c75556009

[ "Apache-2.0" ]

1

2021-09-23T01:08:59.000Z

from .core import set_config, get_config from .core import get, set

22.666667

40

0.794118

12

68

4.333333

0.5

0.307692

0.538462

0

0.147059

68

2

41

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0.896552

0

1

0

true

0

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0

1

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1

0

null

0

1

0

1

0

1

0

7

5ebe8ccd0ab376876df5183690624bb3866bdd3f

312

py

Python

temboo/core/Library/Tumblr/OAuth/__init__.py

jordanemedlock/psychtruths

52e09033ade9608bd5143129f8a1bfac22d634dd

[ "Apache-2.0" ]

7

2016-03-07T02:07:21.000Z

2022-01-21T02:22:41.000Z

temboo/core/Library/Tumblr/OAuth/__init__.py

jordanemedlock/psychtruths

52e09033ade9608bd5143129f8a1bfac22d634dd

[ "Apache-2.0" ]

null

temboo/core/Library/Tumblr/OAuth/__init__.py

jordanemedlock/psychtruths

52e09033ade9608bd5143129f8a1bfac22d634dd

[ "Apache-2.0" ]

8

2016-06-14T06:01:11.000Z

2020-04-22T09:21:44.000Z

from temboo.Library.Tumblr.OAuth.FinalizeOAuth import FinalizeOAuth, FinalizeOAuthInputSet, FinalizeOAuthResultSet, FinalizeOAuthChoreographyExecution from temboo.Library.Tumblr.OAuth.InitializeOAuth import InitializeOAuth, InitializeOAuthInputSet, InitializeOAuthResultSet, InitializeOAuthChoreographyExecution

104

160

0.910256

22

312

12.909091

0.636364

0.070423

0.119718

0.161972

0.197183

0

0.044872

312

2

161

156

0.95302

0

1

0

true

0

1

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1

0

1

0

1

null

0

1

0

1

0

1

0

null

0

1

0

1

0

7

0d9ca72298dd6338d1d55d0998ae1097f2ad27a0

57

py

Python

web/test_config.py

bhavesh242/constable-github-action

4e952c92270506aac7bb7468b185ae635920329c

[ "MIT" ]

null

web/test_config.py

bhavesh242/constable-github-action

4e952c92270506aac7bb7468b185ae635920329c

[ "MIT" ]

12

2020-10-03T00:19:35.000Z

2020-10-27T14:58:02.000Z

web/test_config.py

bhavesh242/constable-github-action

4e952c92270506aac7bb7468b185ae635920329c

[ "MIT" ]

9

2020-10-22T04:28:54.000Z

2021-09-30T23:42:51.000Z

Access_Token = '4992bfa678e6a406e923e842936cdbc77aa40b3d'

57

0.912281

3

57

17

1

0

0.454545

0.035088

57

1

57

0.472727

0

0.689655

0

1

0

false

0

1

0

1

null

0

1

0

1

0

1

0

1

null

0

7

217beb6087f05feae553f0296684da9ecb4de84d

4,708

py

Python

tests/test_sklearn_scaler_converter.py

gwd666/hummingbird

a39f0fbf4016754f8301dbaf54b0291b6a2e02e0

[ "MIT" ]

null

tests/test_sklearn_scaler_converter.py

gwd666/hummingbird

a39f0fbf4016754f8301dbaf54b0291b6a2e02e0

[ "MIT" ]

null

tests/test_sklearn_scaler_converter.py

gwd666/hummingbird

a39f0fbf4016754f8301dbaf54b0291b6a2e02e0

[ "MIT" ]

null

""" Tests scikit scaler converter. """ import unittest import numpy as np import torch from sklearn.preprocessing import RobustScaler, MaxAbsScaler, MinMaxScaler, StandardScaler import hummingbird.ml class TestSklearnScalerConverter(unittest.TestCase): def test_robust_scaler_floats(self): # Generate a random 2D array with values in [0, 1000) np.random.seed(0) data = np.random.rand(100, 200) * 1000 data = np.array(data, dtype=np.float32) data_tensor = torch.from_numpy(data) model = RobustScaler(with_centering=False, with_scaling=False) model.fit(data) torch_model = hummingbird.ml.convert(model, "torch") self.assertIsNotNone(torch_model) np.testing.assert_allclose(model.transform(data), torch_model.transform(data_tensor), rtol=1e-06, atol=1e-06) model = RobustScaler(with_centering=False, with_scaling=True) model.fit(data) torch_model = hummingbird.ml.convert(model, "torch") self.assertIsNotNone(torch_model) np.testing.assert_allclose(model.transform(data), torch_model.transform(data_tensor), rtol=1e-06, atol=1e-06) model = RobustScaler(with_centering=True, with_scaling=False) model.fit(data) torch_model = hummingbird.ml.convert(model, "torch") self.assertIsNotNone(torch_model) np.testing.assert_allclose(model.transform(data), torch_model.transform(data_tensor), rtol=1e-06, atol=1e-06) model = RobustScaler(with_centering=True, with_scaling=True) model.fit(data) torch_model = hummingbird.ml.convert(model, "torch") self.assertIsNotNone(torch_model) np.testing.assert_allclose(model.transform(data), torch_model.transform(data_tensor), rtol=1e-06, atol=1e-06) def test_max_abs_scaler_floats(self): # Generate a random 2D array with values in [0, 1000) np.random.seed(0) data = np.random.rand(100, 200) * 1000 data = np.array(data, dtype=np.float32) data_tensor = torch.from_numpy(data) model = MaxAbsScaler() model.fit(data) torch_model = hummingbird.ml.convert(model, "torch") self.assertIsNotNone(torch_model) np.testing.assert_allclose(model.transform(data), torch_model.transform(data_tensor), rtol=1e-06, atol=1e-06) def test_min_max_scaler_floats(self): # Generate a random 2D array with values in [0, 1000) np.random.seed(0) data = np.random.rand(100, 200) * 1000 data = np.array(data, dtype=np.float32) data_tensor = torch.from_numpy(data) model = MinMaxScaler() model.fit(data) torch_model = hummingbird.ml.convert(model, "torch") self.assertIsNotNone(torch_model) np.testing.assert_allclose(model.transform(data), torch_model.transform(data_tensor), rtol=1e-06, atol=1e-06) def test_standard_scaler_floats(self): # Generate a random 2D array with values in [0, 1000) np.random.seed(0) data = np.random.rand(100, 200) * 1000 data = np.array(data, dtype=np.float32) data_tensor = torch.from_numpy(data) model = StandardScaler(with_mean=False, with_std=False) model.fit(data) torch_model = hummingbird.ml.convert(model, "torch") self.assertIsNotNone(torch_model) np.testing.assert_allclose(model.transform(data), torch_model.transform(data_tensor), rtol=1e-06, atol=1e-06) model = StandardScaler(with_mean=True, with_std=False) model.fit(data) torch_model = hummingbird.ml.convert(model, "torch") self.assertIsNotNone(torch_model) np.testing.assert_allclose(model.transform(data), torch_model.transform(data_tensor), rtol=1e-04, atol=1e-04) model = StandardScaler(with_mean=True, with_std=True) model.fit(data) torch_model = hummingbird.ml.convert(model, "torch") self.assertIsNotNone(torch_model) np.testing.assert_allclose(model.transform(data), torch_model.transform(data_tensor), rtol=1e-06, atol=1e-06) # Float 64 data tests def test_float64_robust_scaler_floats(self): # Generate a random 2D array with values in [0, 1000) np.random.seed(0) data = np.random.rand(100, 200) * 1000 data_tensor = torch.from_numpy(data) model = RobustScaler(with_centering=False, with_scaling=False) model.fit(data) torch_model = hummingbird.ml.convert(model, "torch") self.assertIsNotNone(torch_model) np.testing.assert_allclose(model.transform(data), torch_model.transform(data_tensor), rtol=1e-06, atol=1e-06) if __name__ == "__main__": unittest.main()

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null

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1

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null

0

7

21e65417a36d1cabbc35b8cd3b81605bf1e88abf

161

py

Python

test/mitmproxy/net/dns/test_types.py

fedosgad/mitmproxy

7eacc41f3b1079e000cf6b6c19c0f337d6e01177

[ "MIT" ]

null

test/mitmproxy/net/dns/test_types.py

fedosgad/mitmproxy

7eacc41f3b1079e000cf6b6c19c0f337d6e01177

[ "MIT" ]

null

test/mitmproxy/net/dns/test_types.py

fedosgad/mitmproxy

7eacc41f3b1079e000cf6b6c19c0f337d6e01177

[ "MIT" ]

null

from mitmproxy.net.dns import types def test_simple(): assert types.A == 1 assert types.to_str(types.A) == "A" assert types.to_str(0) == "TYPE(0)"

20.125

39

0.645963

27

161

3.740741

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0.326733

0.257426

0.316832

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161

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7

df4d4f4e9f9ffec8aa32ab9f06adc2a6c4cba477

3,990

py

Python

accim/sim/accim_ExistingHVAC_EMS.py

dsanchez-garcia/accim

0f64df81a9ecd8424317f9213d90d802e8282c9f

[ "MIT" ]

null

accim/sim/accim_ExistingHVAC_EMS.py

dsanchez-garcia/accim

0f64df81a9ecd8424317f9213d90d802e8282c9f

[ "MIT" ]

null

accim/sim/accim_ExistingHVAC_EMS.py

dsanchez-garcia/accim

0f64df81a9ecd8424317f9213d90d802e8282c9f

[ "MIT" ]

null

def addEMSSensorsExisHVAC(self, verboseMode : bool = True): sensorlist = ([sensor.Name for sensor in self.idf1.idfobjects['EnergyManagementSystem:Sensor']]) for i in range(len(self.ExisHVAC)): for j in range(len(self.ExisHVAC[i][1])): if 'Cool' in self.ExisHVAC[i][1][j] or 'Cool' in self.HVACdict[self.ExisHVAC[i][0]]: if self.ExisHVAC[i][3][j] + '_CoolCoil' in sensorlist: if verboseMode: print('Not added - ' + self.ExisHVAC[i][3][j] + '_CoolCoil Sensor') else: self.idf1.newidfobject( 'EnergyManagementSystem:Sensor', Name=self.ExisHVAC[i][3][j] + '_CoolCoil', OutputVariable_or_OutputMeter_Index_Key_Name=self.ExisHVAC[i][1][j], OutputVariable_or_OutputMeter_Name=self.HVACdict[self.ExisHVAC[i][0]] ) if verboseMode: print('Added - ' + self.ExisHVAC[i][3][j] + '_CoolCoil Sensor') for k in range(len(self.ExisHVAC[i][4])): if self.ExisHVAC[i][3][j] in self.ExisHVAC[i][4][k]: if self.ExisHVAC[i][4][k] + '_CoolCoil' in sensorlist: if verboseMode: print('Not added - ' + self.ExisHVAC[i][4][k] + '_CoolCoil Sensor') else: self.idf1.newidfobject( 'EnergyManagementSystem:Sensor', Name=self.ExisHVAC[i][4][k] + '_CoolCoil', OutputVariable_or_OutputMeter_Index_Key_Name=self.ExisHVAC[i][1][j], OutputVariable_or_OutputMeter_Name=self.HVACdict[self.ExisHVAC[i][0]] ) if verboseMode: print('Added - ' + self.ExisHVAC[i][4][k] + '_CoolCoil Sensor') # print([sensor for sensor in self.idf1.idfobjects['EnergyManagementSystem:Sensor'] if sensor.Name==self.ExisHVAC[i][3][j]+'_CoolCoil']) if 'Heating' in self.ExisHVAC[i][1][j] or 'Heating' in self.HVACdict[self.ExisHVAC[i][0]]: if self.ExisHVAC[i][3][j] + '_HeatCoil' in sensorlist: if verboseMode: print('Not added - ' + self.ExisHVAC[i][3][j] + '_HeatCoil Sensor') else: self.idf1.newidfobject( 'EnergyManagementSystem:Sensor', Name=self.ExisHVAC[i][3][j] + '_HeatCoil', OutputVariable_or_OutputMeter_Index_Key_Name=self.ExisHVAC[i][1][j], OutputVariable_or_OutputMeter_Name=self.HVACdict[self.ExisHVAC[i][0]] ) if verboseMode: print('Added - ' + self.ExisHVAC[i][3][j] + '_HeatCoil Sensor') # probando for k in range(len(self.ExisHVAC[i][4])): if self.ExisHVAC[i][3][j] in self.ExisHVAC[i][4][k]: if self.ExisHVAC[i][4][k] + '_HeatCoil' in sensorlist: if verboseMode: print('Not added - ' + self.ExisHVAC[i][4][k] + '_HeatCoil Sensor') else: self.idf1.newidfobject( 'EnergyManagementSystem:Sensor', Name=self.ExisHVAC[i][4][k] + '_HeatCoil', OutputVariable_or_OutputMeter_Index_Key_Name=self.ExisHVAC[i][1][j], OutputVariable_or_OutputMeter_Name=self.HVACdict[self.ExisHVAC[i][0]] ) if verboseMode: print('Added - ' + self.ExisHVAC[i][4][k] + '_HeatCoil Sensor')

63.333333

159

0.480702

393

3,990

4.755725

0.104326

0.23756

0.250401

0.089888

0.934189

0.922418

0.910112

0.889781

0.781166

0

0.017464

0.397243

3,990

62

160

64.354839

0.759667

0.03584

0

0.551724

0

0.116497

0.03779

0

1

0.017241

false

0

0.017241

0.137931

0

null

1

0

1

0

null

0

8

df61160f4bb8361f95ff1dcfb8e914e74180d926

6,879

py

Python

tests/test_gyomu_data_schema.py

Yoshihisa-Matsumoto/Gyomu_Python

c79a262d65ac6e23535731e30c9cacd9698ad626

[ "MIT" ]

null

tests/test_gyomu_data_schema.py

Yoshihisa-Matsumoto/Gyomu_Python

c79a262d65ac6e23535731e30c9cacd9698ad626

[ "MIT" ]

null

tests/test_gyomu_data_schema.py

Yoshihisa-Matsumoto/Gyomu_Python

c79a262d65ac6e23535731e30c9cacd9698ad626

[ "MIT" ]

null

import pytest from gyomu.gyomu_db_model import * from gyomu.gyomu_db_schema import * from gyomu.user_factory import UserFactory from gyomu.user import User from gyomu.db_connection_factory import DbConnectionFactory from gyomu.json import Json from marshmallow import ValidationError gyomuapps_schema = GyomuAppsSchema() gyomuapps_total_list_schema = GyomuAppsSchema(many=True) gyomuapps_schema_load = GyomuAppsSchema(load_instance=True) gyomuapps_total_list_schema_load = GyomuAppsSchema(many=True, load_instance=True) TEST_APPLICATION_ID2 = 32651 TEST_APPLICAIONT_ID3 = 32652 class TestSchema: def test_gyomu_app(self): app = GyomuAppsInfoCdtbl() app.application_id = TEST_APPLICATION_ID2 app.description = "Test Application" user: User = UserFactory.get_current_user() app.mail_from_name = user.userid app.mail_from_address = "Test@test.com" json_data = Json.to_json(app, gyomuapps_schema) app_loaded = Json.deserialize(json_data, GyomuAppsInfoCdtbl, gyomuapps_schema) assert app.application_id == app_loaded.application_id app2 = GyomuAppsInfoCdtbl() app2.application_id = TEST_APPLICAIONT_ID3 app2.description = "Testw Application" user: User = UserFactory.get_current_user() app2.mail_from_name = user.userid app2.mail_from_address = "Testq@test.com" app_list = [app,app2] json_data = Json.to_json(app_list, gyomuapps_total_list_schema) #json_data = gyomuapps_total_list_schema.dumps(app_list) #dictionary = gyomuapps_total_list_schema.loads(json_data=json_data) #assert len(dictionary)==2 app_list_loaded = Json.deserialize(json_data, GyomuAppsInfoCdtbl, gyomuapps_total_list_schema) assert len(app_list_loaded)==2 def test_gyomu_app_load(self,environment_setup): app = GyomuAppsInfoCdtbl() app.application_id = TEST_APPLICATION_ID2 app.description = "Test Application" user: User = UserFactory.get_current_user() app.mail_from_name = user.userid app.mail_from_address = "Test@test.com" json_data = gyomuapps_schema_load.dumps(app) dictionary = gyomuapps_schema.loads(json_data=json_data) with DbConnectionFactory.get_gyomu_db_session() as session: app_loaded = gyomuapps_schema_load.load(dictionary,session=session) assert app.application_id == app_loaded.application_id app2 = GyomuAppsInfoCdtbl() app2.application_id = TEST_APPLICAIONT_ID3 app2.description = "Testw Application" user: User = UserFactory.get_current_user() app2.mail_from_name = user.userid app2.mail_from_address = "Testq@test.com" app_list = [app,app2] json_data = gyomuapps_total_list_schema.dumps(app_list) dictionary = gyomuapps_total_list_schema.loads(json_data=json_data) with DbConnectionFactory.get_gyomu_db_session() as session: apps = gyomuapps_total_list_schema_load.load(dictionary,session=session) assert len(apps)==2 def test_gyomu_app_validation(self): app = GyomuAppsInfoCdtbl() app.application_id = TEST_APPLICATION_ID2 app.description = "Test Application" user: User = UserFactory.get_current_user() app.mail_from_name = user.userid app.mail_from_address = "Test@test.com" json_data = Json.to_json(app, gyomuapps_schema) json_data = '{"mail_from_name": "yoshm", "description": "Test Application", "application_id": "Test", "mail_from_address": "Test@test.com"}' with pytest.raises(ValidationError) as ve: app2 = Json.deserialize(json_data, GyomuAppsInfoCdtbl, gyomuapps_schema) assert 'application_id' in ve.value.messages json_data = '{"mail_from_name": "yoshma123456789123456789123456789123456789123456789123456789yoshma123456789123456789123456789123456789123456789123456789yoshma123456789123456789123456789123456789123456789123456789yoshma123456789123456789123456789123456789123456789123456789yoshma123456789123456789123456789123456789123456789123456789yoshma123456789123456789123456789123456789123456789123456789", ' \ '"description": "Test Application", "application_id": 32651, "mail_from_address": "Test@test.com"}' with pytest.raises(ValidationError) as ve: dictionary = gyomuapps_schema.loads(json_data=json_data) assert 'mail_from_name' in ve.value.messages json_data = '{"mail_from_name": "yoshm",' \ ' "description": "Test Application123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789Application123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789", ' \ '"application_id": 32651, "mail_from_address": "Test@test.com"}' with pytest.raises(ValidationError) as ve: dictionary = gyomuapps_schema.loads(json_data=json_data) assert 'description' in ve.value.messages json_data = '{"mail_from_name": "yoshma123456789123456789123456789123456789123456789123456789yoshma123456789123456789123456789123456789123456789123456789yoshma123456789123456789123456789123456789123456789123456789yoshma123456789123456789123456789123456789123456789123456789yoshma123456789123456789123456789123456789123456789123456789yoshma123456789123456789123456789123456789123456789123456789", ' \ ' "description": "Test Application123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789Application123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789123456789", ' \ '"application_id": 32651, "mail_from_address": "Test@test.com"}' with pytest.raises(ValidationError) as ve: dictionary = gyomuapps_schema.loads(json_data=json_data) assert 'description' in ve.value.messages assert 'mail_from_name' in ve.value.messages json_data = '{"mail_from_name": "yoshm", "description": "Test Application", "application_id": 35456, "mail_from_address": "Testt.com"}' with pytest.raises(ValidationError) as ve: dictionary = gyomuapps_schema.loads(json_data=json_data) pass assert 'mail_from_address' in ve.value.messages

62.536364

503

0.767553

630

6,879

8.066667

0.120635

0.044077

0.028335

0.042503

0.852814

0.835301

0.832743

0.803227

0.776269

0

0.271513

0.162088

6,879

110

504

62.536364

0.610167

0.021369

0

0.617021

0

0.031915

0.363893

0.243388

0

0.106383

1

0.031915

false

0.010638

0.085106

0

0.12766

0

null

0

1

0

1

0

null

0

7

10e756a46e413910826fd99df58eafc561ed3a96

24,741

py

Python

db/test/test_03_submit_driver.py

RagtagOpen/backend

b5172b61f7b189632f3fa6c47e8d63bc8148da3d

[ "MIT" ]

null

db/test/test_03_submit_driver.py

RagtagOpen/backend

b5172b61f7b189632f3fa6c47e8d63bc8148da3d

[ "MIT" ]

null

db/test/test_03_submit_driver.py

RagtagOpen/backend

b5172b61f7b189632f3fa6c47e8d63bc8148da3d

[ "MIT" ]

null

import pytest import pgdb @pytest.fixture def pgdbConn(dbhost, db, frontenduser): return pgdb.connect(dbhost + ':' + db + ':' + frontenduser) def generic_driver_insert(conn, args): cursor=conn.cursor() cursor.execute(""" SELECT * from carpoolvote.submit_new_driver ( %(IPAddress)s, %(DriverCollectionZIP)s, %(DriverCollectionRadius)s, %(AvailableDriveTimesLocal)s, %(DriverCanLoadRiderWithWheelchair)s, %(SeatCount)s, %(DriverLicenseNumber)s, %(DriverFirstName)s, %(DriverLastName)s, %(DriverEmail)s, %(DriverPhone)s, %(DrivingOnBehalfOfOrganization)s, %(DrivingOBOOrganizationName)s, %(RidersCanSeeDriverDetails)s, %(DriverWillNotTalkPolitics)s, %(PleaseStayInTouch)s, %(DriverPreferredContact)s, %(DriverWillTakeCare)s ) """, args) results=cursor.fetchone() conn.commit() return {'uuid' : results[0], 'error_code' : results[1], 'error_text' : results[2]} def test_insert_driver_000_all_valid(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)==0 assert error_code==0 assert len(uuid)>0 pgdbConn.commit() cursor = pgdbConn.cursor() cursor.execute("""SELECT status FROM carpoolvote.driver WHERE "UUID"=%(uuid)s """, {'uuid' : uuid}) results = cursor.fetchone() assert results[0] == 'Pending' def test_insert_driver_001_IPAddress_invalid(pgdbConn): args = { 'IPAddress' : 'abcd', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_002_DriverCollectionZIP_invalid_empty(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_003_DriverCollectionZIP_invalid_not_exists(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '000000', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_004_DriverCollectionZIP_invalid_not_number(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : 'abcdefgh', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_005_DriverCollectionRadius_invalid_zero(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '0', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_006_DriverCollectionRadius_invalid_negative(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '-10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_006b_DriverCollectionRadius_over_limit(pgdbConn): cursor=pgdbConn.cursor() cursor.execute(""" SELECT value::int FROM carpoolvote.params WHERE name='radius.max' """) results=cursor.fetchone() limit_radius = results[0] args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : limit_radius+10, 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_007_AvailableDriveTimesLocal_invalid_empty(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_008_AvailableDriveTimesLocal_invalid_incomplete(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_009_AvailableDriveTimesLocal_invalid_incomplete(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_010_AvailableDriveTimesLocal_invalid_incomplete(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_011_AvailableDriveTimesLocal_invalid_chronology(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T03:00/2018-10-01T02:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_012_AvailableDriveTimesLocal_invalid_past(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2000-10-01T02:00/2000-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_013_SeatCount_invalid_zero(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '0', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_014_SeatCount_invalid_zero(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '0', 'DriverLicenseNumber' : '', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==2 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_015_DriverLicenseNumber_invalid_huge(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : 'ggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggggg', 'DriverFirstName' : 'John', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)>0 assert error_code==-1 assert len(uuid)==0 pgdbConn.commit() def test_insert_driver_016_DriverPreferredContact_valid_SMS(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : '', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'SMS', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)==0 assert error_code==0 assert len(uuid)>0 pgdbConn.commit() def test_insert_driver_017_DriverPreferredContact_valid_Email(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : '', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'Email', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)==0 assert error_code==0 assert len(uuid)>0 pgdbConn.commit() def test_insert_driver_018_DriverPreferredContact_valid_Phone(pgdbConn): args = { 'IPAddress' : '127.0.0.1', 'DriverCollectionZIP' : '90210', 'DriverCollectionRadius' : '10', 'AvailableDriveTimesLocal' : '2018-10-01T02:00/2018-10-01T03:00|2019-10-01T02:00/2019-10-01T03:00', 'DriverCanLoadRiderWithWheelchair' : 'True', 'SeatCount' : '10', 'DriverLicenseNumber' : '', 'DriverFirstName' : '', 'DriverLastName' : 'Doe', 'DriverEmail' : 'john.doe@mail.com', 'DriverPhone' : '555-555-5555', 'DrivingOnBehalfOfOrganization' : 'True', 'DrivingOBOOrganizationName' : 'Good Org', 'RidersCanSeeDriverDetails' : 'False', 'DriverWillNotTalkPolitics' : 'True', 'PleaseStayInTouch' : 'True', 'DriverPreferredContact' : 'Phone', 'DriverWillTakeCare' : 'True' } results = generic_driver_insert(pgdbConn, args) uuid=results['uuid'] error_code=results['error_code'] error_text=results['error_text'] assert len(error_text)==0 assert error_code==0 assert len(uuid)>0 pgdbConn.commit()

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801a3848207716d8756c3d64117d8992d96d61b3

169

py

Python

napari_ccp4map/_tests/test_reader.py

biberger/napari-ccp4map

742ccaac3fc2edbdbe266720ea0c9865a8db46d1

[ "BSD-3-Clause" ]

null

napari_ccp4map/_tests/test_reader.py

biberger/napari-ccp4map

742ccaac3fc2edbdbe266720ea0c9865a8db46d1

[ "BSD-3-Clause" ]

null

napari_ccp4map/_tests/test_reader.py

biberger/napari-ccp4map

742ccaac3fc2edbdbe266720ea0c9865a8db46d1

[ "BSD-3-Clause" ]

null

from napari_ccp4map import napari_get_reader from pathlib import Path def test_get_reader_pass(): reader = napari_get_reader("fake.file") assert reader is None

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Python

python/testData/completion/heavyStarPropagation/lib/_pkg1/_pkg1_0/_pkg1_0_1/_pkg1_0_1_0/_pkg1_0_1_0_0/_mod1_0_1_0_0_4.py

jnthn/intellij-community

8fa7c8a3ace62400c838e0d5926a7be106aa8557

[ "Apache-2.0" ]

2

2019-04-28T07:48:50.000Z

2020-12-11T14:18:08.000Z

python/testData/completion/heavyStarPropagation/lib/_pkg1/_pkg1_0/_pkg1_0_1/_pkg1_0_1_0/_pkg1_0_1_0_0/_mod1_0_1_0_0_4.py

Cyril-lamirand/intellij-community

60ab6c61b82fc761dd68363eca7d9d69663cfa39

[ "Apache-2.0" ]

173

2018-07-05T13:59:39.000Z

2018-08-09T01:12:03.000Z

python/testData/completion/heavyStarPropagation/lib/_pkg1/_pkg1_0/_pkg1_0_1/_pkg1_0_1_0/_pkg1_0_1_0_0/_mod1_0_1_0_0_4.py

Cyril-lamirand/intellij-community

60ab6c61b82fc761dd68363eca7d9d69663cfa39

[ "Apache-2.0" ]

2

2020-03-15T08:57:37.000Z

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name1_0_1_0_0_4_0 = None name1_0_1_0_0_4_1 = None name1_0_1_0_0_4_2 = None name1_0_1_0_0_4_3 = None name1_0_1_0_0_4_4 = None

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33bb99ee89eeffb859bd70340fa23bab08747042

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Python

Flo et toto/exercise dominik/house.py

geverartsdev/TechnofuturTIC

389b3646d7a70ef91e7f51cbd258ed23ce6943dd

[ "MIT" ]

null

Flo et toto/exercise dominik/house.py

geverartsdev/TechnofuturTIC

389b3646d7a70ef91e7f51cbd258ed23ce6943dd

[ "MIT" ]

null

Flo et toto/exercise dominik/house.py

geverartsdev/TechnofuturTIC

389b3646d7a70ef91e7f51cbd258ed23ce6943dd

[ "MIT" ]

null

from turtle import * x=100#x=longueur du carre de la maison# y=20#x=longueur du carre de la fenetre# L=20 l=10 maison=Turtle()#maison# maison.forward(x) maison.right(90) maison.forward(x) maison.right(90) maison.forward(x) maison.right(90) maison.forward(x) maison.right(45)#toit# maison.forward(70) maison.right(90) maison.forward(70) maison.right(45) maison.up() maison.forward(x) maison.right(90) maison.forward(60) maison.down()#porte# maison.right(90) maison.forward(50) maison.right(90) maison.forward(30) maison.right(90) maison.forward(50) maison.left(180) maison.up() maison.forward(60) maison.down()#fenetre1# maison.forward(y) maison.right(90) maison.forward(y) maison.right(90) maison.forward(y) maison.right(90) maison.forward(y) maison.up() maison.forward(30) maison.down()#fenetre2# maison.forward(y) maison.right(90) maison.forward(y) maison.right(90) maison.forward(y) maison.right(90) maison.forward(y) maison.up() maison.left(90) maison.forward(60) maison.left(90) maison.forward(40) maison.down() maison.forward(30) maison.right(90) maison.fillcolor("black") maison.begin_fill() maison.forward(l) maison.right(90) maison.forward(L) maison.right(90) maison.forward(l) maison.right(90) maison.forward(L) maison.end_fill() maison.right(90) maison.forward(l) maison.fillcolor("yellow") maison.begin_fill() maison.forward(l) maison.right(90) maison.forward(L) maison.right(90) maison.forward(l) maison.right(90) maison.forward(L) maison.end_fill() maison.right(90) maison.forward(l) maison.fillcolor("red") maison.begin_fill() maison.forward(l) maison.right(90) maison.forward(L) maison.right(90) maison.forward(l) maison.right(90) maison.forward(L) maison.end_fill()

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null

1

0

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0

1

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null

0

8

33d60169179c35dc8cca5ac26b3aea8c5a1c0fa7

133

py

Python

src/commands/check.py

globau/timetracker

c06b0563c6fdde0abe9e34b1efe0d15cc1d0843d

[ "BSD-3-Clause" ]

2

2019-05-18T12:59:12.000Z

2019-05-31T20:41:07.000Z

src/commands/check.py

globau/timetracker

c06b0563c6fdde0abe9e34b1efe0d15cc1d0843d

[ "BSD-3-Clause" ]

1

2019-05-19T12:03:17.000Z

2019-05-27T13:23:16.000Z

src/commands/check.py

globau/timetracker

c06b0563c6fdde0abe9e34b1efe0d15cc1d0843d

[ "BSD-3-Clause" ]

null

import database from main import cli @cli.command(help="check database consistency") def check(): database.consistency_check()

16.625

47

0.766917

17

133

5.941176

0.588235

0.257426

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0

0.135338

133

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null

0

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1

0

1

0

7

33fb40357595fea27e14e6d6d83e0c7172f02126

12,202

py

Python

tests/test_lists.py

andrewmilas10/courier-python

d0935bcef2dfc67324794b2ba320a69256131422

[ "MIT" ]

13

2020-07-29T22:05:36.000Z

2021-08-10T14:32:50.000Z

tests/test_lists.py

andrewmilas10/courier-python

d0935bcef2dfc67324794b2ba320a69256131422

[ "MIT" ]

18

2020-03-19T20:04:45.000Z

2022-03-31T23:32:11.000Z

tests/test_lists.py

andrewmilas10/courier-python

d0935bcef2dfc67324794b2ba320a69256131422

[ "MIT" ]

8

2020-05-15T15:30:29.000Z

2022-02-08T14:10:48.000Z

import json import responses import pytest from trycourier.client import Courier from trycourier.exceptions import CourierAPIException @responses.activate def test_success_lists_send_with_list(): responses.add( responses.POST, 'https://api.courier.com/send/list', status=200, content_type='application/json', body='{"status": "ok"}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.send( event='1234', list='my.list.id' ) assert r == {"status": "ok"} @responses.activate def test_success_lists_send_with_pattern(): responses.add( responses.POST, 'https://api.courier.com/send/list', status=200, content_type='application/json', body='{"status": "ok"}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.send( event='1234', pattern='my.list.*' ) assert r == {"status": "ok"} @responses.activate def test_success_lists_send_with_options(): responses.add( responses.POST, 'https://api.courier.com/send/list', status=200, content_type='application/json', body='{"status": "ok"}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.send( event='1234', list='my.list.id', brand='W50NC77P524K14M5300PGPEK4JMJ', override={'provider': {}} ) request_params = json.loads( responses.calls[0].request.body.decode('utf-8')) assert r == {"status": "ok"} assert request_params["brand"] == 'W50NC77P524K14M5300PGPEK4JMJ' assert request_params["override"] == {'provider': {}} @responses.activate def test_success_lists_send_idempotent(): responses.add( responses.POST, 'https://api.courier.com/send/list', status=200, content_type='application/json', body='{"status": "ok"}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.send( event='1234', list='my.list.id', idempotency_key='1234ABCD' ) assert responses.calls[0].request.headers.get( 'Idempotency-Key') == '1234ABCD' assert r == {"status": "ok"} @responses.activate def test_fail_lists_send(): responses.add( responses.POST, 'https://api.courier.com/send/list', status=400, content_type='application/json', body='{"message": "An error occurred"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.send( event='1234', list='my.list.id' ) @responses.activate def test_fail_lists_send_with_list_and_pattern(): responses.add( responses.POST, 'https://api.courier.com/send/list', status=200, content_type='application/json', body='{"status": "ok"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(Exception): c.lists.send( event='1234', list='my.list.id', pattern='my.list.*' ) @responses.activate def test_success_lists_list(): responses.add( responses.GET, 'https://api.courier.com/lists', status=200, content_type='application/json', body='{"paging": {}, "items": []}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.list() assert r == {'paging': {}, 'items': []} @responses.activate def test_success_lists_list_with_params(): responses.add( responses.GET, 'https://api.courier.com/lists?cursor=1234&pattern=my.list.*', status=200, content_type='application/json', body='{"paging": {}, "items": []}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.list(cursor='1234', pattern='my.list.*') assert r == {'paging': {}, 'items': []} @responses.activate def test_fail_lists_list(): responses.add( responses.GET, 'https://api.courier.com/lists', status=400, content_type='application/json', body='{"message": "An error occurred"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.list() @responses.activate def test_success_lists_get(): responses.add( responses.GET, 'https://api.courier.com/lists/my.list.id', status=200, content_type='application/json', body='{"id": "my.list.id", "name": "My List"}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.get("my.list.id") assert r == {"id": "my.list.id", "name": "My List"} @responses.activate def test_fail_lists_get(): responses.add( responses.GET, 'https://api.courier.com/lists/my.list.id', status=400, content_type='application/json', body='{"message": "Not Found"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.get("my.list.id") @responses.activate def test_success_lists_put(): responses.add( responses.PUT, 'https://api.courier.com/lists/my.list.id', status=204, content_type='application/json' ) c = Courier(auth_token='123456789ABCDF') c.lists.put("my.list.id", "My List") assert len(responses.calls) == 1 @responses.activate def test_fail_lists_put(): responses.add( responses.PUT, 'https://api.courier.com/lists/my.list.id', status=400, content_type='application/json', body='{"message": "Error Message"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.put("my.list.id", "My List") @responses.activate def test_success_lists_delete(): responses.add( responses.DELETE, 'https://api.courier.com/lists/my.list.id', status=204, content_type='application/json' ) c = Courier(auth_token='123456789ABCDF') c.lists.delete("my.list.id") assert len(responses.calls) == 1 @responses.activate def test_fail_lists_delete(): responses.add( responses.DELETE, 'https://api.courier.com/lists/my.list.id', status=400, content_type='application/json', body='{"message": "Not Found"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.delete("my.list.id") @responses.activate def test_success_lists_restore(): responses.add( responses.PUT, 'https://api.courier.com/lists/my.list.id/restore', status=204, content_type='application/json' ) c = Courier(auth_token='123456789ABCDF') c.lists.restore("my.list.id") assert len(responses.calls) == 1 @responses.activate def test_fail_lists_restore(): responses.add( responses.PUT, 'https://api.courier.com/lists/my.list.id/restore', status=400, content_type='application/json', body='{"message": "Not Found"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.restore("my.list.id") @responses.activate def test_success_lists_get_subscriptions(): responses.add( responses.GET, 'https://api.courier.com/lists/my.list.id/subscriptions', status=200, content_type='application/json', body='{"paging": {}, "items": []}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.get_subscriptions("my.list.id") assert r == {"paging": {}, "items": []} @responses.activate def test_success_lists_get_subscriptions_with_params(): responses.add( responses.GET, 'https://api.courier.com/lists/my.list.id/subscriptions?cursor=1234', status=200, content_type='application/json', body='{"paging": {}, "items": []}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.get_subscriptions("my.list.id", cursor="1234") assert r == {"paging": {}, "items": []} @responses.activate def test_fail_lists_get_subscriptions(): responses.add( responses.GET, 'https://api.courier.com/lists/my.list.id/subscriptions', status=404, content_type='application/json', body='{"message": "Not Found"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.get_subscriptions("my.list.id") @responses.activate def test_success_lists_put_subscriptions(): responses.add( responses.PUT, 'https://api.courier.com/lists/my.list.id/subscriptions', status=204, content_type='application/json' ) c = Courier(auth_token='123456789ABCDF') c.lists.put_subscriptions("my.list.id", ["1234", "4321"]) assert len(responses.calls) == 1 @responses.activate def test_fail_lists_put_subscriptions(): responses.add( responses.PUT, 'https://api.courier.com/lists/my.list.id/subscriptions', status=400, content_type='application/json', body='{"message": "Error Message"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.put_subscriptions("my.list.id", ["1234", "4321"]) @responses.activate def test_success_lists_subscribe(): responses.add( responses.PUT, 'https://api.courier.com/lists/my.list.id/subscriptions/1234', status=204, content_type='application/json' ) c = Courier(auth_token='123456789ABCDF') c.lists.subscribe("my.list.id", "1234") assert len(responses.calls) == 1 @responses.activate def test_fail_lists_subscribe(): responses.add( responses.PUT, 'https://api.courier.com/lists/my.list.id/subscriptions/1234', status=400, content_type='application/json', body='{"message": "Error Message"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.subscribe("my.list.id", "1234") @responses.activate def test_success_lists_unsubscribe(): responses.add( responses.DELETE, 'https://api.courier.com/lists/my.list.id/subscriptions/1234', status=204, content_type='application/json' ) c = Courier(auth_token='123456789ABCDF') c.lists.unsubscribe("my.list.id", "1234") assert len(responses.calls) == 1 @responses.activate def test_fail_lists_unsubscribe(): responses.add( responses.DELETE, 'https://api.courier.com/lists/my.list.id/subscriptions/1234', status=404, content_type='application/json', body='{"message": "Not Found"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.unsubscribe("my.list.id", "1234") @responses.activate def test_success_lists_find_by_recipient_id(): responses.add( responses.GET, 'https://api.courier.com/profiles/1234/lists', status=200, content_type='application.json', body='{"paging": {}, "results": []}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.find_by_recipient_id("1234") assert r == {'paging': {}, 'results': []} @responses.activate def test_success_lists_find_by_recipient_id_with_params(): responses.add( responses.GET, 'https://api.courier.com/profiles/1234/lists?cursor=1234', status=200, content_type='application.json', body='{"paging": {}, "results": []}' ) c = Courier(auth_token='123456789ABCDF') r = c.lists.find_by_recipient_id("1234", cursor="1234") assert r == {'paging': {}, 'results': []} @responses.activate def test_fail_lists_find_by_recipient_id(): responses.add( responses.GET, 'https://api.courier.com/profiles/1234/lists', status=400, content_type='application.json', body='{"message": "Error Message"}' ) c = Courier(auth_token='123456789ABCDF') with pytest.raises(CourierAPIException): c.lists.find_by_recipient_id("1234")

24.700405

77

0.62121

1,395

12,202

5.294624

0.065233

0.039805

0.044408

0.094232

0.937991

0.931492

0.91863

0.877471

0.848362

0.807067

0

0.054165

0.223816

12,202

493

78

24.750507

0.725689

0

0.746667

0

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0.274381

0.004589

0

0.053333

1

0.077333

false

0

0.013333

0

0.090667

0

null

0

1

0

1

0

null

0

7

d502d6bd7429985499035aa8a413d206a517ed7f

2,113

py

Python

clickhouse_sqlalchemy/alembic/toimpl.py

Fozar/clickhouse-sqlalchemy

88fd630856655cc470430b365dce7e85516abf62

[ "MIT" ]

null

clickhouse_sqlalchemy/alembic/toimpl.py

Fozar/clickhouse-sqlalchemy

88fd630856655cc470430b365dce7e85516abf62

[ "MIT" ]

null

clickhouse_sqlalchemy/alembic/toimpl.py

Fozar/clickhouse-sqlalchemy

88fd630856655cc470430b365dce7e85516abf62

[ "MIT" ]

null

from alembic.operations import Operations from sqlalchemy.sql.ddl import CreateColumn from . import operations @Operations.implementation_for(operations.CreateMatViewOp) def create_mat_view(operations, operation): impl = operations.impl ddl_compiler = impl.dialect.ddl_compiler(impl.dialect, None) text = 'CREATE MATERIALIZED VIEW ' if operation.kwargs.get('if_not_exists'): text += 'IF NOT EXISTS ' text += operation.name if operation.kwargs.get('on_cluster'): text += ' ON CLUSTER ' + operation.kwargs['on_cluster'] text += ' (' + ', '.join( ddl_compiler.process(CreateColumn(c)) for c in operation.columns ) + ') ' text += 'ENGINE = ' + operation.engine if operation.kwargs.get('populate'): text += ' POPULATE' text += ' AS ' + operation.selectable operations.execute(text) @Operations.implementation_for(operations.CreateMatViewToTableOp) def create_mat_view_to_table(operations, operation): text = 'CREATE MATERIALIZED VIEW ' if operation.kwargs.get('if_not_exists'): text += 'IF NOT EXISTS ' text += operation.name if operation.kwargs.get('on_cluster'): text += ' ON CLUSTER ' + operation.kwargs['on_cluster'] text += ' TO ' + operation.inner_name if operation.kwargs.get('populate'): text += ' POPULATE' text += ' AS ' + operation.selectable operations.execute(text) @Operations.implementation_for(operations.AttachMatViewOp) def attach_mat_view(operations, operation): impl = operations.impl ddl_compiler = impl.dialect.ddl_compiler(impl.dialect, None) text = 'ATTACH MATERIALIZED VIEW ' if operation.kwargs.get('if_not_exists'): text += 'IF NOT EXISTS ' text += operation.name + ' ' if operation.kwargs.get('on_cluster'): text += ' ON CLUSTER ' + operation.kwargs['on_cluster'] text += ' (' + ', '.join( ddl_compiler.process(CreateColumn(c)) for c in operation.columns ) + ') ' text += 'ENGINE = ' + operation.engine + ' AS ' + operation.selectable operations.execute(text)

26.4125

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2,113

5.810127

0.194093

0.119826

0.098765

0.116195

0.806826

0.803922

0.77342

0

0.208235

2,113

79

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26.746835

0.823072

0

0.714286

0

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0

0.040816

0

1

0.061224

false

0

0.061224

0

0.122449

0

null

0

1

0

1

0

null

0

7

1d1cf28f9a480197bd37ce0c43f7a7abc65c8070

815,413

py

Python

pfxbrick/pfxtestdata.py

fx-bricks/pfx-brick-py

dacd3c04fcbbecef7a6a5d9603ed8cf9a2eb3469

[ "MIT" ]

11

2018-04-26T22:53:44.000Z

2022-02-14T13:44:27.000Z

pfxbrick/pfxtestdata.py

fx-bricks/pfx-brick-py

dacd3c04fcbbecef7a6a5d9603ed8cf9a2eb3469

[ "MIT" ]

3

2021-01-14T18:48:48.000Z

2022-02-16T04:06:06.000Z

pfxbrick/pfxtestdata.py

fx-bricks/pfx-brick-py

dacd3c04fcbbecef7a6a5d9603ed8cf9a2eb3469

[ "MIT" ]

2

2018-05-20T11:30:53.000Z

2022-02-15T06:42:37.000Z

# fmt: off PINKFILE = """ 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 """ SINFILE = """ 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""" # fmt: on

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7

1d4d96fb9aeeb1d17cd637d42ae4b54afb897d5f

837

py

Python

train/cluster/jets/models/cluster_jet/v0/setup.py

sammysiegel/SubtLeNet

94d1507a8a7c60548b59400109b6c4086ad83141

[ "MIT" ]

null

train/cluster/jets/models/cluster_jet/v0/setup.py

sammysiegel/SubtLeNet

94d1507a8a7c60548b59400109b6c4086ad83141

[ "MIT" ]

null

train/cluster/jets/models/cluster_jet/v0/setup.py

sammysiegel/SubtLeNet

94d1507a8a7c60548b59400109b6c4086ad83141

[ "MIT" ]

2

2019-07-08T20:18:22.000Z

2020-06-01T20:04:08.000Z

# auto-generated. do not edit! from subtlenet import config from subtlenet.generators import gen_auto as generator config.gen_singletons = {'2_3_1': 12, '2_3_2': 13, '2_4_2': 15, 'tau1': 33, '2_4_1': 14, '2_1_2': 9, '2_1_1': 8, '2_2_1': 10, '2_2_2': 11, 'partonm': 29, '1_2_2': 3, '1_2_1': 2, 'pt': 32, 'tau2': 35, 'tau3': 37, 'eta': 24, '1_4_1': 6, '1_3_1': 4, 'msd': 27, 'partonpt': 30, '3_3_1': 20, 'tau1sd': 34, 'phi': 31, '3_3_2': 21, '3_2_1': 18, '3_2_2': 19, '1_3_2': 5, '1_1_1': 0, '3_1_2': 17, '3_1_1': 16, '1_1_2': 1, 'nprongs': 28, '1_4_2': 7, 'tau3sd': 38, 'eventNumber': 25, 'm': 26, 'tau2sd': 36, '3_4_2': 23, '3_4_1': 22} config.gen_default_variables = ['msd', 'tau3', 'tau2', 'tau1'] config.gen_default_mus = [149.535583, 0.060297, 0.112757, 0.265966] config.gen_default_sigmas = [54.38921, 0.02873, 0.057523, 0.096302]

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7

d519a4d94ad8b0d214d84f504e09ca5ad5c74f8c

115

py

Python

stylegan2/__init__.py

streamlit-badge-bot/jamm-bandit

df7bf1a4109dc372c20fded27cf0af26bc61b022

[ "Apache-2.0" ]

121

2020-01-08T08:16:53.000Z

2021-04-30T08:06:47.000Z

stylegan2/__init__.py

streamlit-badge-bot/jamm-bandit

df7bf1a4109dc372c20fded27cf0af26bc61b022

[ "Apache-2.0" ]

21

2020-01-08T12:55:26.000Z

2021-01-29T04:00:58.000Z

stylegan2/__init__.py

streamlit-badge-bot/jamm-bandit

df7bf1a4109dc372c20fded27cf0af26bc61b022

[ "Apache-2.0" ]

27

2020-01-08T18:11:05.000Z

2021-04-12T06:28:38.000Z

from . import external_models from . import metrics from . import models from . import project from . import train

19.166667

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7

d519f39ff896c92e5c0adc6a37bff2a55189cbb5

3,524

py

Python

models/UNet_PD.py

cviaai/LORCK

41a62c74b400d9e2cfbd088f25e76d00902c9160

[ "Apache-2.0" ]

2

2021-03-16T03:18:54.000Z

2022-02-21T14:54:36.000Z

models/UNet_PD.py

cviaai/LEARNABLE-HOLLOW-KERNELS

41a62c74b400d9e2cfbd088f25e76d00902c9160

[ "Apache-2.0" ]

null

models/UNet_PD.py

cviaai/LEARNABLE-HOLLOW-KERNELS

41a62c74b400d9e2cfbd088f25e76d00902c9160

[ "Apache-2.0" ]

null

import torch import torch.nn as nn import sys from UNet import UNet class UNet_Original(nn.Module): def __init__(self, in_channels, out_channels): super().__init__() self.model = UNet(in_channels=in_channels, out_channels=out_channels, depth=4, activation="relu", channels_sequence=[32, 128, 256, 512], conv_type="double", dilation=1) def forward(self, x): return self.model(x) class UNet_Original_with_BatchNorm(nn.Module): def __init__(self, in_channels, out_channels): super().__init__() self.model = UNet(in_channels=in_channels, out_channels=out_channels, depth=4, activation="prelu", channels_sequence=[32, 128, 256, 512], conv_type="double", dilation=1, batchnorm=True) def forward(self, x): return self.model(x) class UNet_Baseline(nn.Module): def __init__(self, in_channels, out_channels): super().__init__() self.model = UNet(in_channels=in_channels, out_channels=out_channels, depth=4, channels_sequence=[32, 128, 256, 512], conv_type="triple", dilation=1, batchnorm=True, residual_bottleneck=True, downsample_type='conv_stride', activation="prelu", big_upsample=True, advanced_bottleneck=True) def forward(self, x): return self.model(x) class UNet_Dilated(nn.Module): def __init__(self, in_channels, out_channels): super().__init__() self.model = UNet(in_channels=in_channels, out_channels=out_channels, depth=4, channels_sequence=[32, 128, 256, 512], conv_type="double", dilation=[[1, 1], [2, 2], [4, 4], [8, 8], [1, 1]], batchnorm=True, residual_bottleneck=True, downsample_type='conv_stride', activation="prelu", big_upsample=True, advanced_bottleneck=True ) def forward(self, x): return self.model(x) class UNet_ProgressiveDilated(nn.Module): def __init__(self, in_channels, out_channels): super().__init__() self.model = UNet(in_channels=in_channels, out_channels=out_channels, depth=4, channels_sequence=[32, 128, 256, 512], conv_type="triple", dilation=[[1, 2, 4], [1, 2, 4], [1, 2, 4], [1, 2, 4], [1, 1, 1]], batchnorm=True, residual_bottleneck=True, downsample_type='conv_stride', activation="prelu", big_upsample=True, advanced_bottleneck=True) def forward(self, x): return self.model(x)

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8

d51fe62f4de217edace9a942aca49ebeb239cf5c

3,934

py

Python

a10sdk/core/aam/aam_authentication_global.py

deepfield/a10sdk-python

bfaa58099f51f085d5e91652d1d1a3fd5c529d5d

[ "Apache-2.0" ]

16

2015-05-20T07:26:30.000Z

2021-01-23T11:56:57.000Z

a10sdk/core/aam/aam_authentication_global.py

deepfield/a10sdk-python

bfaa58099f51f085d5e91652d1d1a3fd5c529d5d

[ "Apache-2.0" ]

6

2015-03-24T22:07:11.000Z

2017-03-28T21:31:18.000Z

a10sdk/core/aam/aam_authentication_global.py

deepfield/a10sdk-python

bfaa58099f51f085d5e91652d1d1a3fd5c529d5d

[ "Apache-2.0" ]

23

2015-03-29T15:43:01.000Z

2021-06-02T17:12:01.000Z

from a10sdk.common.A10BaseClass import A10BaseClass class SamplingEnable(A10BaseClass): """This class does not support CRUD Operations please use parent. :param counters1: {"enum": ["all", "Requests", "Responses", "Misses", "Ocsp-Stapling-Requests-to-a10authd", "Ocsp-Stapling-Responses-from-a10authd", "Opened-socket", "Open-socket-failed", "Connect", "Connect-failed", "Created-timer", "Create-timer-failed", "Total-request", "Get-socket-option-failed", "Aflex-authz-succ", "Aflex-authz-fail"], "type": "string", "description": "'all': all; 'Requests': Total Authentication Request; 'Responses': Total Authentication Response; 'Misses': Total Authentication Request Missed; 'Ocsp-Stapling-Requests-to-a10authd': Total OCSP Stapling Request; 'Ocsp-Stapling-Responses-from-a10authd': Total OCSP Stapling Response; 'Opened-socket': Total AAM Socket Opened; 'Open-socket-failed': Total AAM Open Socket Failed; 'Connect': Total AAM Connection; 'Connect-failed': Total AAM Connect Failed; 'Created-timer': Total AAM Timer Created; 'Create-timer-failed': Total AAM Timer Creation Failed; 'Total-request': Total Request Received by A10 Auth Service; 'Get-socket-option-failed': Total AAM Get Socket Option Failed; 'Aflex-authz-succ': Total Authorization success number in aFleX; 'Aflex-authz-fail': Total Authorization failure number in aFleX; ", "format": "enum"} :param DeviceProxy: The device proxy for REST operations and session handling. Refer to `common/device_proxy.py` """ def __init__(self, **kwargs): self.ERROR_MSG = "" self.b_key = "sampling-enable" self.DeviceProxy = "" self.counters1 = "" for keys, value in kwargs.items(): setattr(self,keys, value) class Global(A10BaseClass): """ :param sampling_enable: {"minItems": 1, "items": {"type": "object"}, "uniqueItems": true, "type": "array", "array": [{"properties": {"optional": true, "counters1": {"enum": ["all", "Requests", "Responses", "Misses", "Ocsp-Stapling-Requests-to-a10authd", "Ocsp-Stapling-Responses-from-a10authd", "Opened-socket", "Open-socket-failed", "Connect", "Connect-failed", "Created-timer", "Create-timer-failed", "Total-request", "Get-socket-option-failed", "Aflex-authz-succ", "Aflex-authz-fail"], "type": "string", "description": "'all': all; 'Requests': Total Authentication Request; 'Responses': Total Authentication Response; 'Misses': Total Authentication Request Missed; 'Ocsp-Stapling-Requests-to-a10authd': Total OCSP Stapling Request; 'Ocsp-Stapling-Responses-from-a10authd': Total OCSP Stapling Response; 'Opened-socket': Total AAM Socket Opened; 'Open-socket-failed': Total AAM Open Socket Failed; 'Connect': Total AAM Connection; 'Connect-failed': Total AAM Connect Failed; 'Created-timer': Total AAM Timer Created; 'Create-timer-failed': Total AAM Timer Creation Failed; 'Total-request': Total Request Received by A10 Auth Service; 'Get-socket-option-failed': Total AAM Get Socket Option Failed; 'Aflex-authz-succ': Total Authorization success number in aFleX; 'Aflex-authz-fail': Total Authorization failure number in aFleX; ", "format": "enum"}}}]} :param DeviceProxy: The device proxy for REST operations and session handling. Refer to `common/device_proxy.py` Class Description:: Global AAM authentication statistics. Class global supports CRUD Operations and inherits from `common/A10BaseClass`. This class is the `"PARENT"` class for this module.` URL for this object:: `https://<Hostname|Ip address>//axapi/v3/aam/authentication/global`. """ def __init__(self, **kwargs): self.ERROR_MSG = "" self.required=[] self.b_key = "global" self.a10_url="/axapi/v3/aam/authentication/global" self.DeviceProxy = "" self.sampling_enable = [] for keys, value in kwargs.items(): setattr(self,keys, value)

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null

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d592e382168bf32c1a07b1e6493c259f4077ebf7

106

py

Python

wavespectra/construct/__init__.py

jorgeperezg/wavespectra

38f35e5dd2955d8b9565d5b8304822ae72890a7b

[ "MIT" ]

57

2018-04-03T20:01:08.000Z

2022-03-02T01:34:44.000Z

wavespectra/construct/__init__.py

jorgeperezg/wavespectra

38f35e5dd2955d8b9565d5b8304822ae72890a7b

[ "MIT" ]

20

2018-05-08T21:53:35.000Z

2022-03-31T19:02:53.000Z

wavespectra/construct/__init__.py

jorgeperezg/wavespectra

38f35e5dd2955d8b9565d5b8304822ae72890a7b

[ "MIT" ]

23

2018-04-03T02:00:36.000Z

2021-08-18T13:07:48.000Z

from wavespectra.construct.jonswap import jonswap from wavespectra.construct.ochihubble import ochihubble

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7

d5ab4aebe937b263428d1f9417864a690cf18ec4

25,996

py

Python

test/test_md024.py

scop/pymarkdown

562ba8f7857d99ba09e86e42de5a37ec6d9b2c30

[ "MIT" ]

null

test/test_md024.py

scop/pymarkdown

562ba8f7857d99ba09e86e42de5a37ec6d9b2c30

[ "MIT" ]

null

test/test_md024.py

scop/pymarkdown

562ba8f7857d99ba09e86e42de5a37ec6d9b2c30

[ "MIT" ]

null

""" Module to provide tests related to the MD024 rule. """ import os from test.markdown_scanner import MarkdownScanner import pytest from .utils import write_temporary_configuration @pytest.mark.rules def test_md024_good_different_heading_content_atx(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that all have different text in them. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/different_heading_content_atx.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_content_atx(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text in them. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/same_heading_content_atx.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_content_atx.md:3:1: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_content_atx_with_extra_whitespace(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text in them. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/same_heading_content_atx_with_extra_whitespace.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_content_atx_with_extra_emphasis(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text in them. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/same_heading_content_atx_with_extra_emphasis.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_content_atx_in_same_list_item(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text in them. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/same_heading_content_atx_in_same_list_item.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_content_atx_in_same_list_item.md:3:3: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_content_atx_in_different_list_items(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text in them. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/same_heading_content_atx_in_different_list_items.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_content_atx_in_different_list_items.md:3:3: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_content_atx_in_same_block_quote(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text in them. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "--disable-rules", "md022", "scan", "test/resources/rules/md024/same_heading_content_atx_in_same_block_quote.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_content_atx_in_same_block_quote.md:3:3: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_content_atx_in_different_block_quotes(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text in them. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "--disable-rules", "md022,md028", "scan", "test/resources/rules/md024/same_heading_content_atx_in_different_block_quotes.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_content_atx_in_different_block_quotes.md:3:3: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_in_siblings_atx(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text in siblings. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/same_heading_in_siblings_atx.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_in_siblings_atx.md:7:1: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" + "test/resources/rules/md024/same_heading_in_siblings_atx.md:11:1: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_but_not_in_siblings_atx(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text but not in siblings. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/same_heading_but_not_in_siblings_atx.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_but_not_in_siblings_atx.md:9:1: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_good_different_heading_content_atx_with_configuration(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that all have different text in them, with configuration allowing for duplicated text except for in sibling headings. """ # Arrange scanner = MarkdownScanner() supplied_configuration = {"plugins": {"md024": {"siblings_only": True}}} configuration_file = None try: configuration_file = write_temporary_configuration(supplied_configuration) supplied_arguments = [ "-c", configuration_file, "scan", "test/resources/rules/md024/different_heading_content_atx.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) finally: if configuration_file and os.path.exists(configuration_file): os.remove(configuration_file) @pytest.mark.rules def test_md024_good_same_heading_content_atx_with_configuration(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text in them, with configuration allowing for duplicated text except for in sibling headings. """ # Arrange scanner = MarkdownScanner() supplied_configuration = {"plugins": {"md024": {"siblings_only": True}}} configuration_file = None try: configuration_file = write_temporary_configuration(supplied_configuration) supplied_arguments = [ "-c", configuration_file, "scan", "test/resources/rules/md024/same_heading_content_atx.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) finally: if configuration_file and os.path.exists(configuration_file): os.remove(configuration_file) @pytest.mark.rules def test_md024_bad_same_heading_in_siblings_atx_with_configuration(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text in siblings, with configuration allowing for duplicated text except for in sibling headings. """ # Arrange scanner = MarkdownScanner() supplied_configuration = {"plugins": {"md024": {"siblings_only": True}}} configuration_file = None try: configuration_file = write_temporary_configuration(supplied_configuration) supplied_arguments = [ "-c", configuration_file, "scan", "test/resources/rules/md024/same_heading_in_siblings_atx.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_in_siblings_atx.md:7:1: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) finally: if configuration_file and os.path.exists(configuration_file): os.remove(configuration_file) @pytest.mark.rules def test_md024_good_same_heading_but_not_in_siblings_atx_with_configuration(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text but not in siblings, with configuration allowing for duplicated text except for in sibling headings. """ # Arrange scanner = MarkdownScanner() supplied_configuration = {"plugins": {"md024": {"siblings_only": True}}} configuration_file = None try: configuration_file = write_temporary_configuration(supplied_configuration) supplied_arguments = [ "-c", configuration_file, "scan", "test/resources/rules/md024/same_heading_but_not_in_siblings_atx.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) finally: if configuration_file and os.path.exists(configuration_file): os.remove(configuration_file) @pytest.mark.rules def test_md024_good_same_heading_but_not_in_siblings_atx_with_alternate_configuration(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has atx headings that have some duplicated text but not in siblings, with the alternate configuration name allowing for duplicated text except for in sibling headings. """ # Arrange scanner = MarkdownScanner() supplied_configuration = {"plugins": {"md024": {"allow_different_nesting": True}}} configuration_file = None try: configuration_file = write_temporary_configuration(supplied_configuration) supplied_arguments = [ "-c", configuration_file, "scan", "test/resources/rules/md024/same_heading_but_not_in_siblings_atx.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) finally: if configuration_file and os.path.exists(configuration_file): os.remove(configuration_file) @pytest.mark.rules def test_md024_good_different_inline_heading_content_atx(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/md021 directory that has good atx heading start spacing """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/different_inline_heading_content_atx.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_good_different_heading_content_setext(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has setext headings that all have different text in them. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/different_heading_content_setext.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_content_setext(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has setext headings that have some duplicated text in them. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "scan", "test/resources/rules/md024/same_heading_content_setext.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_content_setext.md:4:1: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_in_siblings_setext(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has setext headings that have some duplicated text in siblings. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "--disable-rules", "md025", "scan", "test/resources/rules/md024/same_heading_in_siblings_setext.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_in_siblings_setext.md:7:1: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" + "test/resources/rules/md024/same_heading_in_siblings_setext.md:13:1: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_bad_same_heading_but_not_in_siblings_setext(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has setext headings that have some duplicated text but not in siblings. """ # Arrange scanner = MarkdownScanner() supplied_arguments = [ "--disable-rules", "md025", "scan", "test/resources/rules/md024/same_heading_but_not_in_siblings_setext.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_but_not_in_siblings_setext.md:10:1: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) @pytest.mark.rules def test_md024_good_different_heading_content_setext_with_configuration(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has setext headings that all have different text in them, with configuration allowing for duplicated text except for in sibling headings. """ # Arrange scanner = MarkdownScanner() supplied_configuration = {"plugins": {"md024": {"siblings_only": True}}} configuration_file = None try: configuration_file = write_temporary_configuration(supplied_configuration) supplied_arguments = [ "-c", configuration_file, "scan", "test/resources/rules/md024/different_heading_content_setext.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) finally: if configuration_file and os.path.exists(configuration_file): os.remove(configuration_file) @pytest.mark.rules def test_md024_good_same_heading_content_setext_with_configuration(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has setext headings that have some duplicated text in them, with configuration allowing for duplicated text except for in sibling headings. """ # Arrange scanner = MarkdownScanner() supplied_configuration = {"plugins": {"md024": {"siblings_only": True}}} configuration_file = None try: configuration_file = write_temporary_configuration(supplied_configuration) supplied_arguments = [ "-c", configuration_file, "scan", "test/resources/rules/md024/same_heading_content_setext.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) finally: if configuration_file and os.path.exists(configuration_file): os.remove(configuration_file) @pytest.mark.rules def test_md024_bad_same_heading_in_siblings_setext_with_configuration(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has setext headings that have some duplicated text in siblings, with configuration allowing for duplicated text except for in sibling headings. """ # Arrange scanner = MarkdownScanner() supplied_configuration = {"plugins": {"md024": {"siblings_only": True}}} configuration_file = None try: configuration_file = write_temporary_configuration(supplied_configuration) supplied_arguments = [ "--disable-rules", "md025", "-c", configuration_file, "scan", "test/resources/rules/md024/same_heading_in_siblings_setext.md", ] expected_return_code = 1 expected_output = ( "test/resources/rules/md024/same_heading_in_siblings_setext.md:7:1: " + "MD024: Multiple headings cannot contain the same content. (no-duplicate-heading,no-duplicate-header)\n" ) expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) finally: if configuration_file and os.path.exists(configuration_file): os.remove(configuration_file) @pytest.mark.rules def test_md024_good_same_heading_but_not_in_siblings_setext_with_configuration(): """ Test to make sure we get the expected behavior after scanning a good file from the test/resources/rules/MD024 directory that has setext headings that have some duplicated text but not in siblings, with configuration allowing for duplicated text except for in sibling headings. """ # Arrange scanner = MarkdownScanner() supplied_configuration = {"plugins": {"md024": {"siblings_only": True}}} configuration_file = None try: configuration_file = write_temporary_configuration(supplied_configuration) supplied_arguments = [ "--disable-rules", "md025", "-c", configuration_file, "scan", "test/resources/rules/md024/same_heading_but_not_in_siblings_setext.md", ] expected_return_code = 0 expected_output = "" expected_error = "" # Act execute_results = scanner.invoke_main(arguments=supplied_arguments) # Assert execute_results.assert_results( expected_output, expected_error, expected_return_code ) finally: if configuration_file and os.path.exists(configuration_file): os.remove(configuration_file)

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d5af9f53165bd275958432ebbd9fb111a050a04e

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py

Python

sips/lines/espn/__init__.py

AnandIJain/sip

7eadee83a1bf5d447efd42ebab69197a4e73d52a

[ "MIT" ]

5

2019-09-11T15:44:56.000Z

2021-06-13T13:53:59.000Z

sips/lines/espn/__init__.py

AnandIJain/sip

7eadee83a1bf5d447efd42ebab69197a4e73d52a

[ "MIT" ]

19

2019-09-26T21:17:24.000Z

2020-05-03T06:35:33.000Z

sips/lines/espn/__init__.py

anandijain/sips

7eadee83a1bf5d447efd42ebab69197a4e73d52a

[ "MIT" ]

2

2019-09-05T16:55:59.000Z

2019-09-05T17:22:50.000Z

""" """ from . import espn_box as eb from . import espn_api as api

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634c29382400b19acd57320fe3310adeb0296a9b

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py

Python

test/test.py

shliujing/motion-sense

3f2a60f4d520d8f0041e02eca87f4feb5eeb8a0f

[ "MIT" ]

null

test/test.py

shliujing/motion-sense

3f2a60f4d520d8f0041e02eca87f4feb5eeb8a0f

[ "MIT" ]

null

test/test.py

shliujing/motion-sense

3f2a60f4d520d8f0041e02eca87f4feb5eeb8a0f

[ "MIT" ]

null

print("%.2f" % 0.13333) print("{:.2f}".format(0.13333)) # assert(121321321321321321321231

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638a6eddacb3b366f847c23a4ad3623636611f28

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py

Python

src/json_memoize/__init__.py

phildavis17/json_memoize

27af8c5c6c9012b27b778a50f6358086ba41cfc3

[ "MIT" ]

null

src/json_memoize/__init__.py

phildavis17/json_memoize

27af8c5c6c9012b27b778a50f6358086ba41cfc3

[ "MIT" ]

null

src/json_memoize/__init__.py

phildavis17/json_memoize

27af8c5c6c9012b27b778a50f6358086ba41cfc3

[ "MIT" ]

null

from json_memoize.json_memoize import memoize

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7

98622ade0804a055bef16b4d03a1d0f79ba37216

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py

Python

deepself/models/__init__.py

Tomoya-K-0504/deepSELF

0e5a7d0169b3e9edcb5c8d9802140a84ce5cb69a

[ "MIT" ]

1

2021-08-17T09:56:47.000Z

deepself/models/__init__.py

JIangjiang1108/deepSELF

0e5a7d0169b3e9edcb5c8d9802140a84ce5cb69a

[ "MIT" ]

null

deepself/models/__init__.py

JIangjiang1108/deepSELF

0e5a7d0169b3e9edcb5c8d9802140a84ce5cb69a

[ "MIT" ]

1

2021-08-17T09:56:41.000Z

from deepself.models import * from deepself.models.nn_models.cnn import *

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7f2febbea784cbe9c3a234a5f8ddfcea932b1922

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py

Python

tests/test_utils.py

jic-dtool/dtool-conf

6b5cf6ef48d045b87bc6875a9d2139340c8757f3

[ "MIT" ]

null

tests/test_utils.py

jic-dtool/dtool-conf

6b5cf6ef48d045b87bc6875a9d2139340c8757f3

[ "MIT" ]

3

2018-12-12T21:20:12.000Z

2021-06-23T00:16:57.000Z

tests/test_utils.py

jic-dtool/dtool-conf

6b5cf6ef48d045b87bc6875a9d2139340c8757f3

[ "MIT" ]

1

2021-06-21T16:23:59.000Z

"""Test the helper utility functions.""" import os from . import tmp_dir_fixture # NOQA def test_missing_parent_config_dir(tmp_dir_fixture): # NOQA import dtool_config.utils config_fpath = os.path.join(tmp_dir_fixture, ".config", "dtool.json") username = "Postman Pat" dtool_config.utils.set_username(config_fpath, username) assert dtool_config.utils.get_username(config_fpath) == username def test_permissions_on_config_file(tmp_dir_fixture): # NOQA import dtool_config.utils config_fpath = os.path.join(tmp_dir_fixture, "dtool.json") username = "Postman Pat" dtool_config.utils.set_username(config_fpath, username) assert os.stat(config_fpath).st_mode == 33216 def test_set_get_name(tmp_dir_fixture): # NOQA import dtool_config.utils config_fpath = os.path.join(tmp_dir_fixture, "dtool.json") assert dtool_config.utils.get_username(config_fpath) == "" username = "Postman Pat" dtool_config.utils.set_username(config_fpath, username) assert dtool_config.utils.get_username(config_fpath) == username def test_set_get_email(tmp_dir_fixture): # NOQA import dtool_config.utils config_fpath = os.path.join(tmp_dir_fixture, "dtool.json") assert dtool_config.utils.get_user_email(config_fpath) == "" email = "pat@example.com" dtool_config.utils.set_user_email(config_fpath, email) assert dtool_config.utils.get_user_email(config_fpath) == email email = "postman.pat@example.com" dtool_config.utils.set_user_email(config_fpath, email) assert dtool_config.utils.get_user_email(config_fpath) == email def test_set_get_readme_template_fpath(tmp_dir_fixture): # NOQA import dtool_config.utils config_fpath = os.path.join(tmp_dir_fixture, "dtool.json") assert dtool_config.utils.get_readme_template_fpath(config_fpath) == "" template_fpath = os.path.join(tmp_dir_fixture, "readme.yml") with open(template_fpath, "w") as fh: fh.write("---/ndescription: something\n") dtool_config.utils.set_readme_template_fpath(config_fpath, template_fpath) assert dtool_config.utils.get_readme_template_fpath(config_fpath) == template_fpath # NOQA template_fpath_alt = os.path.join(tmp_dir_fixture, "readme_alt.yml") with open(template_fpath_alt, "w") as fh: fh.write("---/ndescription: something else\n") dtool_config.utils.set_readme_template_fpath(config_fpath, template_fpath_alt) # NOQA assert dtool_config.utils.get_readme_template_fpath(config_fpath) == template_fpath_alt # NOQA def test_set_get_ecs_endpoint(tmp_dir_fixture): # NOQA import dtool_config.utils config_fpath = os.path.join(tmp_dir_fixture, "dtool.json") assert dtool_config.utils.get_ecs_endpoint(config_fpath, "demo") == "" ecs_endpoint = "http://blueberry.famous.uni.ac.uk" dtool_config.utils.set_ecs_endpoint(config_fpath, "demo", ecs_endpoint) assert dtool_config.utils.get_ecs_endpoint(config_fpath, "demo") == ecs_endpoint # NOQA def test_set_get_ecs_access_key_id(tmp_dir_fixture): # NOQA import dtool_config.utils config_fpath = os.path.join(tmp_dir_fixture, "dtool.json") assert dtool_config.utils.get_ecs_access_key_id(config_fpath, "demo") == "" acc_key_id = "patp" dtool_config.utils.set_ecs_access_key_id(config_fpath, "demo", acc_key_id) assert dtool_config.utils.get_ecs_access_key_id(config_fpath, "demo") == acc_key_id # NOQA assert dtool_config.utils.list_ecs_base_uris(config_fpath) == ["ecs://demo"] # NOQA def test_set_get_ecs_secret_access_key(tmp_dir_fixture): # NOQA import dtool_config.utils config_fpath = os.path.join(tmp_dir_fixture, "dtool.json") assert dtool_config.utils.get_ecs_secret_access_key(config_fpath, "demo") == "" # NOQA key = "secret" dtool_config.utils.set_ecs_secret_access_key(config_fpath, "demo", key) assert dtool_config.utils.get_ecs_secret_access_key(config_fpath, "demo") == key # NOQA def test_set_get_cache(tmp_dir_fixture): # NOQA import dtool_config.utils config_fpath = os.path.join(tmp_dir_fixture, "dtool.json") assert dtool_config.utils.get_cache(config_fpath) == "" cache_dir = os.path.join(tmp_dir_fixture, "dtool_cache") dtool_config.utils.set_cache(config_fpath, cache_dir) assert dtool_config.utils.get_cache(config_fpath) == cache_dir def test_set_get_azure_container(tmp_dir_fixture): # NOQA import dtool_config.utils config_fpath = os.path.join(tmp_dir_fixture, "dtool.json") assert "" == dtool_config.utils.get_azure_secret_access_key( config_fpath, "demo" ) token = "secret" dtool_config.utils.set_azure_secret_access_key(config_fpath, "demo", token) assert token == dtool_config.utils.get_azure_secret_access_key( config_fpath, "demo" ) dtool_config.utils.set_azure_secret_access_key(config_fpath, "prod", "s2") containers = ["azure://demo", "azure://prod"] assert containers == dtool_config.utils.list_azure_base_uris(config_fpath)

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7

f6948525517c0db4620e74d69a4600ecb62a547d

5,560

py

Python

test/format/test_json.py

westonsteimel/pip-audit

3b29e66418de9236c92b3ffaa254ae9def2bdcbf

[ "Apache-2.0" ]

447

2021-09-02T17:06:18.000Z

2022-03-28T20:58:22.000Z

test/format/test_json.py

westonsteimel/pip-audit

3b29e66418de9236c92b3ffaa254ae9def2bdcbf

[ "Apache-2.0" ]

177

2021-09-02T16:45:42.000Z

2022-03-29T14:19:11.000Z

test/format/test_json.py

westonsteimel/pip-audit

3b29e66418de9236c92b3ffaa254ae9def2bdcbf

[ "Apache-2.0" ]

25

2021-09-13T16:04:23.000Z

2022-03-21T17:47:28.000Z

import json import pip_audit._format as format def test_json(vuln_data): json_format = format.JsonFormat(True) expected_json = { "dependencies": [ { "name": "foo", "version": "1.0", "vulns": [ { "id": "VULN-0", "fix_versions": [ "1.1", "1.4", ], "description": "The first vulnerability", }, { "id": "VULN-1", "fix_versions": ["1.0"], "description": "The second vulnerability", }, ], }, { "name": "bar", "version": "0.1", "vulns": [ {"id": "VULN-2", "fix_versions": [], "description": "The third vulnerability"} ], }, ], "fixes": [], } assert json_format.format(vuln_data, list()) == json.dumps(expected_json) def test_json_no_desc(vuln_data): json_format = format.JsonFormat(False) expected_json = { "dependencies": [ { "name": "foo", "version": "1.0", "vulns": [ { "id": "VULN-0", "fix_versions": [ "1.1", "1.4", ], }, { "id": "VULN-1", "fix_versions": ["1.0"], }, ], }, { "name": "bar", "version": "0.1", "vulns": [{"id": "VULN-2", "fix_versions": []}], }, ], "fixes": [], } assert json_format.format(vuln_data, list()) == json.dumps(expected_json) def test_json_skipped_dep(vuln_data_skipped_dep): json_format = format.JsonFormat(False) expected_json = { "dependencies": [ { "name": "foo", "version": "1.0", "vulns": [ { "id": "VULN-0", "fix_versions": [ "1.1", "1.4", ], }, ], }, { "name": "bar", "skip_reason": "skip-reason", }, ], "fixes": [], } assert json_format.format(vuln_data_skipped_dep, list()) == json.dumps(expected_json) def test_json_fix(vuln_data, fix_data): json_format = format.JsonFormat(True) expected_json = { "dependencies": [ { "name": "foo", "version": "1.0", "vulns": [ { "id": "VULN-0", "fix_versions": [ "1.1", "1.4", ], "description": "The first vulnerability", }, { "id": "VULN-1", "fix_versions": ["1.0"], "description": "The second vulnerability", }, ], }, { "name": "bar", "version": "0.1", "vulns": [ {"id": "VULN-2", "fix_versions": [], "description": "The third vulnerability"} ], }, ], "fixes": [ { "name": "foo", "old_version": "1.0", "new_version": "1.8", }, { "name": "bar", "old_version": "0.1", "new_version": "0.3", }, ], } assert json_format.format(vuln_data, fix_data) == json.dumps(expected_json) def test_json_skipped_fix(vuln_data, skipped_fix_data): json_format = format.JsonFormat(True) expected_json = { "dependencies": [ { "name": "foo", "version": "1.0", "vulns": [ { "id": "VULN-0", "fix_versions": [ "1.1", "1.4", ], "description": "The first vulnerability", }, { "id": "VULN-1", "fix_versions": ["1.0"], "description": "The second vulnerability", }, ], }, { "name": "bar", "version": "0.1", "vulns": [ {"id": "VULN-2", "fix_versions": [], "description": "The third vulnerability"} ], }, ], "fixes": [ { "name": "foo", "old_version": "1.0", "new_version": "1.8", }, {"name": "bar", "version": "0.1", "skip_reason": "skip-reason"}, ], } assert json_format.format(vuln_data, skipped_fix_data) == json.dumps(expected_json)

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0

7

f6e90c1dbcbcff2433d544b02191c7fba25bd609

111

py

Python

html2eml/__init__.py

gaijinx/html2eml

2b8e53363afdc9a33ad0679617bec4a539a50d31

[ "MIT" ]

1

2020-02-24T16:22:53.000Z

html2eml/__init__.py

gaijinx/html2eml

2b8e53363afdc9a33ad0679617bec4a539a50d31

[ "MIT" ]

null

html2eml/__init__.py

gaijinx/html2eml

2b8e53363afdc9a33ad0679617bec4a539a50d31

[ "MIT" ]

1

2022-02-09T23:08:48.000Z

from .html2eml import from_html, convert_eml_to_multipart __all__ = ['from_html', 'convert_eml_to_multipart']

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7

127050e3a0ad7cd482f6c19624d20288598033fe

1,120

py

Python

github_leaderboard/app/decorators.py

f0lie/github-leaderboard

b632e55311d0920ca0d1d1768758667e0459310a

[ "Apache-2.0" ]

2

2021-03-01T18:28:59.000Z

2021-03-08T18:05:55.000Z

github_leaderboard/app/decorators.py

f0lie/github-leaderboard

b632e55311d0920ca0d1d1768758667e0459310a

[ "Apache-2.0" ]

34

2021-02-17T18:03:56.000Z

2022-03-01T20:09:59.000Z

github_leaderboard/app/decorators.py

f0lie/github-leaderboard

b632e55311d0920ca0d1d1768758667e0459310a

[ "Apache-2.0" ]

3

2021-02-17T19:52:06.000Z

2021-08-01T12:53:48.000Z

from django.core.exceptions import PermissionDenied """ Plese apply 'login_required' decorator before these decorators to ensure that request.user won't be AnonymousUser. Otherwise, it will cause exception """ def admin_only(function): def wrap(request, *args, **kwargs): if request.user.role == "ADMIN": return function(request, *args, **kwargs) else: raise PermissionDenied("You are not authorized.") wrap.__doc__ = function.__doc__ return wrap def dev_only(function): def wrap(request, *args, **kwargs): if request.user.role == "DEV": return function(request, *args, **kwargs) else: raise PermissionDenied("You are not authorized.") wrap.__doc__ = function.__doc__ return wrap def admin_or_dev_only(function): def wrap(request, *args, **kwargs): if request.user.role == "ADMIN" or request.user.role == "DEV": return function(request, *args, **kwargs) else: raise PermissionDenied("You are not authorized.") wrap.__doc__ = function.__doc__ return wrap

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77

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1,120

5.328244

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0.146132

0.081662

0.732092

0

0.241071

1,120

39

78

28.717949

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0.088266

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false

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0.04

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1

0

1

0

null

0

1

0

7

89db76d3a4aa50382751c75b5a43ce71368c4ba2

12,663

py

Python

m3d/m3d.py

aktechthoughts/m3d-api

43cb5b58481c9b2d1efdb36f3ac800626705299a

[ "Apache-2.0" ]

null

m3d/m3d.py

aktechthoughts/m3d-api

43cb5b58481c9b2d1efdb36f3ac800626705299a

[ "Apache-2.0" ]

null

m3d/m3d.py

aktechthoughts/m3d-api

43cb5b58481c9b2d1efdb36f3ac800626705299a

[ "Apache-2.0" ]

null

from m3d.exceptions import m3d_exceptions from m3d.system.data_system import DataSystem from m3d.system.table import Table class M3D(object): @staticmethod def create_emr_cluster( config, destination_system, destination_database, destination_environment, core_instance_count, core_instance_type, master_instance_type, emr_version=None, ebs_size=None ): from m3d.hadoop.emr import emr_system emr = emr_system.EMRSystem( config, destination_system, destination_database, destination_environment ) emr_cluster_id = emr.create_emr_cluster( core_instance_type=core_instance_type, core_instance_count=core_instance_count, master_instance_type=master_instance_type, emr_version=emr_version, ebs_size=ebs_size ) # don't change this print statement, it is parsed by jenkins pipeline print(emr_cluster_id) # do not print anything after the two print statements above. This is a hack to parse # last two lines of this function by jenkins. return emr_cluster_id @staticmethod def add_emr_cluster_tags( config, destination_system, destination_database, destination_environment, emr_cluster_id, cluster_tags ): from m3d.hadoop.emr.emr_system import EMRSystem emr_system = EMRSystem( config, destination_system, destination_database, destination_environment, emr_cluster_id ) emr_system.add_cluster_tags(cluster_tags) @staticmethod def delete_emr_cluster( config, destination_system, destination_database, destination_environment, emr_cluster_id ): from m3d.hadoop.emr.emr_system import EMRSystem emr = EMRSystem( config, destination_system, destination_database, destination_environment ) emr.delete_emr_cluster(emr_cluster_id) # create table (l0 and l1) @staticmethod def create_table( config, destination_system, destination_database, destination_environment, destination_table, emr_cluster_id=None ): # create abstract table object to retrieve source technology abstract_table = Table( config, destination_system, destination_database, destination_environment, destination_table ) destination_system_technology = abstract_table.get_destination_technology() # hadoop if destination_system_technology == DataSystem.SystemTechnology.HIVE: if abstract_table.storage_type == DataSystem.StorageType.S3: from m3d.hadoop.emr.emr_system import EMRSystem emr_system = EMRSystem( config, destination_system, destination_database, destination_environment, emr_cluster_id ) emr_system.add_cluster_tag(EMRSystem.EMRClusterTag.API_METHOD, M3D.create_table.__name__) emr_system.create_table(destination_table) else: raise m3d_exceptions.M3DUnsupportedStorageException(abstract_table.storage_type) else: raise m3d_exceptions.M3DUnsupportedDestinationSystemException(destination_system_technology) @staticmethod def drop_table( config, destination_system, destination_database, destination_environment, destination_table, emr_cluster_id=None ): # create abstract table object to retrieve source technology abstract_table = Table( config, destination_system, destination_database, destination_environment, destination_table ) destination_system_technology = abstract_table.get_destination_technology() # hadoop if destination_system_technology == DataSystem.SystemTechnology.HIVE: if abstract_table.storage_type == DataSystem.StorageType.S3: from m3d.hadoop.emr.emr_system import EMRSystem emr_system = EMRSystem( config, destination_system, destination_database, destination_environment, emr_cluster_id ) emr_system.add_cluster_tag(EMRSystem.EMRClusterTag.API_METHOD, M3D.drop_table.__name__) emr_system.drop_table(destination_table) else: raise m3d_exceptions.M3DUnsupportedStorageException(abstract_table.storage_type) else: raise m3d_exceptions.M3DUnsupportedDestinationSystemException(destination_system_technology) # load table from l0 to l1 @staticmethod def load_table( config, destination_system, destination_database, destination_environment, destination_table, load_type, emr_cluster_id=None, spark_params=None ): ds = DataSystem(config, destination_system, destination_database, destination_environment) # hadoop if ds.database_type == DataSystem.DatabaseType.EMR: if ds.storage_type == DataSystem.StorageType.S3: from m3d.hadoop.load.load_executor_hadoop import LoadExecutorHadoop LoadExecutorHadoop.create( config_path=config, destination_system=destination_system, destination_database=destination_database, destination_environment=destination_environment, destination_table=destination_table, load_type=load_type, emr_cluster_id=emr_cluster_id, spark_params_str=spark_params ).run() else: raise m3d_exceptions.M3DUnsupportedStorageException(ds.storage_type) else: raise m3d_exceptions.M3DUnsupportedDatabaseTypeException(ds.database_type) @staticmethod def truncate_table( config, destination_system, destination_database, destination_environment, destination_table, emr_cluster_id=None ): # create abstract table object to retrieve source technology abstract_table = Table( config, destination_system, destination_database, destination_environment, destination_table ) destination_system_technology = abstract_table.get_destination_technology() if destination_system_technology == DataSystem.SystemTechnology.HIVE: if abstract_table.storage_type == DataSystem.StorageType.S3: from m3d.hadoop.emr.emr_system import EMRSystem emr_system = EMRSystem( config, destination_system, destination_database, destination_environment, emr_cluster_id ) emr_system.add_cluster_tag(EMRSystem.EMRClusterTag.API_METHOD, M3D.truncate_table.__name__) emr_system.truncate_table(destination_table) else: raise m3d_exceptions.M3DUnsupportedStorageException(abstract_table.storage_type) else: raise m3d_exceptions.M3DUnsupportedDestinationSystemException(destination_system_technology) # create out_view (l2) @staticmethod def create_lake_out_view( config, destination_system, destination_database, destination_environment, destination_table, emr_cluster_id=None ): # create abstract table object to retrieve source technology abstract_table = Table( config, destination_system, destination_database, destination_environment, destination_table ) destination_system_technology = abstract_table.get_destination_technology() # hadoop if destination_system_technology == DataSystem.SystemTechnology.HIVE: if abstract_table.storage_type == DataSystem.StorageType.S3: from m3d.hadoop.emr.emr_system import EMRSystem emr_system = EMRSystem( config, destination_system, destination_database, destination_environment, emr_cluster_id ) emr_system.add_cluster_tag(EMRSystem.EMRClusterTag.API_METHOD, M3D.create_lake_out_view.__name__) emr_system.create_lake_out_view(destination_table) else: raise m3d_exceptions.M3DUnsupportedStorageException(abstract_table.storage_type) else: raise m3d_exceptions.M3DUnsupportedDestinationSystemException(destination_system_technology) @staticmethod def drop_lake_out_view( config, destination_system, destination_database, destination_environment, destination_table, emr_cluster_id=None ): # create abstract table object to retrieve source technology abstract_table = Table( config, destination_system, destination_database, destination_environment, destination_table ) destination_system_technology = abstract_table.get_destination_technology() # hadoop if destination_system_technology == DataSystem.SystemTechnology.HIVE: if abstract_table.storage_type == DataSystem.StorageType.S3: from m3d.hadoop.emr.emr_system import EMRSystem emr_system = EMRSystem( config, destination_system, destination_database, destination_environment, emr_cluster_id ) emr_system.add_cluster_tag(EMRSystem.EMRClusterTag.API_METHOD, M3D.drop_lake_out_view.__name__) emr_system.drop_lake_out_view(destination_table) else: raise m3d_exceptions.M3DUnsupportedStorageException(abstract_table.storage_type) else: raise m3d_exceptions.M3DUnsupportedDestinationSystemException(destination_system_technology) # run algorithm @staticmethod def run_algorithm( config, destination_system, destination_database, destination_environment, algorithm_instance, emr_cluster_id=None, ext_params=None ): ds = DataSystem(config, destination_system, destination_database, None) if ds.database_type == DataSystem.DatabaseType.EMR: from m3d.hadoop.algorithm.algorithm_executor_hadoop import AlgorithmExecutorHadoop AlgorithmExecutorHadoop.create( config_path=config, destination_system=destination_system, destination_database=destination_database, destination_environment=destination_environment, algorithm_instance=algorithm_instance, emr_cluster_id=emr_cluster_id, ext_params_str=ext_params ).run() else: raise m3d_exceptions.M3DUnsupportedDatabaseTypeException(ds.database_type) @staticmethod def drop_dataset( config, destination_system, destination_database, destination_environment, destination_dataset, emr_cluster_id=None ): from m3d.hadoop.emr.emr_system import EMRSystem emr_system = EMRSystem( config, destination_system, destination_database, destination_environment, emr_cluster_id) emr_system.add_cluster_tag(EMRSystem.EMRClusterTag.API_METHOD, M3D.drop_dataset.__name__) emr_system.drop_dataset(destination_dataset)

36.811047

113

0.618416

1,097

12,663

6.758432

0.097539

0.105476

0.117076

0.132992

0.851093

0.819126

0.799299

0.765848

0.749393

0.704748

0

0.007023

0.336571

12,663

343

114

36.918367

0.875491

0.048172

0

0.735099

0

1

0.036424

false

0

0.046358

0

0.089404

0.003311

0

null

0

1

0

1

0

null

0

7

d607652b399024a45596c1b4553812273cfcfbfe

161

py

Python

generator/generator_7.py

Richard-Joe/python_advanced_programming

f66294f9f24fb5c2b3671bbe804c0673955a7769

[ "Apache-2.0" ]

null

generator/generator_7.py

Richard-Joe/python_advanced_programming

f66294f9f24fb5c2b3671bbe804c0673955a7769

[ "Apache-2.0" ]

null

generator/generator_7.py

Richard-Joe/python_advanced_programming

f66294f9f24fb5c2b3671bbe804c0673955a7769

[ "Apache-2.0" ]

null

# -*- coding: UTF-8 -*- with open('lines.txt') as f: print (next(f)) print (next(f)) print (next(f)) # print (next(f)) print (f.readline())

17.888889

28

0.515528

24

161

3.458333

0.5

0.361446

0.481928

0.53012

0.554217

0

0.008333

0.254658

161

8

29

20.125

0.683333

0.229814

0

0.6

0

0.07438

0

1

0

true

0

0.8

1

0

null

1

0

1

0

null

0

1

0

1

0

7

d632286eca2229f17e37eba13d08ee415ae9fc6d

204

py

Python

decoder/models.py

AirVan21/fixdecoder

2270e255a6e7483b9414a245f6b862f0297705af

[ "Apache-2.0" ]

null

decoder/models.py

AirVan21/fixdecoder

2270e255a6e7483b9414a245f6b862f0297705af

[ "Apache-2.0" ]

null

decoder/models.py

AirVan21/fixdecoder

2270e255a6e7483b9414a245f6b862f0297705af

[ "Apache-2.0" ]

null

from django.db import models class FixVersion(models.Model): version = models.CharField(max_length=50) spec_path = models.CharField(max_length=200) def __str__(self): return version

22.666667

48

0.72549

27

204

5.222222

0.740741

0.212766

0.255319

0.340426

0

0.03012

0.186275

204

8

49

25.5

0.819277

0

1

0.166667

false

0

0.166667

1

0

1

0

null

1

0

1

0

null

0

1

0

7

d642cc917878900e8a430ad8e19a690b1d19a89b

22,049

py

Python

test/unit/ingest/domain/services/test_ingest_service.py

GPortas/import-management-service

be412316c1d9e03c60a642ff2dd97fc9c3d61fe5

[ "Apache-2.0" ]

null

test/unit/ingest/domain/services/test_ingest_service.py

GPortas/import-management-service

be412316c1d9e03c60a642ff2dd97fc9c3d61fe5

[ "Apache-2.0" ]

4

2022-03-08T16:17:19.000Z

2022-03-21T13:33:59.000Z

test/unit/ingest/domain/services/test_ingest_service.py

harvard-lts/drs-import-management-service

acce6bae1504a434d7f89ac33dc1a5f05f74916e

[ "Apache-2.0" ]

1

2022-03-01T08:22:33.000Z

from dataclasses import replace from unittest import TestCase from unittest.mock import Mock from app.common.domain.mq.exceptions.mq_connection_exception import MqConnectionException from app.common.domain.mq.exceptions.mq_message_publish_exception import MqMessagePublishException from app.ingest.domain.api.exceptions.report_status_api_client_exception import ReportStatusApiClientException from app.ingest.domain.api.ingest_status_api_client import IIngestStatusApiClient from app.ingest.domain.models.ingest.ingest_status import IngestStatus from app.ingest.domain.mq.process_ready_queue_publisher import IProcessReadyQueuePublisher from app.ingest.domain.mq.transfer_ready_queue_publisher import ITransferReadyQueuePublisher from app.ingest.domain.repositories.exceptions.ingest_query_exception import IngestQueryException from app.ingest.domain.repositories.exceptions.ingest_save_exception import IngestSaveException from app.ingest.domain.repositories.ingest_repository import IIngestRepository from app.ingest.domain.services.exceptions.get_ingest_by_package_id_exception import GetIngestByPackageIdException from app.ingest.domain.services.exceptions.process_ingest_exception import ProcessIngestException from app.ingest.domain.services.exceptions.set_ingest_as_processed_exception import SetIngestAsProcessedException from app.ingest.domain.services.exceptions.set_ingest_as_processed_failed_exception import \ SetIngestAsProcessedFailedException from app.ingest.domain.services.exceptions.set_ingest_as_transferred_exception import SetIngestAsTransferredException from app.ingest.domain.services.exceptions.set_ingest_as_transferred_failed_exception import \ SetIngestAsTransferredFailedException from app.ingest.domain.services.exceptions.transfer_ingest_exception import TransferIngestException from app.ingest.domain.services.ingest_service import IngestService from test.resources.ingest.ingest_factory import create_ingest class TestIngestService(TestCase): @classmethod def setUpClass(cls) -> None: cls.TEST_INGEST = create_ingest() def test_get_ingest_by_package_id_happy_path(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=Mock(spec=IIngestStatusApiClient) ) test_package_id = self.TEST_INGEST.package_id sut.get_ingest_by_package_id(test_package_id) ingest_repository_mock.get_by_package_id.assert_called_once_with(test_package_id) def test_get_ingest_by_package_id_repository_returns_none(self) -> None: ingest_repository_stub = Mock(spec=IIngestRepository) ingest_repository_stub.get_by_package_id.return_value = None sut = IngestService( ingest_repository=ingest_repository_stub, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=Mock(spec=IIngestStatusApiClient) ) with self.assertRaises(GetIngestByPackageIdException): sut.get_ingest_by_package_id(self.TEST_INGEST.package_id) def test_get_ingest_by_package_id_repository_raises_ingest_query_exception(self) -> None: ingest_repository_stub = Mock(spec=IIngestRepository) ingest_repository_stub.get_by_package_id.side_effect = IngestQueryException("test", "test") sut = IngestService( ingest_repository=ingest_repository_stub, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=Mock(spec=IIngestStatusApiClient) ) with self.assertRaises(GetIngestByPackageIdException): sut.get_ingest_by_package_id(self.TEST_INGEST.package_id) def test_transfer_ingest_happy_path(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) transfer_ready_queue_publisher_mock = Mock(spec=ITransferReadyQueuePublisher) sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=transfer_ready_queue_publisher_mock, process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=Mock(spec=IIngestStatusApiClient) ) sut.transfer_ingest(self.TEST_INGEST) transfer_ready_queue_publisher_mock.publish_message.assert_called_once() ingest_repository_mock.save.assert_called_once_with( replace(self.TEST_INGEST, status=IngestStatus.pending_transfer_to_dropbox)) def test_transfer_ingest_publisher_raises_mq_connection_exception(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) transfer_ready_queue_publisher_stub = Mock(spec=ITransferReadyQueuePublisher) transfer_ready_queue_publisher_stub.publish_message.side_effect = MqConnectionException("test", "test", "test") sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=transfer_ready_queue_publisher_stub, process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=Mock(spec=IIngestStatusApiClient) ) with self.assertRaises(TransferIngestException): sut.transfer_ingest(self.TEST_INGEST) ingest_repository_mock.save.assert_not_called() def test_transfer_ingest_publisher_raises_mq_message_publish_exception(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) transfer_ready_queue_publisher_stub = Mock(spec=ITransferReadyQueuePublisher) transfer_ready_queue_publisher_stub.publish_message.side_effect = MqMessagePublishException("test", "test", "test", "test") sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=transfer_ready_queue_publisher_stub, process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=Mock(spec=IIngestStatusApiClient) ) with self.assertRaises(TransferIngestException): sut.transfer_ingest(self.TEST_INGEST) ingest_repository_mock.save.assert_not_called() def test_transfer_ingest_repository_raises_ingest_save_exception(self) -> None: ingest_repository_stub = Mock(spec=IIngestRepository) transfer_ready_queue_publisher_mock = Mock(spec=ITransferReadyQueuePublisher) ingest_repository_stub.save.side_effect = IngestSaveException("test", "test") sut = IngestService( ingest_repository=ingest_repository_stub, transfer_ready_queue_publisher=transfer_ready_queue_publisher_mock, process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=Mock(spec=IIngestStatusApiClient) ) with self.assertRaises(TransferIngestException): sut.transfer_ingest(self.TEST_INGEST) transfer_ready_queue_publisher_mock.publish_message.assert_called_once() def test_set_ingest_as_transferred_happy_path(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_mock ) sut.set_ingest_as_transferred(self.TEST_INGEST) expected_ingest_parameter = replace(self.TEST_INGEST, status=IngestStatus.transferred_to_dropbox_successful) ingest_repository_mock.save.assert_called_once_with(expected_ingest_parameter) ingest_status_api_client_mock.report_status.assert_called_once_with(expected_ingest_parameter) def test_set_ingest_as_transferred_repository_raises_ingest_save_exception(self) -> None: ingest_repository_stub = Mock(spec=IIngestRepository) ingest_repository_stub.save.side_effect = IngestSaveException("test", "test") ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_stub, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_mock ) with self.assertRaises(SetIngestAsTransferredException): sut.set_ingest_as_transferred(self.TEST_INGEST) ingest_status_api_client_mock.report_status.assert_not_called() def test_set_ingest_as_transferred_failed_happy_path(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_mock ) sut.set_ingest_as_transferred_failed(self.TEST_INGEST) expected_ingest_parameter = replace(self.TEST_INGEST, status=IngestStatus.transferred_to_dropbox_failed) ingest_repository_mock.save.assert_called_once_with(expected_ingest_parameter) ingest_status_api_client_mock.report_status.assert_called_once_with(expected_ingest_parameter) def test_set_ingest_as_transferred_failed_repository_raises_ingest_save_exception(self) -> None: ingest_repository_stub = Mock(spec=IIngestRepository) ingest_repository_stub.save.side_effect = IngestSaveException("test", "test") ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_stub, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_mock ) with self.assertRaises(SetIngestAsTransferredFailedException): sut.set_ingest_as_transferred_failed(self.TEST_INGEST) ingest_status_api_client_mock.report_status.assert_not_called() def test_set_ingest_as_transferred_failed_api_client_raises_report_status_api_client_exception(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) ingest_status_api_client_stub = Mock(spec=IIngestStatusApiClient) ingest_status_api_client_stub.report_status.side_effect = ReportStatusApiClientException("test") sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_stub ) with self.assertRaises(SetIngestAsTransferredFailedException): sut.set_ingest_as_transferred_failed(self.TEST_INGEST) expected_ingest_parameter = replace(self.TEST_INGEST, status=IngestStatus.transferred_to_dropbox_failed) ingest_repository_mock.save.assert_called_once_with(expected_ingest_parameter) def test_process_ingest_happy_path(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) process_ready_queue_publisher_mock = Mock(spec=IProcessReadyQueuePublisher) ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=process_ready_queue_publisher_mock, ingest_status_api_client=ingest_status_api_client_mock ) sut.process_ingest(self.TEST_INGEST) expected_ingest_parameter = replace(self.TEST_INGEST, status=IngestStatus.processing_batch_ingest) process_ready_queue_publisher_mock.publish_message.assert_called_once_with(expected_ingest_parameter) ingest_repository_mock.save.assert_called_once_with(expected_ingest_parameter) ingest_status_api_client_mock.report_status.assert_called_once_with(expected_ingest_parameter) def test_process_ingest_publisher_raises_mq_connection_exception(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) process_ready_queue_publisher_stub = Mock(spec=IProcessReadyQueuePublisher) process_ready_queue_publisher_stub.publish_message.side_effect = MqConnectionException("test", "test", "test") ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=process_ready_queue_publisher_stub, ingest_status_api_client=ingest_status_api_client_mock ) with self.assertRaises(ProcessIngestException): sut.process_ingest(self.TEST_INGEST) ingest_repository_mock.save.assert_not_called() ingest_status_api_client_mock.report_status.assert_not_called() def test_process_ingest_publisher_raises_mq_message_publish_exception(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) process_ready_queue_publisher_stub = Mock(spec=IProcessReadyQueuePublisher) process_ready_queue_publisher_stub.publish_message.side_effect = MqMessagePublishException("test", "test", "test", "test") ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=process_ready_queue_publisher_stub, ingest_status_api_client=ingest_status_api_client_mock ) with self.assertRaises(ProcessIngestException): sut.process_ingest(self.TEST_INGEST) ingest_repository_mock.save.assert_not_called() ingest_status_api_client_mock.report_status.assert_not_called() def test_process_ingest_repository_raises_ingest_save_exception(self) -> None: ingest_repository_stub = Mock(spec=IIngestRepository) process_ready_queue_publisher_mock = Mock(spec=IProcessReadyQueuePublisher) ingest_repository_stub.save.side_effect = IngestSaveException("test", "test") ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_stub, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=process_ready_queue_publisher_mock, ingest_status_api_client=ingest_status_api_client_mock ) with self.assertRaises(ProcessIngestException): sut.process_ingest(self.TEST_INGEST) expected_ingest_parameter = replace(self.TEST_INGEST, status=IngestStatus.processing_batch_ingest) process_ready_queue_publisher_mock.publish_message.assert_called_once_with(expected_ingest_parameter) ingest_status_api_client_mock.report_status.assert_not_called() def test_set_ingest_as_processed_happy_path(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_mock ) test_drs_url = "test" sut.set_ingest_as_processed(self.TEST_INGEST, test_drs_url) expected_ingest_parameter = replace( self.TEST_INGEST, drs_url=test_drs_url, status=IngestStatus.batch_ingest_successful ) ingest_repository_mock.save.assert_called_once_with(expected_ingest_parameter) ingest_status_api_client_mock.report_status.assert_called_once_with(expected_ingest_parameter) def test_set_ingest_as_processed_repository_raises_ingest_save_exception(self) -> None: ingest_repository_stub = Mock(spec=IIngestRepository) ingest_repository_stub.save.side_effect = IngestSaveException("test", "test") ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_stub, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_mock ) with self.assertRaises(SetIngestAsProcessedException): sut.set_ingest_as_processed(self.TEST_INGEST, "test") ingest_status_api_client_mock.report_status.assert_not_called() def test_set_ingest_as_processed_api_client_raises_report_status_api_client_exception(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) ingest_status_api_client_stub = Mock(spec=IIngestStatusApiClient) ingest_status_api_client_stub.report_status.side_effect = ReportStatusApiClientException("test") sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_stub ) test_drs_url = "test" with self.assertRaises(SetIngestAsProcessedException): sut.set_ingest_as_processed(self.TEST_INGEST, test_drs_url) expected_ingest_parameter = replace( self.TEST_INGEST, drs_url=test_drs_url, status=IngestStatus.batch_ingest_successful ) ingest_repository_mock.save.assert_called_once_with(expected_ingest_parameter) def test_set_ingest_as_processed_failed_happy_path(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_mock ) sut.set_ingest_as_processed_failed(self.TEST_INGEST) expected_ingest_parameter = replace(self.TEST_INGEST, status=IngestStatus.batch_ingest_failed) ingest_repository_mock.save.assert_called_once_with(expected_ingest_parameter) ingest_status_api_client_mock.report_status.assert_called_once_with(expected_ingest_parameter) def test_set_ingest_as_processed_failed_repository_raises_ingest_save_exception(self) -> None: ingest_repository_stub = Mock(spec=IIngestRepository) ingest_repository_stub.save.side_effect = IngestSaveException("test", "test") ingest_status_api_client_mock = Mock(spec=IIngestStatusApiClient) sut = IngestService( ingest_repository=ingest_repository_stub, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_mock ) with self.assertRaises(SetIngestAsProcessedFailedException): sut.set_ingest_as_processed_failed(self.TEST_INGEST) ingest_status_api_client_mock.report_status.assert_not_called() def test_set_ingest_as_processed_failed_api_client_raises_report_status_api_client_exception(self) -> None: ingest_repository_mock = Mock(spec=IIngestRepository) ingest_status_api_client_stub = Mock(spec=IIngestStatusApiClient) ingest_status_api_client_stub.report_status.side_effect = ReportStatusApiClientException("test") sut = IngestService( ingest_repository=ingest_repository_mock, transfer_ready_queue_publisher=Mock(spec=ITransferReadyQueuePublisher), process_ready_queue_publisher=Mock(spec=IProcessReadyQueuePublisher), ingest_status_api_client=ingest_status_api_client_stub ) with self.assertRaises(SetIngestAsProcessedFailedException): sut.set_ingest_as_processed_failed(self.TEST_INGEST) expected_ingest_parameter = replace(self.TEST_INGEST, status=IngestStatus.batch_ingest_failed) ingest_repository_mock.save.assert_called_once_with(expected_ingest_parameter)

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0.091884

0.068156

0.090117

0.916572

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22,049

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52.372922

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false

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null

0

1

0

1

0

null

0

7

c3df4d2bd22fa3ca3d4f272a2608314e2d43552b

15,060

py

Python

Paper_Specific_Versions/2019_DTI/Code/clinica_ml_dwi/mlworkflow_dwi.py

adamwild/AD-ML

e4ac0b7d312ab482b9b52bb3f5c6745cc06431e9

[ "MIT" ]

null

Paper_Specific_Versions/2019_DTI/Code/clinica_ml_dwi/mlworkflow_dwi.py

adamwild/AD-ML

e4ac0b7d312ab482b9b52bb3f5c6745cc06431e9

[ "MIT" ]

null

Paper_Specific_Versions/2019_DTI/Code/clinica_ml_dwi/mlworkflow_dwi.py

adamwild/AD-ML

e4ac0b7d312ab482b9b52bb3f5c6745cc06431e9

[ "MIT" ]

null

# -*- coding: utf-8 -*- __author__ = ["Junhao Wen", "Jorge Samper-Gonzalez"] __copyright__ = "Copyright 2016-2018 The Aramis Lab Team" __credits__ = ["Junhao Wen"] __license__ = "See LICENSE.txt file" __version__ = "0.1.0" __status__ = "Development" import os from os import path import numpy as np from clinica.pipelines.machine_learning import algorithm, validation from clinica.pipelines.machine_learning.base import MLWorkflow from input_dwi import DWIRegionInput, DWIVoxelBasedInput from sklearn.feature_selection import SelectKBest, f_classif, RFE, SelectPercentile, SelectFromModel import clinica.pipelines.machine_learning.svm_utils as utils from sklearn.ensemble import RandomForestClassifier, ExtraTreesClassifier from sklearn.decomposition import PCA from sklearn.svm import SVC, SVR class DWI_RB_RepHoldOut_DualSVM(MLWorkflow): def __init__(self, caps_directory, subjects_visits_tsv, diagnoses_tsv, atlas, dwi_map, output_dir, n_threads=15, n_iterations=100, test_size=0.3, grid_search_folds=10, balanced=True, c_range=np.logspace(-6, 2, 17), splits_indices=None): ## TODO, the parameter balanced here by default is True, I changed it to False just for DTI paper. self._output_dir = output_dir # DTI_SVM folder to contain the outputf self._n_threads = n_threads # number of threds is to use self._n_iterations = n_iterations # number of iteration to train the training set self._test_size = test_size # split the dataset into training and test dataset self._grid_search_folds = grid_search_folds self._balanced = balanced self._c_range = c_range # the hyperparameter to tune self._splits_indices = splits_indices self._input = DWIRegionInput(caps_directory, subjects_visits_tsv, diagnoses_tsv, atlas, dwi_map) self._validation = None self._algorithm = None def run(self): x = self._input.get_x() y = self._input.get_y() kernel = self._input.get_kernel() # By default, the kernel is just a linear kernel if y[0] == 0: print 'The first label of diagnose is 0, it means the voxels with negative coefficients in the weight image are more likely to be classified as the first label in the diagnose tsv' else: print 'The first label of diagnose is 1, it means the voxels with positive coefficients in the weight image are more likely to be classified as the second label in the diagnose tsv' ### choose the algo used, returning a class object self._algorithm = algorithm.DualSVMAlgorithm(kernel, y, balanced=self._balanced, grid_search_folds=self._grid_search_folds, c_range=self._c_range, n_threads=self._n_threads) ### choose the validation method used, returning a class object self._validation = validation.RepeatedHoldOut(self._algorithm, n_iterations=self._n_iterations, test_size=self._test_size) classifier, best_params, results = self._validation.validate(y, n_threads=self._n_threads, splits_indices=self._splits_indices) classifier_dir = path.join(self._output_dir, 'classifier') if not path.exists(classifier_dir): os.makedirs(classifier_dir) self._algorithm.save_classifier(classifier, classifier_dir) self._algorithm.save_parameters(best_params, classifier_dir) weights = self._algorithm.save_weights(classifier, x, classifier_dir) self._input.save_weights_as_nifti(weights, classifier_dir) self._validation.save_results(self._output_dir) class DWI_VB_RepHoldOut_DualSVM(MLWorkflow): """ This is a class for DWI voxel based features classification. Currently, only DTI features have been included, other model's feautures will be addded in the future. e.g. NODDI maps """ def __init__(self, caps_directory, subjects_visits_tsv, diagnoses_tsv, dwi_map, tissue_type, threshold, output_dir, fwhm=None, n_threads=15, n_iterations=100, test_size=0.3, grid_search_folds=10, balanced=True, c_range=np.logspace(-6, 2, 17), splits_indices=None): ## TODO, the parameter balanced here by default is True, I changed it to False just for DTI paper. self._output_dir = output_dir # DTI_SVM folder to contain the outputf self._n_threads = n_threads # number of threds is to use self._n_iterations = n_iterations # number of iteration to train the training set self._test_size = test_size # split the dataset into training and test dataset self._grid_search_folds = grid_search_folds self._balanced = balanced self._c_range = c_range # the hyperparameteWr to tune self._splits_indices = splits_indices self._input = DWIVoxelBasedInput(caps_directory, subjects_visits_tsv, diagnoses_tsv, dwi_map, tissue_type, threshold, fwhm) self._validation = None self._algorithm = None def run(self): x = self._input.get_x() y = self._input.get_y() kernel = self._input.get_kernel() if y[0] == 0: print 'The first label of diagnose is 0, it means the voxels with negative coefficients in the weight image are more likely to be classified as the first label in the diagnose tsv' else: print 'The first label of diagnose is 1, it means the voxels with positive coefficients in the weight image are more likely to be classified as the second label in the diagnose tsv' self._algorithm = algorithm.DualSVMAlgorithm(kernel, y, balanced=self._balanced, grid_search_folds=self._grid_search_folds, c_range=self._c_range, n_threads=self._n_threads) self._validation = validation.RepeatedHoldOut(self._algorithm, n_iterations=self._n_iterations, test_size=self._test_size) classifier, best_params, results = self._validation.validate(y, n_threads=self._n_threads, splits_indices=self._splits_indices) classifier_dir = path.join(self._output_dir, 'classifier') if not path.exists(classifier_dir): os.makedirs(classifier_dir) self._algorithm.save_classifier(classifier, classifier_dir) self._algorithm.save_parameters(best_params, classifier_dir) weights = self._algorithm.save_weights(classifier, x, classifier_dir) self._input.save_weights_as_nifti(weights, classifier_dir) self._validation.save_results(self._output_dir) class DWI_VB_RepHoldOut_DualSVM_FeatureSelectionNonNested(MLWorkflow): """ This is a class for DWI voxel based features classification. Currently, only DTI features have been included, other model's feautures will be addded in the future. e.g. NODDI maps """ def __init__(self, caps_directory, subjects_visits_tsv, diagnoses_tsv, dwi_map, tissue_type, threshold, output_dir, fwhm=None, n_threads=15, n_iterations=100, test_size=0.3, grid_search_folds=10, balanced=True, c_range=np.logspace(-6, 2, 17), splits_indices=None, top_k=50, feature_selection_method=None): ## TODO, the parameter balanced here by default is True, I changed it to False just for DTI paper. self._output_dir = output_dir # DTI_SVM folder to contain the outputf self._n_threads = n_threads # number of threds is to use self._n_iterations = n_iterations # number of iteration to train the training set self._test_size = test_size # split the dataset into training and test dataset self._grid_search_folds = grid_search_folds self._balanced = balanced self._c_range = c_range # the hyperparameteWr to tune self._splits_indices = splits_indices self._top_k = top_k self._feature_selection_method = feature_selection_method self._input = DWIVoxelBasedInput(caps_directory, subjects_visits_tsv, diagnoses_tsv, dwi_map, tissue_type, threshold, fwhm) self._validation = None self._algorithm = None def run(self): x = self._input.get_x() y = self._input.get_y() ## feature selection for all the data ## This is ANOVA test Univariate FS ## get the training and testing data for feature selection if self._feature_selection_method == 'ANOVA': selector = SelectPercentile(f_classif, percentile=self._top_k) selector.fit(x, y) elif self._feature_selection_method == 'RF': clf = RandomForestClassifier(n_estimators=250, random_state=0, n_jobs=-1) clf.fit(x, y) selector = SelectFromModel(clf, threshold= self._top_k) selector.fit(x, y) elif self._feature_selection_method == 'PCA': selector = PCA(n_components=self._top_k) selector.fit(x) elif self._feature_selection_method == 'RFE': svc = SVR(kernel="linear") selector = RFE(estimator=svc, n_features_to_select=int(0.01 * self._top_k * x.shape[1]), step=0.5) selector.fit(x, y) else: print('Method has not been implemented') x_after_fs = selector.transform(x) print 'In total, there are %d voxels in this task' % x.shape[1] print 'The threshold is %f' % (self._top_k) print 'We select the %d most discriminative voxels' % x_after_fs.shape[1] kernel = utils.gram_matrix_linear(x_after_fs) if y[0] == 0: print 'The first label of diagnose is 0, it means the voxels with negative coefficients in the weight image are more likely to be classified as the first label in the diagnose tsv' else: print 'The first label of diagnose is 1, it means the voxels with positive coefficients in the weight image are more likely to be classified as the second label in the diagnose tsv' self._algorithm = algorithm.DualSVMAlgorithm(kernel, y, balanced=self._balanced, grid_search_folds=self._grid_search_folds, c_range=self._c_range, n_threads=self._n_threads) self._validation = validation.RepeatedHoldOut(self._algorithm, n_iterations=self._n_iterations, test_size=self._test_size) classifier, best_params, results = self._validation.validate(y, n_threads=self._n_threads, splits_indices=self._splits_indices ) classifier_dir = path.join(self._output_dir, 'classifier') if not path.exists(classifier_dir): os.makedirs(classifier_dir) self._algorithm.save_classifier(classifier, classifier_dir) self._algorithm.save_parameters(best_params, classifier_dir) weights = self._algorithm.save_weights(classifier, x, classifier_dir) self._input.save_weights_as_nifti(weights, classifier_dir) self._validation.save_results(self._output_dir) class DWI_VB_RepHoldOut_DualSVM_FeatureSelectionNested(MLWorkflow): """ This is a class for DWI voxel based features classification. Currently, only DTI features have been included, other model's feautures will be addded in the future. e.g. NODDI maps """ def __init__(self, caps_directory, subjects_visits_tsv, diagnoses_tsv, dwi_map, tissue_type, threshold, output_dir, fwhm=None, n_threads=15, n_iterations=100, test_size=0.3, grid_search_folds=10, balanced=True, c_range=np.logspace(-6, 2, 17), splits_indices=None, top_k=50, feature_selection_method=None): self._output_dir = output_dir # DTI_SVM folder to contain the outputf self._n_threads = n_threads # number of threds is to use self._n_iterations = n_iterations # number of iteration to train the training set self._test_size = test_size # split the dataset into training and test dataset self._grid_search_folds = grid_search_folds self._balanced = balanced self._c_range = c_range # the hyperparameteWr to tune self._splits_indices = splits_indices self._top_k = top_k self._feature_selection_method= feature_selection_method self._input = DWIVoxelBasedInput(caps_directory, subjects_visits_tsv, diagnoses_tsv, dwi_map, tissue_type, threshold, fwhm) self._validation = None self._algorithm = None def run(self): x = self._input.get_x() y = self._input.get_y() # kernel = self._input.get_kernel() if y[0] == 0: print 'The first label of diagnose is 0, it means the voxels with negative coefficients in the weight image are more likely to be classified as the first label in the diagnose tsv' else: print 'The first label of diagnose is 1, it means the voxels with positive coefficients in the weight image are more likely to be classified as the second label in the diagnose tsv' self._algorithm = algorithm.DualSVMAlgorithmFeatureSelection(x, y, balanced=self._balanced, grid_search_folds=self._grid_search_folds, c_range=self._c_range, n_threads=self._n_threads, feature_selection_method=self._feature_selection_method) self._validation = validation.RepeatedHoldOutFeautureSelection(self._algorithm, n_iterations=self._n_iterations, test_size=self._test_size) classifier, best_params, results = self._validation.validate(y, n_threads=self._n_threads, splits_indices=self._splits_indices, top_k=self._top_k) classifier_dir = path.join(self._output_dir, 'classifier') if not path.exists(classifier_dir): os.makedirs(classifier_dir) self._algorithm.save_classifier(classifier, classifier_dir) self._algorithm.save_parameters(best_params, classifier_dir) weights = self._algorithm.save_weights(classifier, x, classifier_dir) self._input.save_weights_as_nifti(weights, classifier_dir) self._validation.save_results(self._output_dir)

53.978495

193

0.660027

1,901

15,060

4.937927

0.134666

0.023863

0.031959

0.023011

0.838074

0.827421

0.819964

0.81517

0

0.008855

0.272643

15,060

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194

54.172662

0.848092

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0

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0

0.040201

0.129522

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0

null

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null

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null

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1

0

1

0

null

0

1

0

1

0

9

7f07a06c440dea036ec9a2fc51688ac6310fb449

34,088

py

Python

models/classification/resnet_v2.py

Neronjust2017/keras-project

919e67e10b0bf518eb9cc63df68c79fe2bb71b36

[ "Apache-2.0" ]

2

2020-07-07T12:29:02.000Z

2020-09-16T15:33:02.000Z

models/classification/resnet_v2.py

Neronjust2017/keras-project

919e67e10b0bf518eb9cc63df68c79fe2bb71b36

[ "Apache-2.0" ]

1

2020-10-04T12:08:27.000Z

2020-10-05T05:05:39.000Z

models/classification/resnet_v2.py

Neronjust2017/keras-project

919e67e10b0bf518eb9cc63df68c79fe2bb71b36

[ "Apache-2.0" ]

null

import tensorflow.keras as keras from tensorflow.keras import Model from tensorflow.keras import Input from tensorflow.keras.layers import Conv2D, Dense, Flatten, Dropout, MaxPooling2D, Activation, \ BatchNormalization, Conv1D, MaxPooling1D, Concatenate, Lambda, Reshape, UpSampling1D, GlobalAveragePooling1D, \ Multiply, Add class Classifier_RESNET_V2: def __init__(self,input_shape, nb_classes,type=1): if type==1: self.model = self.build_model(input_shape, nb_classes) elif type==2: self.model = self.build_model_without_dropout(input_shape,nb_classes) elif type==3: self.model = self.build_model_with_L2(input_shape,nb_classes) elif type==4: self.model = self.get_resnet34_se(input_shape,nb_classes) elif type==5: self.model = self.get_resnet34_BNGammaZero(input_shape,nb_classes) elif type==6: self.model = self.get_resnet34_BN2(input_shape,nb_classes) def build_model(self,input_shape,nb_classes): OUTPUT_CLASS = nb_classes print(input_shape) input1 = Input(shape=input_shape, name='input_ecg') k = 1 # increment every 4th residual block p = True # pool toggle every other residual block (end with 2^8) convfilt = 64 encoder_confilt = 64 # encoder filters' num convstr = 1 ksize = 16 poolsize = 2 poolstr = 2 drop = 0.5 # First convolutional block (conv,BN, relu) lcount = 0 x = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(input1) lcount += 1 x = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) ## Second convolutional block (conv, BN, relu, dropout, conv) with residual net # Left branch (convolutions) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x) lcount += 1 x1 = BatchNormalization(name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch, shortcut branch pooling x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x) # Merge both branches x = keras.layers.add([x1, x2]) del x1, x2 fms = [] ## Main loop p = not p for l in range(15): if (l % 4 == 0) and (l > 0): # increment k on every fourth residual block k += 1 # increase depth by 1x1 Convolution case dimension shall change xshort = Conv1D(filters=convfilt * k, kernel_size=1, name='layer' + str(lcount))(x) lcount += 1 else: xshort = x # Left branch (convolutions) # notice the ordering of the operations has changed x1 = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = BatchNormalization(name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 if p: x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch: shortcut connection if p: x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(xshort) else: x2 = xshort # pool or identity # Merging branches x = keras.layers.add([x1, x2]) # change parameters p = not p # toggle pooling # if l == 5: # fms.append(x) # if l == 6: # fms.append(x) # fms.append(x) # fms.append(x) # fms的内容：[<tf.Tensor 'add_6/Identity:0' shape=(None, 1136, 128) dtype=float32>, # <tf.Tensor 'add_7/Identity:0' shape=(None, 1136, 128) dtype=float32>, # <tf.Tensor 'add_7/Identity:0' shape=(None, 1136, 128) dtype=float32>, # <tf.Tensor 'add_7/Identity:0' shape=(None, 1136, 128) dtype=float32>] # x = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # x_reg = Conv1D(filters=convfilt * k, kernel_size=1, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # Final bit x = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) x_ecg = Flatten()(x) # bbox_num = 1 # # x2od2 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[0]) # out2 = Reshape((1136, bbox_num, 2), name='aux_output1')(x2od2) # # x2od3 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[1]) # out3 = Reshape((1136, bbox_num, 2), name='aux_output2')(x2od3) # # x2od4 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[2]) # out4 = Reshape((1136, bbox_num, 2), name='aux_output3')(x2od4) # # x2od5 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[3]) # out5 = Reshape((1136, bbox_num, 2), name='aux_output4')(x2od5) out1 = Dense(OUTPUT_CLASS, activation='softmax', name='main_output')(x_ecg) # model = Model(inputs=input1, outputs=[out1, out2, out3, out4, out5]) model = Model(inputs=input1, outputs=out1) model.summary() return model def build_model_without_dropout(self,input_shape,nb_classes): OUTPUT_CLASS = nb_classes # output classes input1 = Input(shape=input_shape, name='input_ecg') k = 1 # increment every 4th residual block p = True # pool toggle every other residual block (end with 2^8) convfilt = 64 encoder_confilt = 64 # encoder filters' num convstr = 1 ksize = 16 poolsize = 2 poolstr = 2 # First convolutional block (conv,BN, relu) lcount = 0 x = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(input1) lcount += 1 x = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) ## Second convolutional block (conv, BN, relu, dropout, conv) with residual net # Left branch (convolutions) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x) lcount += 1 x1 = BatchNormalization(name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch, shortcut branch pooling x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x) # Merge both branches x = keras.layers.add([x1, x2]) del x1, x2 fms = [] ## Main loop p = not p for l in range(15): if (l % 4 == 0) and (l > 0): # increment k on every fourth residual block k += 1 # increase depth by 1x1 Convolution case dimension shall change xshort = Conv1D(filters=convfilt * k, kernel_size=1, name='layer' + str(lcount))(x) lcount += 1 else: xshort = x # Left branch (convolutions) # notice the ordering of the operations has changed x1 = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x1 = Activation('relu')(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = BatchNormalization(name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 if p: x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch: shortcut connection if p: x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(xshort) else: x2 = xshort # pool or identity # Merging branches x = keras.layers.add([x1, x2]) # change parameters p = not p # toggle pooling # if l == 5: # fms.append(x) # if l == 6: # fms.append(x) # fms.append(x) # fms.append(x) # x = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # x_reg = Conv1D(filters=convfilt * k, kernel_size=1, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # Final bit x = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) x_ecg = Flatten()(x) # bbox_num = 1 # # x2od2 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[0]) # out2 = Reshape((1136, bbox_num, 2), name='aux_output1')(x2od2) # # x2od3 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[1]) # out3 = Reshape((1136, bbox_num, 2), name='aux_output2')(x2od3) # # x2od4 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[2]) # out4 = Reshape((1136, bbox_num, 2), name='aux_output3')(x2od4) # # x2od5 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[3]) # out5 = Reshape((1136, bbox_num, 2), name='aux_output4')(x2od5) out1 = Dense(OUTPUT_CLASS, activation='softmax', name='main_output')(x_ecg) model = Model(inputs=input1, outputs=out1) model.summary() return model def build_model_with_L2(self,input_shape,nb_classes): OUTPUT_CLASS = nb_classes # output classes input1 = Input(shape=input_shape, name='input_ecg') k = 1 # increment every 4th residual block p = True # pool toggle every other residual block (end with 2^8) convfilt = 64 encoder_confilt = 64 # encoder filters' num convstr = 1 ksize = 16 poolsize = 2 poolstr = 2 drop = 0.5 # First convolutional block (conv,BN, relu) lcount = 0 x = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_regularizer=keras.regularizers.l2(0.001), kernel_initializer='he_normal', name='layer' + str(lcount))(input1) lcount += 1 x = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) ## Second convolutional block (conv, BN, relu, dropout, conv) with residual net # Left branch (convolutions) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_regularizer=keras.regularizers.l2(0.001), kernel_initializer='he_normal', name='layer' + str(lcount))(x) lcount += 1 x1 = BatchNormalization(name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_regularizer=keras.regularizers.l2(0.001), kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch, shortcut branch pooling x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x) # Merge both branches x = keras.layers.add([x1, x2]) del x1, x2 # fms = [] ## Main loop p = not p for l in range(15): if (l % 4 == 0) and (l > 0): # increment k on every fourth residual block k += 1 # increase depth by 1x1 Convolution case dimension shall change xshort = Conv1D(filters=convfilt * k, kernel_size=1, name='layer' + str(lcount))(x) lcount += 1 else: xshort = x # Left branch (convolutions) # notice the ordering of the operations has changed x1 = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_regularizer=keras.regularizers.l2(0.001), kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = BatchNormalization(name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_regularizer=keras.regularizers.l2(0.001), kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 if p: x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch: shortcut connection if p: x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(xshort) else: x2 = xshort # pool or identity # Merging branches x = keras.layers.add([x1, x2]) # change parameters p = not p # toggle pooling # if l == 5: # fms.append(x) # if l == 6: # fms.append(x) # fms.append(x) # fms.append(x) # x = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # x_reg = Conv1D(filters=convfilt * k, kernel_size=1, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # Final bit x = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) x_ecg = Flatten()(x) # bbox_num = 1 # # x2od2 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[0]) # out2 = Reshape((1136, bbox_num, 2), name='aux_output1')(x2od2) # # x2od3 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[1]) # out3 = Reshape((1136, bbox_num, 2), name='aux_output2')(x2od3) # # x2od4 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[2]) # out4 = Reshape((1136, bbox_num, 2), name='aux_output3')(x2od4) # # x2od5 = Conv1D(filters=bbox_num * 2, kernel_size=1, padding='same', strides=convstr, # kernel_initializer='he_normal')( # fms[3]) # out5 = Reshape((1136, bbox_num, 2), name='aux_output4')(x2od5) out1 = Dense(OUTPUT_CLASS, activation='softmax', name='main_output', kernel_regularizer=keras.regularizers.l2(0.001), )(x_ecg) model = Model(inputs=input1, outputs=out1) model.summary() return model def get_resnet34_se(self,input_shape,nb_classes): OUTPUT_CLASS = nb_classes # output classes input1 = Input(shape=input_shape, name='input_ecg') k = 1 # increment every 4th residual block p = True # pool toggle every other residual block (end with 2^8) convfilt = 64 encoder_confilt = 64 # encoder filters' num convstr = 1 ksize = 16 poolsize = 2 poolstr = 2 drop = 0.5 se_ratio = 8 # First convolutional block (conv,BN, relu) lcount = 0 x = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(input1) lcount += 1 squeeze = GlobalAveragePooling1D()(x) excitation = Dense(convfilt * k // se_ratio)(squeeze) excitation = Activation('relu')(excitation) excitation = Dense(convfilt * k)(excitation) excitation = Activation('sigmoid')(excitation) excitation = Reshape((1, convfilt * k))(excitation) x = Multiply()([x, excitation]) x = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) ## Second convolutional block (conv, BN, relu, dropout, conv) with residual net # Left branch (convolutions) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x) lcount += 1 x1 = BatchNormalization(name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 squeeze = GlobalAveragePooling1D()(x1) excitation = Dense(convfilt * k // se_ratio)(squeeze) excitation = Activation('relu')(excitation) excitation = Dense(convfilt * k)(excitation) excitation = Activation('sigmoid')(excitation) excitation = Reshape((1, convfilt * k))(excitation) x1 = Multiply()([x1, excitation]) x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch, shortcut branch pooling x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x) # Merge both branches x = keras.layers.add([x1, x2]) del x1, x2 ## Main loop p = not p for l in range(15): if (l % 4 == 0) and (l > 0): # increment k on every fourth residual block k += 1 # increase depth by 1x1 Convolution case dimension shall change xshort = Conv1D(filters=convfilt * k, kernel_size=1, name='layer' + str(lcount))(x) lcount += 1 else: xshort = x # Left branch (convolutions) # notice the ordering of the operations has changed x1 = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = BatchNormalization(name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 squeeze = GlobalAveragePooling1D()(x1) excitation = Dense(convfilt * k // se_ratio)(squeeze) excitation = Activation('relu')(excitation) excitation = Dense(convfilt * k)(excitation) excitation = Activation('sigmoid')(excitation) excitation = Reshape((1, convfilt * k))(excitation) x1 = Multiply()([x1, excitation]) if p: x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch: shortcut connection if p: x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(xshort) else: x2 = xshort # pool or identity # Merging branches x = keras.layers.add([x1, x2]) # change parameters p = not p # toggle pooling # x = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # x_reg = Conv1D(filters=convfilt * k, kernel_size=1, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # Final bit x = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) x_ecg = Flatten()(x) out1 = Dense(OUTPUT_CLASS, activation='softmax', name='main_output')(x_ecg) model = Model(inputs=input1, outputs=out1) return model def get_resnet34_BNGammaZero(self,input_shape,nb_classes): OUTPUT_CLASS = nb_classes # output classes input1 = Input(shape=input_shape, name='input_ecg') k = 1 # increment every 4th residual block p = True # pool toggle every other residual block (end with 2^8) convfilt = 64 encoder_confilt = 64 # encoder filters' num convstr = 1 ksize = 16 poolsize = 2 poolstr = 2 drop = 0.5 # First convolutional block (conv,BN, relu) lcount = 0 x = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(input1) lcount += 1 x = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) ## Second convolutional block (conv, BN, relu, dropout, conv) with residual net # Left branch (convolutions) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x) lcount += 1 x1 = BatchNormalization(name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch, shortcut branch pooling x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x) # Merge both branches x = keras.layers.add([x1, x2]) del x1, x2 ## Main loop p = not p for l in range(15): if (l % 4 == 0) and (l > 0): # increment k on every fourth residual block k += 1 # increase depth by 1x1 Convolution case dimension shall change xshort = Conv1D(filters=convfilt * k, kernel_size=1, name='layer' + str(lcount))(x) lcount += 1 else: xshort = x # Left branch (convolutions) # notice the ordering of the operations has changed x1 = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = BatchNormalization(name='layer' + str(lcount), gamma_initializer='zeros')(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 if p: x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch: shortcut connection if p: x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(xshort) else: x2 = xshort # pool or identity # Merging branches x = keras.layers.add([x1, x2]) # change parameters p = not p # toggle pooling # x = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # x_reg = Conv1D(filters=convfilt * k, kernel_size=1, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # Final bit x = BatchNormalization(name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) x_ecg = Flatten()(x) out1 = Dense(OUTPUT_CLASS, activation='softmax', name='main_output')(x_ecg) model = Model(inputs=input1, outputs=out1) return model def get_resnet34_BN2(self,input_shape,nb_classes): OUTPUT_CLASS = nb_classes # output classes input1 = Input(shape=input_shape, name='input_ecg') k = 1 # increment every 4th residual block p = True # pool toggle every other residual block (end with 2^8) convfilt = 64 encoder_confilt = 64 # encoder filters' num convstr = 1 ksize = 16 poolsize = 2 poolstr = 2 drop = 0.5 # First convolutional block (conv,BN, relu) lcount = 0 x = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(input1) lcount += 1 x = BatchNormalization(axis=1, name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) ## Second convolutional block (conv, BN, relu, dropout, conv) with residual net # Left branch (convolutions) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x) lcount += 1 x1 = BatchNormalization(axis=1, name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch, shortcut branch pooling x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x) # Merge both branches x = keras.layers.add([x1, x2]) del x1, x2 ## Main loop p = not p for l in range(15): if (l % 4 == 0) and (l > 0): # increment k on every fourth residual block k += 1 # increase depth by 1x1 Convolution case dimension shall change xshort = Conv1D(filters=convfilt * k, kernel_size=1, name='layer' + str(lcount))(x) lcount += 1 else: xshort = x # Left branch (convolutions) # notice the ordering of the operations has changed x1 = BatchNormalization(axis=1, name='layer' + str(lcount))(x) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 x1 = BatchNormalization(axis=1, name='layer' + str(lcount))(x1) lcount += 1 x1 = Activation('relu')(x1) x1 = Dropout(drop)(x1) x1 = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal', name='layer' + str(lcount))(x1) lcount += 1 if p: x1 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(x1) # Right branch: shortcut connection if p: x2 = MaxPooling1D(pool_size=poolsize, strides=poolstr, padding='same')(xshort) else: x2 = xshort # pool or identity # Merging branches x = keras.layers.add([x1, x2]) # change parameters p = not p # toggle pooling # x = Conv1D(filters=convfilt * k, kernel_size=ksize, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # x_reg = Conv1D(filters=convfilt * k, kernel_size=1, padding='same', strides=convstr, kernel_initializer='he_normal')(x) # Final bit x = BatchNormalization(axis=1, name='layer' + str(lcount))(x) lcount += 1 x = Activation('relu')(x) x_ecg = Flatten()(x) out1 = Dense(OUTPUT_CLASS, activation='softmax', name='main_output')(x_ecg) model = Model(inputs=input1, outputs=out1) return model

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null

0

7

613d079f3234ae0ba4d912bad1627e43b10ff7b1

1,580

py

Python

tests/bravo_api/disabled_test_qc_metrics_query.py

statgen/bravo_ui

78e365c9975626685b3801bbb5ac2020791be66b

[ "MIT" ]

null

tests/bravo_api/disabled_test_qc_metrics_query.py

statgen/bravo_ui

78e365c9975626685b3801bbb5ac2020791be66b

[ "MIT" ]

14

2021-07-12T19:04:56.000Z

2022-03-08T20:20:44.000Z

tests/bravo_api/disabled_test_qc_metrics_query.py

statgen/bravo_ui

78e365c9975626685b3801bbb5ac2020791be66b

[ "MIT" ]

null

import pytest @pytest.mark.integration def test_noargs_query(client, config): response = client.get('/qc') assert response.status_code == 200 payload = response.get_json() assert all(x in payload for x in ['data', 'total', 'limit', 'next', 'error']) assert payload['data'] is not None and len(payload['data']) > 0 assert payload['total'] is not None and payload['total'] == len(payload['data']) assert payload['limit'] is None assert payload['next'] is None assert payload['error'] is None @pytest.mark.integration def test_name_query(client, config): response = client.get('/qc?name=STZ') assert response.status_code == 200 payload = response.get_json() assert all(x in payload for x in ['data', 'total', 'limit', 'next', 'error']) assert payload['data'] is not None and len(payload['data']) == 1 assert payload['total'] is not None and payload['total'] == len(payload['data']) assert payload['limit'] is None assert payload['next'] is None assert payload['error'] is None @pytest.mark.integration def test_bad_name_query(client, config): response = client.get('/qc?name=badname') assert response.status_code == 200 payload = response.get_json() assert all(x in payload for x in ['data', 'total', 'limit', 'next', 'error']) assert payload['data'] is not None and len(payload['data']) == 0 assert payload['total'] is not None and payload['total'] == len(payload['data']) assert payload['limit'] is None assert payload['next'] is None assert payload['error'] is None

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0.186961

0.051774

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null

0

1

0

8

61b26a70355726fe4abf54d6cf6e2d6e65bdad16

3,926

py

Python

tests/test_trainset_building.py

bond005/runne_contrastive_ner

ec94cdde296ca4b394f65b206fdc0d9877a025ba

[ "Apache-2.0" ]

null

tests/test_trainset_building.py

bond005/runne_contrastive_ner

ec94cdde296ca4b394f65b206fdc0d9877a025ba

[ "Apache-2.0" ]

null

tests/test_trainset_building.py

bond005/runne_contrastive_ner

ec94cdde296ca4b394f65b206fdc0d9877a025ba

[ "Apache-2.0" ]

null

import os import sys import unittest import numpy as np try: from trainset_building.trainset_building import \ transform_indicator_to_classmatrix except: sys.path.append(os.path.join(os.path.dirname(__file__), '..')) from trainset_building.trainset_building import \ transform_indicator_to_classmatrix class TestTrainsetBuidling(unittest.TestCase): def test_transform_indicator_to_classmatrix_1(self): indicator = [0, 0, 0, 0, 0, 0, 2, 1, 0, 0, 0, 0] true_matrix = np.array( [ [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [0, 1, 0, 0, 0], [0, 0, 1, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0] ], dtype=np.float32 ) res = transform_indicator_to_classmatrix(indicator) self.assertIsInstance(res, np.ndarray) self.assertEqual(len(res.shape), 3) self.assertEqual(res.shape[0], 1) self.assertEqual(res.shape[1:], true_matrix.shape) for row_idx in range(true_matrix.shape[0]): for col_idx in range(true_matrix.shape[1]): msg = f'[{row_idx}, {col_idx}]' self.assertAlmostEqual(res[0, row_idx, col_idx], true_matrix[row_idx, col_idx], msg=msg) def test_transform_indicator_to_classmatrix_2(self): indicator = [0, 2, 1, 1, 0, 0, 2, 0, 0, 0, 0, 0] true_matrix = np.array( [ [1, 0, 0, 0, 0], [0, 1, 0, 0, 0], [0, 0, 0, 1, 0], [0, 0, 1, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [0, 0, 0, 0, 1], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0] ], dtype=np.float32 ) res = transform_indicator_to_classmatrix(indicator) self.assertIsInstance(res, np.ndarray) self.assertEqual(len(res.shape), 3) self.assertEqual(res.shape[0], 1) self.assertEqual(res.shape[1:], true_matrix.shape) for row_idx in range(true_matrix.shape[0]): for col_idx in range(true_matrix.shape[1]): msg = f'[{row_idx}, {col_idx}]' self.assertAlmostEqual(res[0, row_idx, col_idx], true_matrix[row_idx, col_idx], msg=msg) def test_transform_indicator_to_classmatrix_3(self): indicator = [0, 2, 2, 1, 0, 0, 2, 0, 0, 0, 0, 0] true_matrix = np.array( [ [1, 0, 0, 0, 0], [0, 0, 0, 0, 1], [0, 1, 0, 0, 0], [0, 0, 1, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [0, 0, 0, 0, 1], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0], [1, 0, 0, 0, 0] ], dtype=np.float32 ) res = transform_indicator_to_classmatrix(indicator) self.assertIsInstance(res, np.ndarray) self.assertEqual(len(res.shape), 3) self.assertEqual(res.shape[0], 1) self.assertEqual(res.shape[1:], true_matrix.shape) for row_idx in range(true_matrix.shape[0]): for col_idx in range(true_matrix.shape[1]): msg = f'[{row_idx}, {col_idx}]' self.assertAlmostEqual(res[0, row_idx, col_idx], true_matrix[row_idx, col_idx], msg=msg) if __name__ == '__main__': unittest.main(verbosity=2)

35.690909

78

0.457718

530

3,926

3.230189

0.103774

0.149533

0.155958

0.128505

0.873248

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0.846963

0.846379

0

0.10475

0.399389

3,926

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0

null

0

1

0

1

0

null

0

7

f6694f267c98f33fa7a3cd0e90b698ba6b199427

171

py

Python

plasmapy/plasma/__init__.py

seanjunheng2/PlasmaPy

7b4e4aaf8b03d88b654456bca881329ade09e377

[ "BSD-2-Clause", "MIT", "BSD-2-Clause-Patent", "BSD-1-Clause", "BSD-3-Clause" ]

429

2016-10-31T19:40:32.000Z

2022-03-25T12:27:11.000Z

plasmapy/plasma/__init__.py

RAJAGOPALAN-GANGADHARAN/PlasmaPy

6df9583cc47375687a07300c0aa11ba31634d770

[ "BSD-2-Clause", "MIT", "BSD-2-Clause-Patent", "BSD-1-Clause", "BSD-3-Clause" ]

1,400

2015-11-24T23:00:44.000Z

2022-03-30T21:03:25.000Z

plasmapy/plasma/__init__.py

RAJAGOPALAN-GANGADHARAN/PlasmaPy

6df9583cc47375687a07300c0aa11ba31634d770

[ "BSD-2-Clause", "MIT", "BSD-2-Clause-Patent", "BSD-1-Clause", "BSD-3-Clause" ]

289

2015-11-24T18:54:57.000Z

2022-03-18T17:26:59.000Z

from plasmapy.plasma import exceptions, grids, sources from plasmapy.plasma.plasma_base import BasePlasma, GenericPlasma from plasmapy.plasma.plasma_factory import Plasma

42.75

65

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22

171

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171

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true

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1

0

1

0

null

0

1

0

1

0

1

0

8

9cbad07bdabbb3aaa795701e65bdbed524783a96

908

py

Python

catfood/apps/pulls/models.py

dnsv/catfood-api

5b89940a959a44eb3187ddb4d7bddc4e3dd32dbf

[ "MIT" ]

null

catfood/apps/pulls/models.py

dnsv/catfood-api

5b89940a959a44eb3187ddb4d7bddc4e3dd32dbf

[ "MIT" ]

null

catfood/apps/pulls/models.py

dnsv/catfood-api

5b89940a959a44eb3187ddb4d7bddc4e3dd32dbf

[ "MIT" ]

null

from django.db import models class PinnedPullRequest(models.Model): ext_repository_id = models.PositiveIntegerField() ext_pull_request_id = models.PositiveIntegerField() user = models.ForeignKey('auth.User', on_delete=models.CASCADE, related_name='+') class Meta: db_table = 'pulls_pinned_pull_request' unique_together = ['ext_repository_id', 'ext_pull_request_id', 'user'] class PinnedComment(models.Model): ext_repository_id = models.PositiveIntegerField() ext_pull_request_id = models.PositiveIntegerField() ext_comment_id = models.PositiveIntegerField() user = models.ForeignKey('auth.User', on_delete=models.CASCADE, related_name='+') class Meta: db_table = 'pulls_pinned_comment' unique_together = [ 'ext_repository_id', 'ext_pull_request_id', 'ext_comment_id', 'user', ]

32.428571

85

0.692731

100

908

5.92

0.3

0.067568

0.236486

0.108108

0.810811

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0

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908

27

86

33.62963

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false

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0

null

0

1

0

1

0

null

0

7

9ce84a5f6aaa4699ac5218757db9fc528d02b965

2,593

py

Python

tests/test_bank_account.py

michaeltcoelho/pagarme.py

469fdd6e61e7c24a9eaf23d474d25316c3b5450b

[ "MIT" ]

3

2015-05-26T13:26:29.000Z

2015-07-13T16:37:09.000Z

tests/test_bank_account.py

michaeltcoelho/pagarme.py

469fdd6e61e7c24a9eaf23d474d25316c3b5450b

[ "MIT" ]

2

2019-10-22T23:20:02.000Z

2021-04-30T20:30:57.000Z

tests/test_bank_account.py

michaeltcoelho/pagarme.py

469fdd6e61e7c24a9eaf23d474d25316c3b5450b

[ "MIT" ]

1

2016-03-01T14:02:36.000Z

# coding:utf-8 import unittest from pagarme.resources import BankAccount class BankAccountTest(unittest.TestCase): def setUp(self): self.bank_account = { 'bank_code': '341', 'agencia': '0932', 'agencia_dv': '5', 'conta': '58054', 'conta_dv': '1', 'document_number': '26268738888', 'legal_name': 'API BANK ACCOUNT' } def test_create(self): bank_account = BankAccount(self.bank_account) bank_account.create() self.assertEqual(bank_account.success(), True) self.assertEqual(bank_account.bank_code, self.bank_account['bank_code']) self.assertEqual(bank_account.agencia, self.bank_account['agencia']) self.assertEqual(bank_account.agencia_dv, self.bank_account['agencia_dv']) self.assertEqual(bank_account.conta, self.bank_account['conta']) self.assertEqual(bank_account.conta_dv, self.bank_account['conta_dv']) self.assertEqual(bank_account.document_number, self.bank_account['document_number']) self.assertEqual(bank_account.legal_name, self.bank_account['legal_name']) def test_find(self): bank_account = BankAccount.find(1714444) self.assertEqual(bank_account.success(), True) self.assertEqual(bank_account.bank_code, self.bank_account['bank_code']) self.assertEqual(bank_account.agencia, self.bank_account['agencia']) self.assertEqual(bank_account.agencia_dv, self.bank_account['agencia_dv']) self.assertEqual(bank_account.conta, self.bank_account['conta']) self.assertEqual(bank_account.conta_dv, self.bank_account['conta_dv']) self.assertEqual(bank_account.document_number, self.bank_account['document_number']) self.assertEqual(bank_account.legal_name, self.bank_account['legal_name']) def test_all(self): bank_accounts = BankAccount.all() bank_account = bank_accounts[0] self.assertEqual(bank_account.success(), True) self.assertEqual(bank_account.bank_code, self.bank_account['bank_code']) self.assertEqual(bank_account.agencia, self.bank_account['agencia']) self.assertEqual(bank_account.agencia_dv, self.bank_account['agencia_dv']) self.assertEqual(bank_account.conta, self.bank_account['conta']) self.assertEqual(bank_account.conta_dv, self.bank_account['conta_dv']) self.assertEqual(bank_account.document_number, self.bank_account['document_number']) self.assertEqual(bank_account.legal_name, self.bank_account['legal_name'])

45.491228

92

0.702661

313

2,593

5.530351

0.134185

0.330445

0.216638

0.360485

0.787406

0.774119

0

0.015918

0.176244

2,593

56

93

46.303571

0.794476

0.004628

0

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0

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0

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1

0.088889

false

0

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0

null

1

0

1

0

null

0

1

0

9

140586cfee030893bd38b0bd97e3dd70d022c05c

221

py

Python

nfinder/plugins/napari.py

santi-rodriguez/nfinder

3284b558a7336c0a56c83156c01b1ed55e3eefb0

[ "MIT" ]

3

2022-02-03T23:20:20.000Z

2022-02-16T03:10:15.000Z

nfinder/plugins/napari.py

santi-rodriguez/nfinder

3284b558a7336c0a56c83156c01b1ed55e3eefb0

[ "MIT" ]

null

nfinder/plugins/napari.py

santi-rodriguez/nfinder

3284b558a7336c0a56c83156c01b1ed55e3eefb0

[ "MIT" ]

1

2022-03-24T21:28:09.000Z

from nfinder.plugins.find import find from napari_plugin_engine import napari_hook_implementation @napari_hook_implementation def napari_experimental_provide_dock_widget(): return (find, {'name': 'Neighbors finder'})

36.833333

59

0.837104

28

221

6.25

0.678571

0.114286

0.274286

0

0.090498

221

6

60

36.833333

0.870647

0

0.09009

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1

0.2

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0.2

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0

1

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null

0

1

0

1

0

7

1429f4745e4eba465c0216b3d9a278f8fcb68926

167

py

Python

tests/unittests/test_landuse_classification.py

openEOPlatform/openeo-classification

2e593a0760c210d78454a6a4cd54e0c78cda8b22

[ "Apache-2.0" ]

null

tests/unittests/test_landuse_classification.py

openEOPlatform/openeo-classification

2e593a0760c210d78454a6a4cd54e0c78cda8b22

[ "Apache-2.0" ]

2

2022-03-31T12:19:19.000Z

2022-03-31T14:35:39.000Z

tests/unittests/test_landuse_classification.py

openEOPlatform/openeo-classification

2e593a0760c210d78454a6a4cd54e0c78cda8b22

[ "Apache-2.0" ]

null

from openeo_classification.landuse_classification import _get_epsg def test_get_epsg(): assert _get_epsg(50, 32) == 32632 assert _get_epsg(-50, 32) == 32732

23.857143

66

0.754491

24

167

4.833333

0.583333

0.241379

0.224138

0.258621

0.293103

0

0.12766

0.155689

167

6

67

27.833333

0.695035

0

0.5

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0.25

true

0

0.25

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0.5

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1

0

null

0

1

0

1

0

8

142efab7f0314725caf9378c1b8b0a78c4e8c142

2,702

py

Python

apps/project/migrations/0007_auto_20190823_1550.py

gvizquel/pyerp

c859f7293cabd1003f79112463cee93ac89fccba

[ "MIT" ]

null

apps/project/migrations/0007_auto_20190823_1550.py

gvizquel/pyerp

c859f7293cabd1003f79112463cee93ac89fccba

[ "MIT" ]

11

2020-06-05T22:50:37.000Z

2022-02-10T09:05:56.000Z

apps/project/migrations/0007_auto_20190823_1550.py

gvizquel/pyerp

c859f7293cabd1003f79112463cee93ac89fccba

[ "MIT" ]

null

# Generated by Django 2.2.4 on 2019-08-23 19:50 from django.db import migrations, models class Migration(migrations.Migration): dependencies = [ ('project', '0006_pytask_project_id'), ] operations = [ migrations.AddField( model_name='pybug', name='active', field=models.BooleanField(blank=True, default=True, null=True), ), migrations.AddField( model_name='pybug', name='fc', field=models.DateTimeField(auto_now_add=True, null=True), ), migrations.AddField( model_name='pybug', name='fm', field=models.DateTimeField(auto_now=True, null=True), ), migrations.AddField( model_name='pybug', name='uc', field=models.IntegerField(blank=True, null=True), ), migrations.AddField( model_name='pybug', name='um', field=models.IntegerField(blank=True, null=True), ), migrations.AddField( model_name='pyproject', name='active', field=models.BooleanField(blank=True, default=True, null=True), ), migrations.AddField( model_name='pyproject', name='fc', field=models.DateTimeField(auto_now_add=True, null=True), ), migrations.AddField( model_name='pyproject', name='fm', field=models.DateTimeField(auto_now=True, null=True), ), migrations.AddField( model_name='pyproject', name='uc', field=models.IntegerField(blank=True, null=True), ), migrations.AddField( model_name='pyproject', name='um', field=models.IntegerField(blank=True, null=True), ), migrations.AddField( model_name='pytask', name='active', field=models.BooleanField(blank=True, default=True, null=True), ), migrations.AddField( model_name='pytask', name='fc', field=models.DateTimeField(auto_now_add=True, null=True), ), migrations.AddField( model_name='pytask', name='fm', field=models.DateTimeField(auto_now=True, null=True), ), migrations.AddField( model_name='pytask', name='uc', field=models.IntegerField(blank=True, null=True), ), migrations.AddField( model_name='pytask', name='um', field=models.IntegerField(blank=True, null=True), ), ]

30.359551

75

0.534049

254

2,702

5.574803

0.177165

0.190678

0.243644

0.286017

0.894774

0.872175

0.79661

0

0.010704

0.343079

2,702

88

76

30.704545

0.787042

0.016654

0

0.914634

1

0

0.064407

0.008286

0

1

0

false

0

0.012195

0

0.04878

0

null

0

1

0

1

0

null

0

10

143812cd34df00be8eb35c4da9070c598812ff8a

68,091

py

Python

kleister/api/user_api.py

kleister/kleister-python

321120b96db59e20b30853b44af3bec6b667db05

[ "Apache-2.0" ]

null

kleister/api/user_api.py

kleister/kleister-python

321120b96db59e20b30853b44af3bec6b667db05

[ "Apache-2.0" ]

1

2018-03-31T12:33:37.000Z

kleister/api/user_api.py

kleister/kleister-python

321120b96db59e20b30853b44af3bec6b667db05

[ "Apache-2.0" ]

null

""" Kleister OpenAPI API definition for Kleister, manage mod packs for Minecraft # noqa: E501 The version of the OpenAPI document: 1.0.0-alpha1 Generated by: https://openapi-generator.tech """ import re # noqa: F401 import sys # noqa: F401 from kleister.api_client import ApiClient, Endpoint as _Endpoint from kleister.model_utils import ( # noqa: F401 check_allowed_values, check_validations, date, datetime, file_type, none_type, validate_and_convert_types, ) from kleister.model.general_error import GeneralError from kleister.model.team_user import TeamUser from kleister.model.user import User from kleister.model.user_mod import UserMod from kleister.model.user_mod_params import UserModParams from kleister.model.user_pack import UserPack from kleister.model.user_pack_params import UserPackParams from kleister.model.user_team_params import UserTeamParams from kleister.model.validation_error import ValidationError class UserApi(object): """NOTE: This class is auto generated by OpenAPI Generator Ref: https://openapi-generator.tech Do not edit the class manually. """ def __init__(self, api_client=None): if api_client is None: api_client = ApiClient() self.api_client = api_client def __append_user_to_mod(self, user_id, user_mod, **kwargs): """Assign a mod to user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.append_user_to_mod(user_id, user_mod, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug user_mod (UserModParams): The user mod data to assign Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: GeneralError If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id kwargs["user_mod"] = user_mod return self.call_with_http_info(**kwargs) self.append_user_to_mod = _Endpoint( settings={ "response_type": (GeneralError,), "auth": [], "endpoint_path": "/users/{user_id}/mods", "operation_id": "append_user_to_mod", "http_method": "POST", "servers": None, }, params_map={ "all": [ "user_id", "user_mod", ], "required": [ "user_id", "user_mod", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), "user_mod": (UserModParams,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", "user_mod": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__append_user_to_mod, ) def __append_user_to_pack(self, user_id, user_pack, **kwargs): """Assign a pack to user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.append_user_to_pack(user_id, user_pack, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug user_pack (UserPackParams): The user pack data to assign Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: GeneralError If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id kwargs["user_pack"] = user_pack return self.call_with_http_info(**kwargs) self.append_user_to_pack = _Endpoint( settings={ "response_type": (GeneralError,), "auth": [], "endpoint_path": "/users/{user_id}/packs", "operation_id": "append_user_to_pack", "http_method": "POST", "servers": None, }, params_map={ "all": [ "user_id", "user_pack", ], "required": [ "user_id", "user_pack", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), "user_pack": (UserPackParams,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", "user_pack": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__append_user_to_pack, ) def __append_user_to_team(self, user_id, user_team, **kwargs): """Assign a team to user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.append_user_to_team(user_id, user_team, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug user_team (UserTeamParams): The user team data to assign Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: GeneralError If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id kwargs["user_team"] = user_team return self.call_with_http_info(**kwargs) self.append_user_to_team = _Endpoint( settings={ "response_type": (GeneralError,), "auth": [], "endpoint_path": "/users/{user_id}/teams", "operation_id": "append_user_to_team", "http_method": "POST", "servers": None, }, params_map={ "all": [ "user_id", "user_team", ], "required": [ "user_id", "user_team", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), "user_team": (UserTeamParams,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", "user_team": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__append_user_to_team, ) def __create_user(self, user, **kwargs): """Create a new user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.create_user(user, async_req=True) >>> result = thread.get() Args: user (User): The user data to create Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: User If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user"] = user return self.call_with_http_info(**kwargs) self.create_user = _Endpoint( settings={ "response_type": (User,), "auth": [], "endpoint_path": "/users", "operation_id": "create_user", "http_method": "POST", "servers": None, }, params_map={ "all": [ "user", ], "required": [ "user", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user": (User,), }, "attribute_map": {}, "location_map": { "user": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__create_user, ) def __delete_user(self, user_id, **kwargs): """Delete a specific user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.delete_user(user_id, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: GeneralError If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id return self.call_with_http_info(**kwargs) self.delete_user = _Endpoint( settings={ "response_type": (GeneralError,), "auth": [], "endpoint_path": "/users/{user_id}", "operation_id": "delete_user", "http_method": "DELETE", "servers": None, }, params_map={ "all": [ "user_id", ], "required": [ "user_id", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": [], }, api_client=api_client, callable=__delete_user, ) def __delete_user_from_mod(self, user_id, user_mod, **kwargs): """Remove a mod from user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.delete_user_from_mod(user_id, user_mod, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug user_mod (UserModParams): The user mod data to delete Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: GeneralError If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id kwargs["user_mod"] = user_mod return self.call_with_http_info(**kwargs) self.delete_user_from_mod = _Endpoint( settings={ "response_type": (GeneralError,), "auth": [], "endpoint_path": "/users/{user_id}/mods", "operation_id": "delete_user_from_mod", "http_method": "DELETE", "servers": None, }, params_map={ "all": [ "user_id", "user_mod", ], "required": [ "user_id", "user_mod", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), "user_mod": (UserModParams,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", "user_mod": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__delete_user_from_mod, ) def __delete_user_from_pack(self, user_id, user_pack, **kwargs): """Remove a pack from user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.delete_user_from_pack(user_id, user_pack, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug user_pack (UserPackParams): The user pack data to delete Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: GeneralError If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id kwargs["user_pack"] = user_pack return self.call_with_http_info(**kwargs) self.delete_user_from_pack = _Endpoint( settings={ "response_type": (GeneralError,), "auth": [], "endpoint_path": "/users/{user_id}/packs", "operation_id": "delete_user_from_pack", "http_method": "DELETE", "servers": None, }, params_map={ "all": [ "user_id", "user_pack", ], "required": [ "user_id", "user_pack", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), "user_pack": (UserPackParams,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", "user_pack": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__delete_user_from_pack, ) def __delete_user_from_team(self, user_id, user_team, **kwargs): """Remove a team from user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.delete_user_from_team(user_id, user_team, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug user_team (UserTeamParams): The user team data to delete Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: GeneralError If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id kwargs["user_team"] = user_team return self.call_with_http_info(**kwargs) self.delete_user_from_team = _Endpoint( settings={ "response_type": (GeneralError,), "auth": [], "endpoint_path": "/users/{user_id}/teams", "operation_id": "delete_user_from_team", "http_method": "DELETE", "servers": None, }, params_map={ "all": [ "user_id", "user_team", ], "required": [ "user_id", "user_team", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), "user_team": (UserTeamParams,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", "user_team": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__delete_user_from_team, ) def __list_user_mods(self, user_id, **kwargs): """Fetch all mods assigned to user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.list_user_mods(user_id, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: [UserMod] If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id return self.call_with_http_info(**kwargs) self.list_user_mods = _Endpoint( settings={ "response_type": ([UserMod],), "auth": [], "endpoint_path": "/users/{user_id}/mods", "operation_id": "list_user_mods", "http_method": "GET", "servers": None, }, params_map={ "all": [ "user_id", ], "required": [ "user_id", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": [], }, api_client=api_client, callable=__list_user_mods, ) def __list_user_packs(self, user_id, **kwargs): """Fetch all packs assigned to user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.list_user_packs(user_id, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: [UserPack] If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id return self.call_with_http_info(**kwargs) self.list_user_packs = _Endpoint( settings={ "response_type": ([UserPack],), "auth": [], "endpoint_path": "/users/{user_id}/packs", "operation_id": "list_user_packs", "http_method": "GET", "servers": None, }, params_map={ "all": [ "user_id", ], "required": [ "user_id", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": [], }, api_client=api_client, callable=__list_user_packs, ) def __list_user_teams(self, user_id, **kwargs): """Fetch all teams assigned to user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.list_user_teams(user_id, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: [TeamUser] If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id return self.call_with_http_info(**kwargs) self.list_user_teams = _Endpoint( settings={ "response_type": ([TeamUser],), "auth": [], "endpoint_path": "/users/{user_id}/teams", "operation_id": "list_user_teams", "http_method": "GET", "servers": None, }, params_map={ "all": [ "user_id", ], "required": [ "user_id", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": [], }, api_client=api_client, callable=__list_user_teams, ) def __list_users(self, **kwargs): """Fetch all available users # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.list_users(async_req=True) >>> result = thread.get() Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: [User] If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") return self.call_with_http_info(**kwargs) self.list_users = _Endpoint( settings={ "response_type": ([User],), "auth": [], "endpoint_path": "/users", "operation_id": "list_users", "http_method": "GET", "servers": None, }, params_map={ "all": [], "required": [], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": {}, "attribute_map": {}, "location_map": {}, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": [], }, api_client=api_client, callable=__list_users, ) def __permit_user_mod(self, user_id, user_mod, **kwargs): """Update mod perms for user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.permit_user_mod(user_id, user_mod, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug user_mod (UserModParams): The user mod data to update Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: GeneralError If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id kwargs["user_mod"] = user_mod return self.call_with_http_info(**kwargs) self.permit_user_mod = _Endpoint( settings={ "response_type": (GeneralError,), "auth": [], "endpoint_path": "/users/{user_id}/mods", "operation_id": "permit_user_mod", "http_method": "PUT", "servers": None, }, params_map={ "all": [ "user_id", "user_mod", ], "required": [ "user_id", "user_mod", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), "user_mod": (UserModParams,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", "user_mod": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__permit_user_mod, ) def __permit_user_pack(self, user_id, user_pack, **kwargs): """Update pack perms for user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.permit_user_pack(user_id, user_pack, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug user_pack (UserPackParams): The user pack data to update Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: GeneralError If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id kwargs["user_pack"] = user_pack return self.call_with_http_info(**kwargs) self.permit_user_pack = _Endpoint( settings={ "response_type": (GeneralError,), "auth": [], "endpoint_path": "/users/{user_id}/packs", "operation_id": "permit_user_pack", "http_method": "PUT", "servers": None, }, params_map={ "all": [ "user_id", "user_pack", ], "required": [ "user_id", "user_pack", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), "user_pack": (UserPackParams,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", "user_pack": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__permit_user_pack, ) def __permit_user_team(self, user_id, user_team, **kwargs): """Update team perms for user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.permit_user_team(user_id, user_team, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug user_team (UserTeamParams): The user team data to update Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: GeneralError If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id kwargs["user_team"] = user_team return self.call_with_http_info(**kwargs) self.permit_user_team = _Endpoint( settings={ "response_type": (GeneralError,), "auth": [], "endpoint_path": "/users/{user_id}/teams", "operation_id": "permit_user_team", "http_method": "PUT", "servers": None, }, params_map={ "all": [ "user_id", "user_team", ], "required": [ "user_id", "user_team", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), "user_team": (UserTeamParams,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", "user_team": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__permit_user_team, ) def __show_user(self, user_id, **kwargs): """Fetch a specific user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.show_user(user_id, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: User If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id return self.call_with_http_info(**kwargs) self.show_user = _Endpoint( settings={ "response_type": (User,), "auth": [], "endpoint_path": "/users/{user_id}", "operation_id": "show_user", "http_method": "GET", "servers": None, }, params_map={ "all": [ "user_id", ], "required": [ "user_id", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": [], }, api_client=api_client, callable=__show_user, ) def __update_user(self, user_id, user, **kwargs): """Update a specific user # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.update_user(user_id, user, async_req=True) >>> result = thread.get() Args: user_id (str): A user UUID or slug user (User): The user data to update Keyword Args: _return_http_data_only (bool): response data without head status code and headers. Default is True. _preload_content (bool): if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. _request_timeout (float/tuple): timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. Default is None. _check_input_type (bool): specifies if type checking should be done one the data sent to the server. Default is True. _check_return_type (bool): specifies if type checking should be done one the data received from the server. Default is True. _host_index (int/None): specifies the index of the server that we want to use. Default is read from the configuration. async_req (bool): execute request asynchronously Returns: User If the method is called asynchronously, returns the request thread. """ kwargs["async_req"] = kwargs.get("async_req", False) kwargs["_return_http_data_only"] = kwargs.get( "_return_http_data_only", True ) kwargs["_preload_content"] = kwargs.get("_preload_content", True) kwargs["_request_timeout"] = kwargs.get("_request_timeout", None) kwargs["_check_input_type"] = kwargs.get("_check_input_type", True) kwargs["_check_return_type"] = kwargs.get("_check_return_type", True) kwargs["_host_index"] = kwargs.get("_host_index") kwargs["user_id"] = user_id kwargs["user"] = user return self.call_with_http_info(**kwargs) self.update_user = _Endpoint( settings={ "response_type": (User,), "auth": [], "endpoint_path": "/users/{user_id}", "operation_id": "update_user", "http_method": "PUT", "servers": None, }, params_map={ "all": [ "user_id", "user", ], "required": [ "user_id", "user", ], "nullable": [], "enum": [], "validation": [], }, root_map={ "validations": {}, "allowed_values": {}, "openapi_types": { "user_id": (str,), "user": (User,), }, "attribute_map": { "user_id": "user_id", }, "location_map": { "user_id": "path", "user": "body", }, "collection_format_map": {}, }, headers_map={ "accept": ["application/json"], "content_type": ["application/json"], }, api_client=api_client, callable=__update_user, )

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8

144a9fad66a1b2c94142ea558cc6bd3f950acf52

5,420

py

Python

resnet/models/multi_pass_model_tests.py

renmengye/rev-resnet-public

5486f6147bb1b61577e8be5db74461b07256bd3d

[ "MIT" ]

357

2017-07-18T01:31:03.000Z

2022-03-31T13:12:10.000Z

resnet/models/multi_pass_model_tests.py

renmengye/rev-resnet-public

5486f6147bb1b61577e8be5db74461b07256bd3d

[ "MIT" ]

7

2017-07-18T13:38:24.000Z

2020-03-06T16:45:31.000Z

resnet/models/multi_pass_model_tests.py

renmengye/rev-resnet-public

5486f6147bb1b61577e8be5db74461b07256bd3d

[ "MIT" ]

60

2017-07-18T04:18:24.000Z

2021-10-06T06:54:11.000Z

"""Unit tests for multi-pass model.""" from __future__ import (absolute_import, division, print_function, unicode_literals) import os import numpy as np import tensorflow as tf from resnet.configs import get_config from resnet.configs import test_configs from resnet.models.model_factory import get_model, get_multi_gpu_model from resnet.models.multi_pass_model import MultiPassModel from resnet.models.resnet_model import ResNetModel from resnet.utils import logger log = logger.get() FOLDER = "tmp" CKPT_FNAME = os.path.join(FOLDER, "test_multi_pass.ckpt") class MultiPassModelTests(tf.test.TestCase): def _test_single_pass(self, method): config = get_config("resnet-test") config.momentum = 0.0 config.base_learn_rate = 1e-1 np.random.seed(0) BSIZE = config.batch_size xval = np.random.uniform( -1.0, 1.0, [BSIZE, config.height, config.width, config.num_channel]).astype(np.float32) yval = np.floor(np.random.uniform(0, 9.9, [BSIZE])).astype(np.int32) # Run multi tower version. with tf.Graph().as_default(), self.test_session( ) as sess, log.verbose_level(2): x = tf.constant(xval) y = tf.constant(yval) with tf.variable_scope("Model", reuse=None): m1 = get_multi_gpu_model( "resnet", config, num_replica=2, inp=x, label=y) sess.run(tf.global_variables_initializer()) m1.assign_lr(sess, config.base_learn_rate) tvars = tf.trainable_variables() tvars_str = map(lambda x: x.name, tvars) saver = tf.train.Saver(tvars) if not os.path.exists(FOLDER): os.makedirs(FOLDER) saver.save(sess, CKPT_FNAME) m1.train_step(sess) tvars_v1 = sess.run(tvars) tvars_d1 = dict(zip(tvars_str, tvars_v1)) # Run MultiPassModel. with tf.Graph().as_default(), self.test_session( ) as sess, log.verbose_level(2): with tf.variable_scope("Model", reuse=True): m2 = MultiPassModel( config, ResNetModel, num_passes=2, debug=True, inp=x, label=y, aggregate_method=method) tvars = tf.trainable_variables() saver = tf.train.Saver(tvars) sess.run(tf.global_variables_initializer()) saver.restore(sess, CKPT_FNAME) m2.assign_lr(sess, config.base_learn_rate) m2.train_step(sess) tvars_v2 = sess.run(tvars) tvars_d2 = dict(zip(tvars_str, tvars_v2)) for vv in tvars_str: log.info(vv, verbose=2) np.testing.assert_allclose( tvars_d1[vv], tvars_d2[vv], rtol=1e-4, atol=1e-6) log.info("...ok", verbose=2) def test_single_pass_cumsum(self): """Tests multi-pass is the same with multi-tower, single train step, using cumsum method.""" self._test_single_pass("cumsum") def test_single_pass_storage(self): """Tests multi-pass is the same with multi-tower, single train step, using storage method.""" self._test_single_pass("storage") def _test_multi_pass(self, method): config = get_config("resnet-test") config.momentum = 0.0 config.base_learn_rate = 1e-1 np.random.seed(0) BSIZE = config.batch_size xval = np.random.uniform( -1.0, 1.0, [BSIZE, config.height, config.width, config.num_channel]).astype(np.float32) yval = np.floor(np.random.uniform(0, 9.9, [BSIZE])).astype(np.int32) # Run multi tower version. with tf.Graph().as_default(), self.test_session( ) as sess, log.verbose_level(2): x = tf.constant(xval) y = tf.constant(yval) with tf.variable_scope("Model", reuse=None): m1 = get_multi_gpu_model( "resnet", config, num_replica=2, inp=x, label=y) sess.run(tf.global_variables_initializer()) m1.assign_lr(sess, config.base_learn_rate) tvars = tf.trainable_variables() tvars_str = map(lambda x: x.name, tvars) saver = tf.train.Saver(tvars) if not os.path.exists(FOLDER): os.makedirs(FOLDER) saver.save(sess, CKPT_FNAME) for ii in range(3): m1.train_step(sess) tvars_v1 = sess.run(tvars) tvars_d1 = dict(zip(tvars_str, tvars_v1)) # Run MultiPassModel. with tf.Graph().as_default(), self.test_session( ) as sess, log.verbose_level(2): with tf.variable_scope("Model", reuse=True): m2 = MultiPassModel( config, ResNetModel, num_passes=2, inp=x, label=y, aggregate_method=method) tvars = tf.trainable_variables() saver = tf.train.Saver(tvars) sess.run(tf.global_variables_initializer()) m2.assign_lr(sess, config.base_learn_rate) saver.restore(sess, CKPT_FNAME) for ii in range(3): m2.train_step(sess) tvars_v2 = sess.run(tvars) tvars_d2 = dict(zip(tvars_str, tvars_v2)) for vv in tvars_str: np.testing.assert_allclose( tvars_d1[vv], tvars_d2[vv], rtol=1e-4, atol=1e-6) def test_multi_pass_cumsum(self): """Tests multi-pass is the same with multi-tower, multi train step, using cumsum method.""" self._test_multi_pass("cumsum") def test_multi_pass_storage(self): """Tests multi-pass is the same with multi-tower, multi train step, using storage method.""" self._test_multi_pass("storage") if __name__ == "__main__": tf.test.main()

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null

0

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0

8

145b7b8e5fae140bc71bcfe593b1ff7a2e35853a

1,074

py

Python

unit-tests/test_dim-color.py

dawidl022/dim-hex-color

cb21bdfb8885c11afb9fa2c2abf20f3ed33a9dc5

[ "MIT" ]

null

unit-tests/test_dim-color.py

dawidl022/dim-hex-color

cb21bdfb8885c11afb9fa2c2abf20f3ed33a9dc5

[ "MIT" ]

null

unit-tests/test_dim-color.py

dawidl022/dim-hex-color

cb21bdfb8885c11afb9fa2c2abf20f3ed33a9dc5

[ "MIT" ]

null

import unittest import dim_color class TestDim(unittest.TestCase): def test_dim_color(self): self.assertEqual(dim_color.dim_color("000"), "000") self.assertEqual(dim_color.dim_color("#000"), "#000") self.assertEqual(dim_color.dim_color("000000"), "000000") self.assertEqual(dim_color.dim_color("#000000"), "#000000") self.assertEqual(dim_color.dim_color("000"), "000") def test_check_argv(self): self.assertEqual(dim_color.check_argv([dim_color.__file__, "#"]), (False, dim_color.INVALID_VALUE_MSG)) self.assertEqual(dim_color.check_argv([dim_color.__file__, "#123"]), (True, "#123")) self.assertEqual(dim_color.check_argv([dim_color.__file__, "#0001233"]), (False, dim_color.INVALID_VALUE_MSG)) self.assertEqual(dim_color.check_argv([dim_color.__file__, "#000123"]), (True, "#000123")) self.assertEqual(dim_color.check_argv([dim_color.__file__]), (False, dim_color.INVALID_ARGS_MSG)) if __name__ == "__main__": # allows test to run directly from script unittest.main()

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1

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null

0

1

0

9

1463ede2b720268d5b3ec58dc7c3207812dd39ad

2,875

py

Python

tests/services/test_account_service.py

michaelizergit/nflpool

157a00a1807aaff3ecc08f6cdf3075c2de90a295

[ "MIT" ]

9

2016-12-25T16:42:20.000Z

2021-03-19T02:52:55.000Z

tests/services/test_account_service.py

michaelizergit/nflpool

157a00a1807aaff3ecc08f6cdf3075c2de90a295

[ "MIT" ]

64

2017-08-20T14:54:05.000Z

2020-03-11T19:07:18.000Z

tests/services/test_account_service.py

michaelizergit/nflpool

157a00a1807aaff3ecc08f6cdf3075c2de90a295

[ "MIT" ]

6

2019-01-11T01:20:57.000Z

2021-03-19T02:52:57.000Z

import unittest import unittest.mock import pyramid.testing class AccountControllerTests(unittest.TestCase): def test_register_validation_valid(self): # 3 A's of test: Arrange, Act, then Assert # Arrange from nflpool.viewmodels.register_viewmodel import RegisterViewModel data = { "first_name": "Paul", "last_name": "Cutler", "email": "paul.r.cutler@gmail.com", "password": "Aa123456@", "confirm_password": "Aa123456@", } # noinspection PyTypeChecker vm = RegisterViewModel() vm.from_dict(data) # Act target = "nflpool.services.account_service.AccountService.find_account_by_email" with unittest.mock.patch(target, return_value=None): vm.validate() # Assert: self.assertIsNone(vm.error) def test_register_validation_existing_user(self): # Arrange from nflpool.viewmodels.register_viewmodel import RegisterViewModel from nflpool.data.account import Account data = { "first_name": "Paul", "last_name": "Cutler", "email": "paul.r.cutler@gmail.com", "password": "Aa123456@", "confirm_password": "Aa123456@", } # noinspection PyTypeChecker vm = RegisterViewModel() vm.from_dict(data) # Act target = "nflpool.services.account_service.AccountService.find_account_by_email" with unittest.mock.patch(target, return_value=Account()): vm.validate() # Assert: self.assertIsNotNone(vm.error) self.assertTrue("exist" in vm.error) def test_register_validation_no_password(self): # Arrange from nflpool.viewmodels.register_viewmodel import RegisterViewModel data = { "first_name": "Paul", "last_name": "Cutler", "email": "paul.r.cutler@gmail.com", "password": "", "confirm_password": "", } # noinspection PyTypeChecker vm = RegisterViewModel() vm.from_dict(data) # Act vm.validate() # Assert: self.assertIsNotNone(vm.error) self.assertTrue("password" in vm.error) def test_register_validation_no_email(self): # Arrange from nflpool.viewmodels.register_viewmodel import RegisterViewModel data = { "first_name": "Paul", "last_name": "Cutler", "email": "", "password": "Aa123456@", "confirm_password": "Aa123456@", } # noinspection PyTypeChecker vm = RegisterViewModel() vm.from_dict(data) # Act vm.validate() # Assert: self.assertIsNotNone(vm.error) self.assertTrue("email" in vm.error)

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null

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null

0

1

0

7

1ae443237454b56dc1d4f027f7b9d491527d83ec

8,986

py

Python

src/tests/unit/evalg/test_vary.py

lschlessinger1/MS-project

e1c02d1d1a7a2480ff6f14f30625dc42ee3417e3

[ "MIT" ]

2

2019-04-29T15:18:11.000Z

2019-12-13T18:58:40.000Z

src/tests/unit/evalg/test_vary.py

lschlessinger1/MS-project

e1c02d1d1a7a2480ff6f14f30625dc42ee3417e3

[ "MIT" ]

275

2019-02-19T22:59:39.000Z

2020-10-03T08:56:08.000Z

src/tests/unit/evalg/test_vary.py

lschlessinger1/MS-project

e1c02d1d1a7a2480ff6f14f30625dc42ee3417e3

[ "MIT" ]

null

from unittest import TestCase from unittest.mock import MagicMock from src.evalg.crossover import Recombinator from src.evalg.genprog import TreePointMutator, OnePointStrictLeafBiasedRecombinator from src.evalg.mutation import Mutator from src.evalg.serialization import Serializable from src.evalg.vary import PopulationOperator, CrossMutPopOperator, CrossoverVariator, MutationVariator, \ CrossoverPopOperator, MutationPopOperator, Variator class TestVariator(TestCase): def test_to_dict(self): operator = TreePointMutator() variator = Variator(operator) result = variator.to_dict() self.assertIsInstance(result, dict) self.assertEqual(operator.to_dict(), result["operator"]) def test_from_dict(self): test_cases = (Variator, Serializable) for cls in test_cases: with self.subTest(name=cls.__name__): operator = TreePointMutator() variator = Variator(operator) result = cls.from_dict(variator.to_dict()) self.assertIsInstance(result, Variator) self.assertEqual(operator.binary_tree_node_cls, result.operator.binary_tree_node_cls) class TestCrossoverVariator(TestCase): def test_to_dict(self): operator = OnePointStrictLeafBiasedRecombinator() variator = CrossoverVariator(operator, 10) result = variator.to_dict() self.assertIsInstance(result, dict) self.assertEqual(operator.to_dict(), result["operator"]) self.assertEqual(variator.n_offspring, result["n_offspring"]) self.assertEqual(variator.n_way, result["n_way"]) self.assertEqual(variator.c_prob, result["c_prob"]) def test_from_dict(self): test_cases = (CrossoverVariator, Variator, Serializable) for cls in test_cases: with self.subTest(name=cls.__name__): operator = OnePointStrictLeafBiasedRecombinator() variator = CrossoverVariator(operator, 3) result = cls.from_dict(variator.to_dict()) self.assertIsInstance(result, CrossoverVariator) self.assertEqual(variator.operator.__class__, result.operator.__class__) self.assertEqual(variator.n_offspring, result.n_offspring) self.assertEqual(variator.n_way, result.n_way) self.assertEqual(variator.c_prob, result.c_prob) class TestMutationVariator(TestCase): def test_to_dict(self): operator = TreePointMutator() variator = MutationVariator(operator) result = variator.to_dict() self.assertIsInstance(result, dict) self.assertEqual(operator.to_dict(), result["operator"]) self.assertEqual(variator.m_prob, result["m_prob"]) def test_from_dict(self): test_cases = (MutationVariator, Variator, Serializable) for cls in test_cases: with self.subTest(name=cls.__name__): operator = TreePointMutator() variator = MutationVariator(operator) result = cls.from_dict(variator.to_dict()) self.assertIsInstance(result, MutationVariator) self.assertEqual(variator.operator.__class__, result.operator.__class__) self.assertEqual(variator.m_prob, result.m_prob) class TestPopulationOperator(TestCase): def test_variators(self): mock_variator = MagicMock() operator = PopulationOperator([mock_variator]) with self.assertRaises(ValueError): operator.variators = [] with self.assertRaises(TypeError): operator.variators = [3, 2, 3] def test_to_dict(self): operator = TreePointMutator() variators = [MutationVariator(operator)] pop_operator = PopulationOperator(variators) result = pop_operator.to_dict() self.assertIsInstance(result, dict) self.assertEqual([v.to_dict() for v in variators], result["variators"]) def test_from_dict(self): test_cases = (PopulationOperator, Serializable) for cls in test_cases: with self.subTest(name=cls.__name__): operator = TreePointMutator() variators = [MutationVariator(operator)] pop_operator = PopulationOperator(variators) result = cls.from_dict(pop_operator.to_dict()) self.assertIsInstance(result, PopulationOperator) self.assertEqual(pop_operator.variators[0].__class__, result.variators[0].__class__) class TestCrossMutPopOperator(TestCase): def test_variators(self): cx_variator = CrossoverVariator(Recombinator(), 2) mut_variator = MutationVariator(Mutator()) operator = CrossMutPopOperator([cx_variator, mut_variator]) with self.assertRaises(ValueError): operator.variators = [cx_variator, cx_variator, cx_variator] with self.assertRaises(TypeError): operator.mutation_variator = cx_variator with self.assertRaises(TypeError): operator.crossover_variator = mut_variator with self.assertRaises(ValueError): operator.variators = [mut_variator] def test_to_dict(self): cx_variator = CrossoverVariator(Recombinator(), 2) mut_variator = MutationVariator(Mutator()) pop_operator = CrossMutPopOperator([cx_variator, mut_variator]) result = pop_operator.to_dict() self.assertIsInstance(result, dict) self.assertEqual([v.to_dict() for v in pop_operator.variators], result["variators"]) def test_from_dict(self): test_cases = (CrossMutPopOperator, PopulationOperator, Serializable) for cls in test_cases: with self.subTest(name=cls.__name__): cx_variator = CrossoverVariator(Recombinator(), 2) mut_variator = MutationVariator(Mutator()) pop_operator = CrossMutPopOperator([cx_variator, mut_variator]) result = cls.from_dict(pop_operator.to_dict()) self.assertIsInstance(result, CrossMutPopOperator) self.assertEqual(pop_operator.variators[0].__class__, result.variators[0].__class__) self.assertEqual(pop_operator.variators[1].__class__, result.variators[1].__class__) class TestCrossoverPopOperator(TestCase): def test_variators(self): cx_variator = CrossoverVariator(Recombinator(), 2) mut_variator = MutationVariator(Mutator()) operator = CrossoverPopOperator([cx_variator, mut_variator]) with self.assertRaises(ValueError): operator.variators = [cx_variator, mut_variator] with self.assertRaises(TypeError): operator.crossover_variator = mut_variator def test_to_dict(self): cx_variator = CrossoverVariator(Recombinator(), 2) pop_operator = CrossoverPopOperator([cx_variator]) result = pop_operator.to_dict() self.assertIsInstance(result, dict) self.assertEqual([v.to_dict() for v in pop_operator.variators], result["variators"]) def test_from_dict(self): test_cases = (CrossoverPopOperator, PopulationOperator, Serializable) for cls in test_cases: with self.subTest(name=cls.__name__): cx_variator = CrossoverVariator(Recombinator(), 2) pop_operator = CrossoverPopOperator([cx_variator]) result = cls.from_dict(pop_operator.to_dict()) self.assertIsInstance(result, CrossoverPopOperator) self.assertEqual(pop_operator.variators[0].__class__, result.variators[0].__class__) class TestMutationPopOperator(TestCase): def test_variators(self): cx_variator = CrossoverVariator(Recombinator(), 2) mut_variator = MutationVariator(Mutator()) operator = MutationPopOperator([cx_variator, mut_variator]) with self.assertRaises(ValueError): operator.variators = [cx_variator, mut_variator] with self.assertRaises(TypeError): operator.mutation_variator = cx_variator def test_to_dict(self): mut_variator = MutationVariator(Mutator()) pop_operator = MutationPopOperator([mut_variator]) result = pop_operator.to_dict() self.assertIsInstance(result, dict) self.assertEqual([v.to_dict() for v in pop_operator.variators], result["variators"]) def test_from_dict(self): test_cases = (CrossoverPopOperator, PopulationOperator, Serializable) for cls in test_cases: with self.subTest(name=cls.__name__): mut_variator = MutationVariator(Mutator()) pop_operator = MutationPopOperator([mut_variator]) result = cls.from_dict(pop_operator.to_dict()) self.assertIsInstance(result, MutationPopOperator) self.assertEqual(pop_operator.variators[0].__class__, result.variators[0].__class__)

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null

0

1

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1

0

null

0

7

214c5b9ce2c76306a442a94d7d86dfad31e060b5

1,302

py

Python

tests/test_serialization/test_string.py

Zapix/mtpylon

b268a4e2d1bc641cace1962ea68de73c1156e44c

[ "MIT" ]

9

2021-11-10T08:53:51.000Z

2021-12-15T12:03:44.000Z

tests/test_serialization/test_string.py

Zapix/mtpylon

b268a4e2d1bc641cace1962ea68de73c1156e44c

[ "MIT" ]

123

2020-10-22T07:08:20.000Z

2021-09-29T15:26:22.000Z

tests/test_serialization/test_string.py

Zapix/mtpylon

b268a4e2d1bc641cace1962ea68de73c1156e44c

[ "MIT" ]

null

# -*- coding: utf-8 -*- from mtpylon.serialization.bytes import LONG_STRING_CHAR from mtpylon.serialization.string import load, dump def test_dump_short_string(): value = 'My Hello World!' dumped = b'\x0f' + value.encode() assert dump(value) == dumped def test_dump_with_offset(): value = 'Hello World!' dumped = b'\x0c' + value.encode() + b'\x00\x00\x00' assert dump(value) == dumped def test_dump_long_string(): value = 'asdfg' * 101 size_bytes = len(value).to_bytes(3, 'little') dumped = LONG_STRING_CHAR + size_bytes + value.encode() + b'\x00' * 3 assert dump(value) == dumped def test_load_short_string(): value = 'My Hello World!' dumped = b'\x0f' + value.encode() loaded = load(dumped) assert loaded.value == value assert loaded.offset == 16 def test_load_with_offset(): value = 'Hello World!' dumped = b'\x0c' + value.encode() + b'\x00\x00\x00' loaded = load(dumped) assert loaded.value == value assert loaded.offset == 16 def test_load_long_string(): value = 'asdfg' * 101 size_bytes = len(value).to_bytes(3, 'little') dumped = LONG_STRING_CHAR + size_bytes + value.encode() + b'\x00' * 3 loaded = load(dumped) assert loaded.value == value assert loaded.offset == 512

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0

1

0

1

0

null

0

7

2163dc6b3874ddc1b04d50cfc1fee2d8045f1a4e

388,105

pyt

Python

eran/NNet/nnet/ACASXU_run2a_1_7_batch_2000_16bit.pyt

pauls658/ReluDiff-ICSE2020-Artifact

212854fe04f482183c239e5dfec70106a9a83df8

[ "Apache-2.0" ]

7

2020-01-27T21:25:49.000Z

2022-01-07T04:37:37.000Z

eran/NNet/nnet/ACASXU_run2a_1_7_batch_2000_16bit.pyt

yqtianust/ReluDiff-ICSE2020-Artifact

149f6efe4799602db749faa576980c36921a07c7

[ "Apache-2.0" ]

1

2022-01-25T17:41:54.000Z

2022-01-26T02:27:51.000Z

eran/NNet/nnet/ACASXU_run2a_1_7_batch_2000_16bit.pyt

yqtianust/ReluDiff-ICSE2020-Artifact

149f6efe4799602db749faa576980c36921a07c7

[ "Apache-2.0" ]

3

2020-03-14T17:12:17.000Z

2022-03-16T09:50:46.000Z

ReLU [[0.0561853, -0.704491, -0.061675, 0.0248669, 0.123074], [-0.134788, 0.512771, -0.570423, 0.087164, -0.168019], [0.0455649, -0.592839, 0.641062, 0.0628748, 0.0336001], [0.0821499, -0.598387, 0.0919822, 0.0529499, -0.100748], [0.485224, 0.272708, 0.303774, 0.404044, -0.221309], [-0.108416, -0.403412, 0.592215, 0.138528, -0.163226], [-0.191174, -0.259584, 0.682389, 0.0347079, 0.221292], [0.0138654, -0.431895, 0.445354, 0.0234896, 0.00864398], [-0.247032, 0.167096, 0.319413, 0.293657, -0.126851], [0.283097, 0.0716329, 0.00725693, -0.558269, -0.299349], [-0.00312976, 0.00319763, -0.0162978, -0.00320108, 0.00524091], [0.594442, -0.0983411, -0.0702592, 0.502192, -0.475897], [0.518032, 0.347821, 0.0425461, 0.156532, -0.454617], [0.129147, -0.409267, -0.32078, 0.113929, -0.205494], [-0.411999, 0.147071, 0.0585598, -0.214102, 0.52933], [0.276301, -0.329854, -0.00328522, 0.462807, -0.545738], [0.00760958, -0.270382, 0.39758, 0.420578, -0.54542], [-0.0337269, -0.619056, -0.652474, 0.466324, -0.0413616], [-0.0110003, -0.0445883, -0.139648, -0.101601, 0.336612], [-0.601768, -0.00524311, 0.0112414, -0.561621, 0.403576], [-0.737246, -0.000956548, -0.00186237, 0.481549, 0.129471], [-1.25087, 0.261755, 0.00499981, -0.0190162, 0.376486], [-0.256686, 0.0121647, 0.42901, -0.0302305, 0.0480746], [0.304483, 0.0423279, 0.0810859, -0.0723836, 0.0617703], [-0.00300964, 0.173825, -0.0238018, 0.0165079, -0.909589], [0.350956, 0.303847, -0.00810014, 0.611235, -0.666433], [-0.485394, 0.078608, 0.0306687, -0.509238, 0.616939], [0.12296, 0.708168, 0.0114053, 0.0835043, -0.235368], [0.0226214, 0.736456, -0.646837, 0.125014, -0.0274652], [-0.327972, 0.079967, 0.221613, -0.0714784, 0.373654], [-0.00239608, -0.115707, -0.0979321, 0.103475, -0.0410996], [0.0793414, 0.193659, 0.351132, -0.0366095, -0.0411028], [-0.267022, -0.0372515, -0.00161028, 0.378091, 0.410024], [0.0407343, -0.225437, 0.444183, -0.029029, 0.333439], [0.0062978, -0.00306606, 0.00390944, -0.000240706, -0.0216104], [0.000881039, 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0.05005, -0.01325], [0.05676, 0.635, -0.628, -0.00335, 0.1382], [0.001055, 0.5366, 0.5195, 0.2703, -0.0533]] [-0.136764, 0.00708404, -0.193462, -0.0461375, 0.256868, 0.0361004, 0.00102618, -0.175017, -0.0107874, -0.259219, -0.0167999, 0.195655, 0.0160955, -0.0619897, 0.0450553, 0.0612364, -0.0529819, -0.0449136, 0.0720383, -0.209702, 0.0844183, -0.124343, -0.0606924, 0.0355696, -0.299974, 0.104175, -0.101004, 0.00837474, -0.163322, 0.0387599, 0.0707165, 0.0169348, 0.293842, 0.0225979, -0.0188659, -0.0245302, -0.0775723, -0.028836, 0.129605, -0.11832, 0.00334849, -0.301487, 0.0858787, -0.071514, -0.18627, -0.00660631, 0.190004, 0.0335825, -0.222399, -0.120225, -0.1367, 0.007084, -0.1935, -0.04614, 0.2568, 0.0361, 0.001026, -0.175, -0.01079, -0.2593, -0.0168, 0.1957, 0.0161, -0.06198, 0.04504, 0.06125, -0.05298, -0.04492, 0.072, -0.2097, 0.0844, -0.1243, -0.0607, 0.03558, -0.3, 0.1042, -0.101, 0.00838, -0.1633, 0.03876, 0.07074, 0.01694, 0.294, 0.0226, -0.01886, -0.02454, -0.0776, 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Python

python/ql/test/experimental/dataflow/ApiGraphs/test2.py

timoles/codeql

2d24387e9e300bf03be35694816b1e76ae88a50c

[ "MIT" ]

4,036

2020-04-29T00:09:57.000Z

2022-03-31T14:16:38.000Z

python/ql/test/experimental/dataflow/ApiGraphs/test2.py

timoles/codeql

2d24387e9e300bf03be35694816b1e76ae88a50c

[ "MIT" ]

2,970

2020-04-28T17:24:18.000Z

2022-03-31T22:40:46.000Z

python/ql/test/experimental/dataflow/ApiGraphs/test2.py

ScriptBox99/github-codeql

2ecf0d3264db8fb4904b2056964da469372a235c

[ "MIT" ]

794

2020-04-29T00:28:25.000Z

2022-03-30T08:21:46.000Z

from mypkg import foo #$ use=moduleImport("mypkg").getMember("foo") from mypkg import bar #$ use=moduleImport("mypkg").getMember("bar") print(foo) #$ use=moduleImport("mypkg").getMember("foo") print(bar) #$ use=moduleImport("mypkg").getMember("bar")

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py

Python

sltxtest/__init__.py

EagleoutIce/sltx-inst

cb45346177c22fd5bf47f29cebf34f09f16b9a4b

[ "MIT" ]

2

2020-09-28T20:27:29.000Z

2020-10-07T20:30:58.000Z

sltxtest/__init__.py

EagleoutIce/sltx

be71e6245356b8c8a8e42b4a44ceee5d4da4e89c

[ "MIT" ]

null

sltxtest/__init__.py

EagleoutIce/sltx

be71e6245356b8c8a8e42b4a44ceee5d4da4e89c

[ "MIT" ]

null

import sltxtest.test_util import sltxtest.test_cache import sltxtest.test_dep

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py

Python

backend/tests/functional_tests/scripts/test_sync_configuration.py

kolszewska/MedTagger

c691c822dd23a9fb402d1314e7fe2e6bde898e9c

[ "Apache-2.0" ]

71

2019-01-31T19:50:31.000Z

2022-02-20T07:36:49.000Z

backend/tests/functional_tests/scripts/test_sync_configuration.py

kolszewska/MedTagger

c691c822dd23a9fb402d1314e7fe2e6bde898e9c

[ "Apache-2.0" ]

379

2019-02-16T19:12:01.000Z

2022-03-11T23:12:24.000Z

backend/tests/functional_tests/scripts/test_sync_configuration.py

kolszewska/MedTagger

c691c822dd23a9fb402d1314e7fe2e6bde898e9c

[ "Apache-2.0" ]

16

2019-01-31T16:44:39.000Z

2022-02-14T15:23:29.000Z

"""Tests for adding new Labels to the system.""" from typing import Any import yaml from medtagger.repositories import ( datasets as DatasetsRepository, tasks as TasksRepository, label_tags as LabelTagsRepository, ) from scripts import sync_configuration as script def test_sync_with_empty_database(prepare_environment: Any) -> None: """Test for configuration synchronization with empty database.""" configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: Left Kidney tools: - CHAIN - BRUSH - key: RIGHT_KIDNEY name: Right Kidney tools: - CHAIN """) script.sync_configuration(configuration) # Check if Datasets were synchronized properly datasets = DatasetsRepository.get_all_datasets(include_disabled=True) assert len(datasets) == 1 kidneys = DatasetsRepository.get_dataset_by_key('KIDNEYS') assert kidneys.name == 'Kidneys' assert not kidneys.disabled assert {task.key for task in kidneys.tasks} == {'KIDNEYS_SEGMENTATION'} # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 1 kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.name == 'Kidneys segmentation' assert kidneys_segmentation.image_path == 'assets/icon/kidneys_dataset_icon.svg' assert kidneys_segmentation.description == 'This is a test task' assert kidneys_segmentation.label_examples == ['assets/example_1', 'assets/example_2'] assert not kidneys_segmentation.disabled assert len(kidneys_segmentation.available_tags) == 2 assert {tag.key for tag in kidneys_segmentation.available_tags} == {'LEFT_KIDNEY', 'RIGHT_KIDNEY'} # Check if Label Tags were synchronized properly tags = LabelTagsRepository.get_all_tags(include_disabled=True) assert len(tags) == 2 left_kidney = LabelTagsRepository.get_label_tag_by_key('LEFT_KIDNEY') assert left_kidney.name == 'Left Kidney' assert not left_kidney.disabled assert {tool.name for tool in left_kidney.tools} == {'CHAIN', 'BRUSH'} right_kidney = LabelTagsRepository.get_label_tag_by_key('RIGHT_KIDNEY') assert right_kidney.name == 'Right Kidney' assert not right_kidney.disabled assert {tool.name for tool in right_kidney.tools} == {'CHAIN'} def test_sync_with_updated_names(prepare_environment: Any) -> None: """Test for configuration synchronization with updated names.""" configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: Left Kidney tools: - CHAIN - BRUSH - key: RIGHT_KIDNEY name: Right Kidney tools: - CHAIN """) script.sync_configuration(configuration) # Update configuration configuration = yaml.load(""" datasets: - key: KIDNEYS name: New Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: New Kidneys segmentation image_path: new_assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: New Left Kidney tools: - CHAIN - BRUSH - key: RIGHT_KIDNEY name: New Right Kidney tools: - CHAIN """) script.sync_configuration(configuration) # Check if Datasets were synchronized properly datasets = DatasetsRepository.get_all_datasets(include_disabled=True) assert len(datasets) == 1 kidneys = DatasetsRepository.get_dataset_by_key('KIDNEYS') assert kidneys.name == 'New Kidneys' assert not kidneys.disabled assert {task.key for task in kidneys.tasks} == {'KIDNEYS_SEGMENTATION'} # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 1 kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.name == 'New Kidneys segmentation' assert kidneys_segmentation.image_path == 'new_assets/icon/kidneys_dataset_icon.svg' assert kidneys_segmentation.description == 'This is a test task' assert kidneys_segmentation.label_examples == ['assets/example_1', 'assets/example_2'] assert not kidneys_segmentation.disabled assert len(kidneys_segmentation.available_tags) == 2 assert {tag.key for tag in kidneys_segmentation.available_tags} == {'LEFT_KIDNEY', 'RIGHT_KIDNEY'} # Check if Label Tags were synchronized properly tags = LabelTagsRepository.get_all_tags(include_disabled=True) assert len(tags) == 2 left_kidney = LabelTagsRepository.get_label_tag_by_key('LEFT_KIDNEY') assert left_kidney.name == 'New Left Kidney' assert not left_kidney.disabled assert {tool.name for tool in left_kidney.tools} == {'CHAIN', 'BRUSH'} right_kidney = LabelTagsRepository.get_label_tag_by_key('RIGHT_KIDNEY') assert right_kidney.name == 'New Right Kidney' assert not right_kidney.disabled assert {tool.name for tool in right_kidney.tools} == {'CHAIN'} def test_sync_with_changed_tools_in_tag(prepare_environment: Any) -> None: """Test for adding and removing Tools in given Label Tag.""" configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: Left Kidney tools: - CHAIN - BRUSH """) script.sync_configuration(configuration) # Check if Tags were properly synchronized tags = LabelTagsRepository.get_all_tags(include_disabled=True) assert len(tags) == 1 left_kidney = LabelTagsRepository.get_label_tag_by_key('LEFT_KIDNEY') assert left_kidney.name == 'Left Kidney' assert not left_kidney.disabled assert {tool.name for tool in left_kidney.tools} == {'CHAIN', 'BRUSH'} # Now, let's change Tools for Kidneys Segmentation configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: Left Kidney tools: - BRUSH - RECTANGLE """) script.sync_configuration(configuration) # Check if Tags were properly synchronized tags = LabelTagsRepository.get_all_tags(include_disabled=True) assert len(tags) == 1 left_kidney = LabelTagsRepository.get_label_tag_by_key('LEFT_KIDNEY') assert left_kidney.name == 'Left Kidney' assert not left_kidney.disabled assert {tool.name for tool in left_kidney.tools} == {'BRUSH', 'RECTANGLE'} def test_sync_with_changed_tags_in_task(prepare_environment: Any) -> None: """Test for adding and removing Tags in Task.""" configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: Left Kidney tools: - CHAIN - BRUSH """) script.sync_configuration(configuration) # Check if Label Tags were properly synchronized tags = LabelTagsRepository.get_all_tags(include_disabled=True) assert len(tags) == 1 left_kidney = LabelTagsRepository.get_label_tag_by_key('LEFT_KIDNEY') assert left_kidney.name == 'Left Kidney' assert not left_kidney.disabled assert {tool.name for tool in left_kidney.tools} == {'CHAIN', 'BRUSH'} # Now, let's change Tags for Kidneys Segmentation configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: RIGHT_KIDNEY name: Right Kidney tools: - RECTANGLE """) script.sync_configuration(configuration) # Check if Tasks were properly synchronized tags = LabelTagsRepository.get_all_tags(include_disabled=True) assert len(tags) == 2 left_kidney = LabelTagsRepository.get_label_tag_by_key('LEFT_KIDNEY') assert left_kidney.name == 'Left Kidney' assert left_kidney.disabled assert {tool.name for tool in left_kidney.tools} == {'CHAIN', 'BRUSH'} right_kidney = LabelTagsRepository.get_label_tag_by_key('RIGHT_KIDNEY') assert right_kidney.name == 'Right Kidney' assert not right_kidney.disabled assert {tool.name for tool in right_kidney.tools} == {'RECTANGLE'} def test_sync_with_changed_task_in_dataset(mocker: Any, prepare_environment: Any) -> None: """Test for adding and removing Task in DataSet.""" configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: Left Kidney tools: - CHAIN - BRUSH """) script.sync_configuration(configuration) # Check if Datasets were synchronized properly datasets = DatasetsRepository.get_all_datasets(include_disabled=True) assert len(datasets) == 1 # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 1 kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.name == 'Kidneys segmentation' assert not kidneys_segmentation.disabled # Now, let's change Tasks for Kidneys configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: FIND_NODULES name: Find nodules image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: NODULE name: Nodule tools: - BRUSH """) script.sync_configuration(configuration) # Check if Datasets were synchronized properly datasets = DatasetsRepository.get_all_datasets(include_disabled=True) assert len(datasets) == 1 # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 2 kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.name == 'Kidneys segmentation' assert kidneys_segmentation.disabled find_nodules = TasksRepository.get_task_by_key('FIND_NODULES') assert find_nodules.name == 'Find nodules' assert not find_nodules.disabled # Now, let's change let's get back to older Tasks (with different values) for Kidneys configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: New Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: NEW_LEFT_KIDNEY name: New Left Kidney tools: - RECTANGLE """) script.sync_configuration(configuration) # Check if Datasets were synchronized properly datasets = DatasetsRepository.get_all_datasets(include_disabled=True) assert len(datasets) == 1 # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 2 find_nodules = TasksRepository.get_task_by_key('FIND_NODULES') assert find_nodules.name == 'Find nodules' assert find_nodules.disabled kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.name == 'New Kidneys segmentation' assert kidneys_segmentation.image_path == 'assets/icon/kidneys_dataset_icon.svg' assert kidneys_segmentation.description == 'This is a test task' assert kidneys_segmentation.label_examples == ['assets/example_1', 'assets/example_2'] assert not kidneys_segmentation.disabled assert len(kidneys_segmentation.available_tags) == 1 assert {tag.key for tag in kidneys_segmentation.available_tags} == {'NEW_LEFT_KIDNEY'} # Check if Label Tags were synchronized properly tags = LabelTagsRepository.get_all_tags(include_disabled=True) assert len(tags) == 3 left_kidney = LabelTagsRepository.get_label_tag_by_key('LEFT_KIDNEY') assert left_kidney.disabled nodule = LabelTagsRepository.get_label_tag_by_key('NODULE') assert nodule.disabled new_left_kidney = LabelTagsRepository.get_label_tag_by_key('NEW_LEFT_KIDNEY') assert not new_left_kidney.disabled # Now, let's change let's get back to the original Tasks for Kidneys mocked_logger = mocker.patch.object(script, 'logger') configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: Left Kidney tools: - CHAIN - BRUSH """) script.sync_configuration(configuration) # Check if user was warned about possible data inconsistency mocked_logger.warning.assert_called_once_with( 'Reusing previously existing Label Tag (%s)! This may cause data inconsistency! ' 'Make sure you know what you are doing and clear database entries if necessary!', 'LEFT_KIDNEY', ) # Check if Label Tags were synchronized properly tags = LabelTagsRepository.get_all_tags(include_disabled=True) assert len(tags) == 3 left_kidney = LabelTagsRepository.get_label_tag_by_key('LEFT_KIDNEY') assert not left_kidney.disabled nodule = LabelTagsRepository.get_label_tag_by_key('NODULE') assert nodule.disabled new_left_kidney = LabelTagsRepository.get_label_tag_by_key('NEW_LEFT_KIDNEY') assert new_left_kidney.disabled def test_sync_with_changed_dataset_and_reused_task(prepare_environment: Any) -> None: """Test for changing DataSet and reusing Task.""" configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - FIND_NODULES tasks: - key: FIND_NODULES name: Find nodules image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: NODULE name: Nodule tools: - BRUSH """) script.sync_configuration(configuration) # Check if Datasets were synchronized properly datasets = DatasetsRepository.get_all_datasets(include_disabled=True) assert len(datasets) == 1 kidneys = DatasetsRepository.get_dataset_by_key('KIDNEYS') assert kidneys.name == 'Kidneys' assert not kidneys.disabled assert {task.key for task in kidneys.tasks} == {'FIND_NODULES'} # Now, let's change Tools for Kidneys Segmentation configuration = yaml.load(""" datasets: - key: LUNGS name: Lungs tasks: - FIND_NODULES tasks: - key: FIND_NODULES name: Find nodules image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task with updated description label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: NODULE name: Nodule tools: - BRUSH """) script.sync_configuration(configuration) # Check if Datasets were synchronized properly datasets = DatasetsRepository.get_all_datasets(include_disabled=True) assert len(datasets) == 2 kidneys = DatasetsRepository.get_dataset_by_key('KIDNEYS') assert kidneys.name == 'Kidneys' assert kidneys.disabled assert {task.key for task in kidneys.tasks} == set() lungs = DatasetsRepository.get_dataset_by_key('LUNGS') assert lungs.name == 'Lungs' assert not lungs.disabled assert {task.key for task in lungs.tasks} == {'FIND_NODULES'} def test_sync_with_changed_description(prepare_environment: Any) -> None: """Test for configuration synchronization with updated description.""" configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: Left Kidney tools: - CHAIN - BRUSH - key: RIGHT_KIDNEY name: Right Kidney tools: - CHAIN """) script.sync_configuration(configuration) # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 1 kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.description == 'This is a test task' # Update configuration configuration = yaml.load(""" datasets: - key: KIDNEYS name: New Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: New Kidneys segmentation image_path: new_assets/icon/kidneys_dataset_icon.svg description: This is a test task with updated description label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: New Left Kidney tools: - CHAIN - BRUSH - key: RIGHT_KIDNEY name: New Right Kidney tools: - CHAIN """) script.sync_configuration(configuration) # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 1 kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.description == 'This is a test task with updated description' def test_sync_with_changed_label_examples(prepare_environment: Any) -> None: """Test for configuration synchronization with updated label examples.""" configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['assets/example_1', 'assets/example_2'] tags: - key: LEFT_KIDNEY name: Left Kidney tools: - CHAIN - BRUSH - key: RIGHT_KIDNEY name: Right Kidney tools: - CHAIN """) script.sync_configuration(configuration) # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 1 kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.label_examples == ['assets/example_1', 'assets/example_2'] # Update configuration configuration = yaml.load(""" datasets: - key: KIDNEYS name: New Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: New Kidneys segmentation image_path: new_assets/icon/kidneys_dataset_icon.svg description: This is a test task label_examples: ['new_assets/example_1'] tags: - key: LEFT_KIDNEY name: New Left Kidney tools: - CHAIN - BRUSH - key: RIGHT_KIDNEY name: New Right Kidney tools: - CHAIN """) script.sync_configuration(configuration) # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 1 kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.label_examples == ['new_assets/example_1'] def test_sync_with_missing_label_examples(prepare_environment: Any) -> None: """Test for configuration synchronization with missing optional label examples.""" configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg description: This is a test task tags: - key: LEFT_KIDNEY name: Left Kidney tools: - CHAIN - BRUSH - key: RIGHT_KIDNEY name: Right Kidney tools: - CHAIN """) script.sync_configuration(configuration) # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 1 kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.label_examples == [] def test_sync_with_missing_description(prepare_environment: Any) -> None: """Test for configuration synchronization with missing optional description.""" configuration = yaml.load(""" datasets: - key: KIDNEYS name: Kidneys tasks: - KIDNEYS_SEGMENTATION tasks: - key: KIDNEYS_SEGMENTATION name: Kidneys segmentation image_path: assets/icon/kidneys_dataset_icon.svg tags: - key: LEFT_KIDNEY name: Left Kidney tools: - CHAIN - BRUSH - key: RIGHT_KIDNEY name: Right Kidney tools: - CHAIN """) script.sync_configuration(configuration) # Check if Tasks were synchronized properly tasks = TasksRepository.get_all_tasks(include_disabled=True) assert len(tasks) == 1 kidneys_segmentation = TasksRepository.get_task_by_key('KIDNEYS_SEGMENTATION') assert kidneys_segmentation.description == ""

37.188966

102

0.616831

2,800

26,962

5.717857

0.048929

0.132917

0.028982

0.0406

0.945409

0.931543

0.925172

0.917489

0.917177

0.897439

0

0.003815

0.309769

26,962

724

103

37.240331

0.856475

0.082524

0

0.911667

0

0.542482

0.033758

0

0.183333

1

0.016667

false

0

0.006667

0

0.023333

0

null

0

1

0

1

0

null

0

7

0d1d8bca4d5dc51ee7c9b54eea198beb041e27fa

215

py

Python

Pytorch/NLP/models/BaseScience.py

Kuga23/Deep-Learning

86980338208c702b6bfcbcfffdb18498e389a56b

[ "MIT" ]

null

Pytorch/NLP/models/BaseScience.py

Kuga23/Deep-Learning

86980338208c702b6bfcbcfffdb18498e389a56b

[ "MIT" ]

null

Pytorch/NLP/models/BaseScience.py

Kuga23/Deep-Learning

86980338208c702b6bfcbcfffdb18498e389a56b

[ "MIT" ]

null

import numpy as np def cosine(vector1, vector2): return np.dot(vector1, vector2)/(np.linalg.norm(vector1) * np.linalg.norm(vector2)) def euclidean(vector1, vector2): return np.linalg.norm(vector1 - vector2)

26.875

85

0.739535

31

215

5.129032

0.419355

0.352201

0.226415

0.27673

0

0.053191

0.125581

215

8

86

26.875

0.792553

0

1

0.4

false

0

0.2

0.4

1

0

null

1

0

1

0

null

0

1

0

1

0

7

0d1f3fa6cc0be929ad3cf8407c6e5437bd82e6e7

3,244

py

Python

backend/stock/migrations/0026_auto_20210307_1949.py

fengxia41103/stock

1bba08f77e9038ebdd3905fe734bb51e5fb1bdf1

[ "MIT" ]

1

2021-09-30T05:25:08.000Z

backend/stock/migrations/0026_auto_20210307_1949.py

fengxia41103/stock

1bba08f77e9038ebdd3905fe734bb51e5fb1bdf1

[ "MIT" ]

8

2021-09-30T05:27:09.000Z

2021-12-03T23:02:24.000Z

backend/stock/migrations/0026_auto_20210307_1949.py

fengxia41103/stock

1bba08f77e9038ebdd3905fe734bb51e5fb1bdf1

[ "MIT" ]

3

2021-09-29T05:11:45.000Z

2021-10-31T07:26:31.000Z

# Generated by Django 3.1.7 on 2021-03-07 19:49 from django.db import migrations, models class Migration(migrations.Migration): dependencies = [ ('stock', '0025_auto_20210307_0202'), ] operations = [ migrations.AddField( model_name='incomestatement', name='cost_of_revenue', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='ebitda', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='interest_expense', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='interest_expense_non_operating', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='interest_income', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='interest_income_non_operating', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='net_income_common_stockholders', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='net_income_from_continuing_and_discontinued_operation', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='net_income_from_continuing_operation_net_minority_interest', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='net_interest_income', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='net_non_operating_interest_income_expense', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='other_income_expense', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='other_non_operating_income_expenses', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='reconciled_depreciation', field=models.FloatField(blank=True, default=0, null=True), ), migrations.AddField( model_name='incomestatement', name='tax_provision', field=models.FloatField(blank=True, default=0, null=True), ), ]

36.449438

78

0.600801

310

3,244

6.096774

0.193548

0.142857

0.18254

0.214286

0.832275

0.807937

0.783598

0

0.019957

0.289457

3,244

88

79

36.863636

0.8

0.013872

0

0.731707

1

0

0.205192

0.100719

0

1

0

false

0

0.012195

0

0.04878

0

null

0

1

0

1

0

null

0

10

0d2151c006e56c46d5bd7cf0bfa71212e12f2950

803

py

Python

mmdet/core/loss/__init__.py

anorthman/mmdetection

52e28154364f0e19d11c206bb357d88f29fc4a2d

[ "Apache-2.0" ]

5

2019-06-11T11:08:54.000Z

2021-03-25T10:06:01.000Z

mmdet/core/loss/__init__.py

anorthman/mmdetection

52e28154364f0e19d11c206bb357d88f29fc4a2d

[ "Apache-2.0" ]

null

mmdet/core/loss/__init__.py

anorthman/mmdetection

52e28154364f0e19d11c206bb357d88f29fc4a2d

[ "Apache-2.0" ]

1

2019-06-11T11:08:55.000Z

from .losses import (weighted_nll_loss, weighted_cross_entropy, weighted_binary_cross_entropy, sigmoid_focal_loss, weighted_sigmoid_focal_loss, sigmoid_kldiv_focal_loss, weighted_sigmoid_kldiv_focal_loss, sigmoid_kldiv, weighted_sigmoid_kldiv, mask_cross_entropy, smooth_l1_loss, weighted_smoothl1, accuracy, attention_loss) __all__ = [ 'weighted_nll_loss', 'weighted_cross_entropy', 'weighted_binary_cross_entropy', 'sigmoid_focal_loss', 'weighted_sigmoid_focal_loss', 'sigmoid_kldiv_focal_loss', 'weighted_sigmoid_kldiv_focal_loss', 'sigmoid_kldiv', 'weighted_sigmoid_kldiv', 'mask_cross_entropy', 'smooth_l1_loss', 'weighted_smoothl1', 'accuracy', 'attention_loss' ]

50.1875

81

0.716065

88

803

5.852273

0.215909

0.186408

0.124272

0.186408

0.963107

0

0.006299

0.209215

803

15

82

53.533333

0.804724

0

0.343711

0.195517

0

1

0

false

0

0.071429

0

0.071429

0

null

0

1

0

null

0

7

b4f5c55b6c5ae321eccbafbab58b9d95b7aa5da8

201

py

Python

test/test_hello.py

mittelholcz/pypaexperiment

5d70bbf02a7176f7be7fb9e37611f2bbddcb533d

[ "MIT" ]

3

2020-02-24T23:13:17.000Z

2021-05-17T09:27:58.000Z

test/test_hello.py

mittelholcz/pypaexperiment

5d70bbf02a7176f7be7fb9e37611f2bbddcb533d

[ "MIT" ]

null

test/test_hello.py

mittelholcz/pypaexperiment

5d70bbf02a7176f7be7fb9e37611f2bbddcb533d

[ "MIT" ]

null

import pytest from hellopypa.hellopypa import hello def test_hello(): assert hello() == 'Hello pypa!' assert hello(upper=False) == 'Hello pypa!' assert hello(upper=True) == 'HELLO PYPA!'

22.333333

46

0.681592

26

201

5.230769

0.461538

0.242647

0.220588

0.294118

0.367647

0

0.18408

201

8

47

25.125

0.829268

0

0.164179

0

0.5

1

0.166667

true

0

0.333333

0

0.5

0

1

0

null

1

0

1

0

null

0

1

0

1

0

1

0

8

370d04cea72902b0ab9f2a1fa63553e9c9051a9e

60

py

Python

foo.py

wiloon/pythonx

c6032ce62d3e7dce52756fc1fcf938cd970bc2fb

[ "Apache-2.0" ]

null

foo.py

wiloon/pythonx

c6032ce62d3e7dce52756fc1fcf938cd970bc2fb

[ "Apache-2.0" ]

null

foo.py

wiloon/pythonx

c6032ce62d3e7dce52756fc1fcf938cd970bc2fb

[ "Apache-2.0" ]

null

msg="hello world" print(msg) msg="hello world!" print(msg)

10

18

0.7

10

60

4.2

0.4

0.380952

0.619048

0.857143

1

0

0.116667

60

5

19

12

0.792453

0

0.5

0

0.383333

0

1

0

false

0

0.5

1

0

null

1

0

1

0

null

0

1

0

7

3710bbceb083e08c2c14d5c24506223f432868c4

3,160

py

Python

tests/tfconfig_test.py

andrejcermak/terrestrial

41d0dccd0a6d0d7d1756a8067270a6b375665636

[ "MIT" ]

12

2018-12-13T15:19:43.000Z

2021-11-10T13:22:05.000Z

tests/tfconfig_test.py

andrejcermak/terrestrial

41d0dccd0a6d0d7d1756a8067270a6b375665636

[ "MIT" ]

null

tests/tfconfig_test.py

andrejcermak/terrestrial

41d0dccd0a6d0d7d1756a8067270a6b375665636

[ "MIT" ]

1

2021-02-18T09:39:56.000Z

import unittest from os import listdir from shutil import rmtree from pathlib import Path from terrestrial.core.tfconfig import TerraformConfig from .helpers import ignore_warnings class TestValidTerraformConfig(unittest.TestCase): ''' Tests TerraformConfig base functionality using minimal valid configuration ''' @classmethod def setUpClass(self): self.tests_path = Path(__file__).parents[0] self.config = TerraformConfig( path=f'{self.tests_path}/configurations/valid') @classmethod def tearDownClass(self): try: rmtree(f'{self.config.path}/.terraform') except FileNotFoundError: pass self.config.close() @ignore_warnings def test_config_init(self): rc, stdout, stderr = self.config.init() self.assertEqual(rc, 0, f'non-zero exit code on init: {stderr}') @ignore_warnings def test_config_is_valid(self): rc, stdout, stderr = self.config.validate() self.assertEqual(rc, 0, f'terraform config is invalid: {stderr}') def test_config_clone(self): clone = self.config.clone() config_content = listdir(self.config.path) clone_content = listdir(clone) self.assertEqual(config_content, clone_content) class TestValidUnsetTerraformConfig(unittest.TestCase): ''' Tests TerraformConfig base functionality using minimal valid configuration with one or more variables not defaulted ''' @classmethod def setUpClass(self): self.tests_path = Path(__file__).parents[0] self.config = TerraformConfig( path=f'{self.tests_path}/configurations/valid-unset') @classmethod def tearDownClass(self): try: rmtree(f'{self.config.path}/.terraform') except FileNotFoundError: pass self.config.close() @ignore_warnings def test_config_init(self): rc, stdout, stderr = self.config.init() self.assertEqual(rc, 0, f'non-zero exit code on init: {stderr}') @ignore_warnings def test_config_is_valid(self): rc, stdout, stderr = self.config.validate() self.assertEqual(rc, 0, f'terraform config is invalid: {stderr}') class TestInvalidTerraformConfig(unittest.TestCase): ''' Attempts validation on broken Terraform configuration ''' @classmethod def setUpClass(self): self.tests_path = Path(__file__).parents[0] self.config = TerraformConfig( path=f'{self.tests_path}/configurations/invalid') @classmethod def tearDownClass(self): try: rmtree(f'{self.config.path}/.terraform') except FileNotFoundError: pass self.config.close() @ignore_warnings def test_config_init(self): rc, stdout, stderr = self.config.init() self.assertNotEqual(rc, 0, f'non-zero exit code on init: {stderr}') @ignore_warnings def test_config_is_invalid(self): rc, stdout, stderr = self.config.validate() self.assertNotEqual(rc, 0, f'invalid config passed validation: {stderr}')

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372ec73367a395d544838c5505acf13f62d134da

2,286

py

Python

address/migrations/0003_auto_20200927_1952.py

wendell1101/EcommerceProject---Django

008396c283f887db528ca5c07de61a794feeb83b

[ "MIT" ]

null

address/migrations/0003_auto_20200927_1952.py

wendell1101/EcommerceProject---Django

008396c283f887db528ca5c07de61a794feeb83b

[ "MIT" ]

null

address/migrations/0003_auto_20200927_1952.py

wendell1101/EcommerceProject---Django

008396c283f887db528ca5c07de61a794feeb83b

[ "MIT" ]

null

# Generated by Django 3.1.1 on 2020-09-27 11:52 from django.db import migrations, models import django.db.models.deletion import django_countries.fields class Migration(migrations.Migration): dependencies = [ ('customer_profiles', '0002_auto_20200927_1118'), ('orders', '0002_auto_20200927_1952'), ('address', '0002_auto_20200927_1530'), ] operations = [ migrations.CreateModel( name='BillingAddress', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('house_number', models.CharField(max_length=120)), ('street', models.CharField(max_length=200)), ('barangay', models.CharField(max_length=200)), ('city', models.CharField(max_length=200)), ('province', models.CharField(max_length=200)), ('zip_code', models.CharField(max_length=200)), ('country', django_countries.fields.CountryField(max_length=2)), ('timestamp', models.DateTimeField(auto_now_add=True)), ('customer_profile', models.ForeignKey(on_delete=django.db.models.deletion.CASCADE, to='customer_profiles.customerprofile')), ], ), migrations.CreateModel( name='ShippingAddress', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('house_number', models.CharField(max_length=120)), ('street', models.CharField(max_length=200)), ('barangay', models.CharField(max_length=200)), ('city', models.CharField(max_length=200)), ('province', models.CharField(max_length=200)), ('zip_code', models.CharField(max_length=200)), ('country', django_countries.fields.CountryField(max_length=2)), ('timestamp', models.DateTimeField(auto_now_add=True)), ('customer_profile', models.ForeignKey(on_delete=django.db.models.deletion.CASCADE, to='customer_profiles.customerprofile')), ], ), migrations.DeleteModel( name='Address', ), ]

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7

2c11bfb06ff33c7943b4b12c25a0e84002edd08b

65,535

py

Python

sympy/integrals/rubi/rubi_tests/tests/test_inverse_hyperbolic_sine.py

utkarshdeorah/sympy

dcdf59bbc6b13ddbc329431adf72fcee294b6389

[ "BSD-3-Clause" ]

1

2022-01-31T16:02:46.000Z

sympy/integrals/rubi/rubi_tests/tests/test_inverse_hyperbolic_sine.py

utkarshdeorah/sympy

dcdf59bbc6b13ddbc329431adf72fcee294b6389

[ "BSD-3-Clause" ]

3

2022-02-04T14:45:16.000Z

2022-02-04T14:45:45.000Z

sympy/integrals/rubi/rubi_tests/tests/test_inverse_hyperbolic_sine.py

utkarshdeorah/sympy

dcdf59bbc6b13ddbc329431adf72fcee294b6389

[ "BSD-3-Clause" ]

1

2022-02-04T13:50:29.000Z

import sys from sympy.external import import_module matchpy = import_module("matchpy") if not matchpy: #bin/test will not execute any tests now disabled = True if sys.version_info[:2] < (3, 6): disabled = True from sympy.integrals.rubi.utility_function import ( sympy_op_factory, Int, Sum, Set, With, Module, Scan, MapAnd, FalseQ, ZeroQ, NegativeQ, NonzeroQ, FreeQ, NFreeQ, List, Log, PositiveQ, PositiveIntegerQ, NegativeIntegerQ, IntegerQ, IntegersQ, ComplexNumberQ, PureComplexNumberQ, RealNumericQ, PositiveOrZeroQ, NegativeOrZeroQ, FractionOrNegativeQ, NegQ, Equal, Unequal, IntPart, FracPart, RationalQ, ProductQ, SumQ, NonsumQ, Subst, First, Rest, SqrtNumberQ, SqrtNumberSumQ, LinearQ, Sqrt, ArcCosh, Coefficient, Denominator, Hypergeometric2F1, Not, Simplify, FractionalPart, IntegerPart, AppellF1, EllipticPi, EllipticE, EllipticF, ArcTan, ArcCot, ArcCoth, ArcTanh, ArcSin, ArcSinh, ArcCos, ArcCsc, ArcSec, ArcCsch, ArcSech, Sinh, Tanh, Cosh, Sech, Csch, Coth, LessEqual, Less, Greater, GreaterEqual, FractionQ, IntLinearcQ, Expand, IndependentQ, PowerQ, IntegerPowerQ, PositiveIntegerPowerQ, FractionalPowerQ, AtomQ, ExpQ, LogQ, Head, MemberQ, TrigQ, SinQ, CosQ, TanQ, CotQ, SecQ, CscQ, Sin, Cos, Tan, Cot, Sec, Csc, HyperbolicQ, SinhQ, CoshQ, TanhQ, CothQ, SechQ, CschQ, InverseTrigQ, SinCosQ, SinhCoshQ, LeafCount, Numerator, NumberQ, NumericQ, Length, ListQ, Im, Re, InverseHyperbolicQ, InverseFunctionQ, TrigHyperbolicFreeQ, InverseFunctionFreeQ, RealQ, EqQ, FractionalPowerFreeQ, ComplexFreeQ, PolynomialQ, FactorSquareFree, PowerOfLinearQ, Exponent, QuadraticQ, LinearPairQ, BinomialParts, TrinomialParts, PolyQ, EvenQ, OddQ, PerfectSquareQ, NiceSqrtAuxQ, NiceSqrtQ, Together, PosAux, PosQ, CoefficientList, ReplaceAll, ExpandLinearProduct, GCD, ContentFactor, NumericFactor, NonnumericFactors, MakeAssocList, GensymSubst, KernelSubst, ExpandExpression, Apart, SmartApart, MatchQ, PolynomialQuotientRemainder, FreeFactors, NonfreeFactors, RemoveContentAux, RemoveContent, FreeTerms, NonfreeTerms, ExpandAlgebraicFunction, CollectReciprocals, ExpandCleanup, AlgebraicFunctionQ, Coeff, LeadTerm, RemainingTerms, LeadFactor, RemainingFactors, LeadBase, LeadDegree, Numer, Denom, hypergeom, Expon, MergeMonomials, PolynomialDivide, BinomialQ, TrinomialQ, GeneralizedBinomialQ, GeneralizedTrinomialQ, FactorSquareFreeList, PerfectPowerTest, SquareFreeFactorTest, RationalFunctionQ, RationalFunctionFactors, NonrationalFunctionFactors, Reverse, RationalFunctionExponents, RationalFunctionExpand, ExpandIntegrand, SimplerQ, SimplerSqrtQ, SumSimplerQ, BinomialDegree, TrinomialDegree, CancelCommonFactors, SimplerIntegrandQ, GeneralizedBinomialDegree, GeneralizedBinomialParts, GeneralizedTrinomialDegree, GeneralizedTrinomialParts, MonomialQ, MonomialSumQ, MinimumMonomialExponent, MonomialExponent, LinearMatchQ, PowerOfLinearMatchQ, QuadraticMatchQ, CubicMatchQ, BinomialMatchQ, TrinomialMatchQ, GeneralizedBinomialMatchQ, GeneralizedTrinomialMatchQ, QuotientOfLinearsMatchQ, PolynomialTermQ, PolynomialTerms, NonpolynomialTerms, PseudoBinomialParts, NormalizePseudoBinomial, PseudoBinomialPairQ, PseudoBinomialQ, PolynomialGCD, PolyGCD, AlgebraicFunctionFactors, NonalgebraicFunctionFactors, QuotientOfLinearsP, QuotientOfLinearsParts, QuotientOfLinearsQ, Flatten, Sort, AbsurdNumberQ, AbsurdNumberFactors, NonabsurdNumberFactors, SumSimplerAuxQ, Prepend, Drop, CombineExponents, FactorInteger, FactorAbsurdNumber, SubstForInverseFunction, SubstForFractionalPower, SubstForFractionalPowerOfQuotientOfLinears, FractionalPowerOfQuotientOfLinears, SubstForFractionalPowerQ, SubstForFractionalPowerAuxQ, FractionalPowerOfSquareQ, FractionalPowerSubexpressionQ, Apply, FactorNumericGcd, MergeableFactorQ, MergeFactor, MergeFactors, TrigSimplifyQ, TrigSimplify, TrigSimplifyRecur, Order, FactorOrder, Smallest, OrderedQ, MinimumDegree, PositiveFactors, Sign, NonpositiveFactors, PolynomialInAuxQ, PolynomialInQ, ExponentInAux, ExponentIn, PolynomialInSubstAux, PolynomialInSubst, Distrib, DistributeDegree, FunctionOfPower, DivideDegreesOfFactors, MonomialFactor, FullSimplify, FunctionOfLinearSubst, FunctionOfLinear, NormalizeIntegrand, NormalizeIntegrandAux, NormalizeIntegrandFactor, NormalizeIntegrandFactorBase, NormalizeTogether, NormalizeLeadTermSigns, AbsorbMinusSign, NormalizeSumFactors, SignOfFactor, NormalizePowerOfLinear, SimplifyIntegrand, SimplifyTerm, TogetherSimplify, SmartSimplify, SubstForExpn, ExpandToSum, UnifySum, UnifyTerms, UnifyTerm, CalculusQ, FunctionOfInverseLinear, PureFunctionOfSinhQ, PureFunctionOfTanhQ, PureFunctionOfCoshQ, IntegerQuotientQ, OddQuotientQ, EvenQuotientQ, FindTrigFactor, FunctionOfSinhQ, FunctionOfCoshQ, OddHyperbolicPowerQ, FunctionOfTanhQ, FunctionOfTanhWeight, FunctionOfHyperbolicQ, SmartNumerator, SmartDenominator, SubstForAux, ActivateTrig, ExpandTrig, TrigExpand, SubstForTrig, SubstForHyperbolic, InertTrigFreeQ, LCM, SubstForFractionalPowerOfLinear, FractionalPowerOfLinear, InverseFunctionOfLinear, InertTrigQ, InertReciprocalQ, DeactivateTrig, FixInertTrigFunction, DeactivateTrigAux, PowerOfInertTrigSumQ, PiecewiseLinearQ, KnownTrigIntegrandQ, KnownSineIntegrandQ, KnownTangentIntegrandQ, KnownCotangentIntegrandQ, KnownSecantIntegrandQ, TryPureTanSubst, TryTanhSubst, TryPureTanhSubst, AbsurdNumberGCD, AbsurdNumberGCDList, ExpandTrigExpand, ExpandTrigReduce, ExpandTrigReduceAux, NormalizeTrig, TrigToExp, ExpandTrigToExp, TrigReduce, FunctionOfTrig, AlgebraicTrigFunctionQ, FunctionOfHyperbolic, FunctionOfQ, FunctionOfExpnQ, PureFunctionOfSinQ, PureFunctionOfCosQ, PureFunctionOfTanQ, PureFunctionOfCotQ, FunctionOfCosQ, FunctionOfSinQ, OddTrigPowerQ, FunctionOfTanQ, FunctionOfTanWeight, FunctionOfTrigQ, FunctionOfDensePolynomialsQ, FunctionOfLog, PowerVariableExpn, PowerVariableDegree, PowerVariableSubst, EulerIntegrandQ, FunctionOfSquareRootOfQuadratic, SquareRootOfQuadraticSubst, Divides, EasyDQ, ProductOfLinearPowersQ, Rt, NthRoot, AtomBaseQ, SumBaseQ, NegSumBaseQ, AllNegTermQ, SomeNegTermQ, TrigSquareQ, RtAux, TrigSquare, IntSum, IntTerm, Map2, ConstantFactor, SameQ, ReplacePart, CommonFactors, MostMainFactorPosition, FunctionOfExponentialQ, FunctionOfExponential, FunctionOfExponentialFunction, FunctionOfExponentialFunctionAux, FunctionOfExponentialTest, FunctionOfExponentialTestAux, stdev, rubi_test, If, IntQuadraticQ, IntBinomialQ, RectifyTangent, RectifyCotangent, Inequality, Condition, Simp, SimpHelp, SplitProduct, SplitSum, SubstFor, SubstForAux, FresnelS, FresnelC, Erfc, Erfi, Gamma, FunctionOfTrigOfLinearQ, ElementaryFunctionQ, Complex, UnsameQ, _SimpFixFactor, SimpFixFactor, _FixSimplify, FixSimplify, _SimplifyAntiderivativeSum, SimplifyAntiderivativeSum, _SimplifyAntiderivative, SimplifyAntiderivative, _TrigSimplifyAux, TrigSimplifyAux, Cancel, Part, PolyLog, D, Dist, Sum_doit, PolynomialQuotient, Floor, PolynomialRemainder, Factor, PolyLog, CosIntegral, SinIntegral, LogIntegral, SinhIntegral, CoshIntegral, Rule, Erf, PolyGamma, ExpIntegralEi, ExpIntegralE, LogGamma , UtilityOperator, Factorial, Zeta, ProductLog, DerivativeDivides, HypergeometricPFQ, IntHide, OneQ ) from sympy.core.add import Add from sympy.core.mod import Mod from sympy.core.mul import Mul from sympy.core.numbers import (Float, I, Integer) from sympy.core.power import Pow from sympy.core.singleton import S from sympy.functions.elementary.complexes import Abs from sympy.functions.elementary.miscellaneous import sqrt from sympy.integrals.integrals import Integral as Integrate from sympy.logic.boolalg import (And, Or) from sympy.simplify.simplify import simplify from sympy.integrals.rubi.symbol import WC from sympy.core.symbol import symbols, Symbol from sympy.functions import (sin, cos, tan, cot, csc, sec, sqrt, erf, exp, log) from sympy.functions.elementary.hyperbolic import (acosh, asinh, atanh, acoth, acsch, asech, cosh, sinh, tanh, coth, sech, csch) from sympy.functions.elementary.trigonometric import (atan, acsc, asin, acot, acos, asec) from sympy.integrals.rubi.rubimain import rubi_integrate from sympy.core.numbers import pi as Pi a, b, c, d, e, f, m, n, x, u , k, p, r, s, t, i, j= symbols('a b c d e f m n x u k p r s t i j') A, B, C, D, a, b, c, d, e, f, g, h, y, z, m, n, p, q, u, v, w, F = symbols('A B C D a b c d e f g h y z m n p q u v w F', ) def test_1(): assert rubi_test(rubi_integrate(x**S(4)*asinh(a*x), x), x, x**S(5)*asinh(a*x)/S(5) - (a**S(2)*x**S(2) + S(1))**(S(5)/2)/(S(25)*a**S(5)) + S(2)*(a**S(2)*x**S(2) + S(1))**(S(3)/2)/(S(15)*a**S(5)) - sqrt(a**S(2)*x**S(2) + S(1))/(S(5)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)*asinh(a*x), x), x, x**S(4)*asinh(a*x)/S(4) - x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(16)*a) + S(3)*x*sqrt(a**S(2)*x**S(2) + S(1))/(S(32)*a**S(3)) - S(3)*asinh(a*x)/(S(32)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*asinh(a*x), x), x, x**S(3)*asinh(a*x)/S(3) - (a**S(2)*x**S(2) + S(1))**(S(3)/2)/(S(9)*a**S(3)) + sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*asinh(a*x), x), x, x**S(2)*asinh(a*x)/S(2) - x*sqrt(a**S(2)*x**S(2) + S(1))/(S(4)*a) + asinh(a*x)/(S(4)*a**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x), x), x, x*asinh(a*x) - sqrt(a**S(2)*x**S(2) + S(1))/a, expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)/x, x), x, PolyLog(S(2), exp(S(2)*asinh(a*x)))/S(2) + log(-exp(S(2)*asinh(a*x)) + S(1))*asinh(a*x) - asinh(a*x)**S(2)/S(2), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)/x**S(2), x), x, -a*atanh(sqrt(a**S(2)*x**S(2) + S(1))) - asinh(a*x)/x, expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)/x**S(3), x), x, -a*sqrt(a**S(2)*x**S(2) + S(1))/(S(2)*x) - asinh(a*x)/(S(2)*x**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)/x**S(4), x), x, a**S(3)*atanh(sqrt(a**S(2)*x**S(2) + S(1)))/S(6) - a*sqrt(a**S(2)*x**S(2) + S(1))/(S(6)*x**S(2)) - asinh(a*x)/(S(3)*x**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)/x**S(5), x), x, a**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(6)*x) - a*sqrt(a**S(2)*x**S(2) + S(1))/(S(12)*x**S(3)) - asinh(a*x)/(S(4)*x**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)/x**S(6), x), x, -S(3)*a**S(5)*atanh(sqrt(a**S(2)*x**S(2) + S(1)))/S(40) + S(3)*a**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(40)*x**S(2)) - a*sqrt(a**S(2)*x**S(2) + S(1))/(S(20)*x**S(4)) - asinh(a*x)/(S(5)*x**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)*asinh(a*x)**S(2), x), x, x**S(5)*asinh(a*x)**S(2)/S(5) + S(2)*x**S(5)/S(125) - S(2)*x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(25)*a) - S(8)*x**S(3)/(S(225)*a**S(2)) + S(8)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(75)*a**S(3)) + S(16)*x/(S(75)*a**S(4)) - S(16)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(75)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)*asinh(a*x)**S(2), x), x, x**S(4)*asinh(a*x)**S(2)/S(4) + x**S(4)/S(32) - x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(8)*a) - S(3)*x**S(2)/(S(32)*a**S(2)) + S(3)*x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(16)*a**S(3)) - S(3)*asinh(a*x)**S(2)/(S(32)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*asinh(a*x)**S(2), x), x, x**S(3)*asinh(a*x)**S(2)/S(3) + S(2)*x**S(3)/S(27) - S(2)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(9)*a) - S(4)*x/(S(9)*a**S(2)) + S(4)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(9)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*asinh(a*x)**S(2), x), x, x**S(2)*asinh(a*x)**S(2)/S(2) + x**S(2)/S(4) - x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(2)*a) + asinh(a*x)**S(2)/(S(4)*a**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(2), x), x, x*asinh(a*x)**S(2) + S(2)*x - S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/a, expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(2)/x, x), x, PolyLog(S(2), exp(S(2)*asinh(a*x)))*asinh(a*x) - PolyLog(S(3), exp(S(2)*asinh(a*x)))/S(2) + log(-exp(S(2)*asinh(a*x)) + S(1))*asinh(a*x)**S(2) - asinh(a*x)**S(3)/S(3), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(2)/x**S(2), x), x, -S(2)*a*PolyLog(S(2), -exp(asinh(a*x))) + S(2)*a*PolyLog(S(2), exp(asinh(a*x))) - S(4)*a*asinh(a*x)*atanh(exp(asinh(a*x))) - asinh(a*x)**S(2)/x, expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(2)/x**S(3), x), x, a**S(2)*log(x) - a*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/x - asinh(a*x)**S(2)/(S(2)*x**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(2)/x**S(4), x), x, a**S(3)*PolyLog(S(2), -exp(asinh(a*x)))/S(3) - a**S(3)*PolyLog(S(2), exp(asinh(a*x)))/S(3) + S(2)*a**S(3)*asinh(a*x)*atanh(exp(asinh(a*x)))/S(3) - a**S(2)/(S(3)*x) - a*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(3)*x**S(2)) - asinh(a*x)**S(2)/(S(3)*x**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(2)/x**S(5), x), x, -a**S(4)*log(x)/S(3) + a**S(3)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(3)*x) - a**S(2)/(S(12)*x**S(2)) - a*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(6)*x**S(3)) - asinh(a*x)**S(2)/(S(4)*x**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)*asinh(a*x)**S(3), x), x, x**S(5)*asinh(a*x)**S(3)/S(5) + S(6)*x**S(5)*asinh(a*x)/S(125) - S(3)*x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(25)*a) - S(8)*x**S(3)*asinh(a*x)/(S(75)*a**S(2)) + S(4)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(25)*a**S(3)) + S(16)*x*asinh(a*x)/(S(25)*a**S(4)) - S(6)*(a**S(2)*x**S(2) + S(1))**(S(5)/2)/(S(625)*a**S(5)) + S(76)*(a**S(2)*x**S(2) + S(1))**(S(3)/2)/(S(1125)*a**S(5)) - S(8)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(25)*a**S(5)) - S(298)*sqrt(a**S(2)*x**S(2) + S(1))/(S(375)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)*asinh(a*x)**S(3), x), x, x**S(4)*asinh(a*x)**S(3)/S(4) + S(3)*x**S(4)*asinh(a*x)/S(32) - S(3)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(16)*a) - S(3)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(128)*a) - S(9)*x**S(2)*asinh(a*x)/(S(32)*a**S(2)) + S(9)*x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(32)*a**S(3)) + S(45)*x*sqrt(a**S(2)*x**S(2) + S(1))/(S(256)*a**S(3)) - S(3)*asinh(a*x)**S(3)/(S(32)*a**S(4)) - S(45)*asinh(a*x)/(S(256)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*asinh(a*x)**S(3), x), x, x**S(3)*asinh(a*x)**S(3)/S(3) + S(2)*x**S(3)*asinh(a*x)/S(9) - x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(3)*a) - S(4)*x*asinh(a*x)/(S(3)*a**S(2)) - S(2)*(a**S(2)*x**S(2) + S(1))**(S(3)/2)/(S(27)*a**S(3)) + S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(3)*a**S(3)) + S(14)*sqrt(a**S(2)*x**S(2) + S(1))/(S(9)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*asinh(a*x)**S(3), x), x, x**S(2)*asinh(a*x)**S(3)/S(2) + S(3)*x**S(2)*asinh(a*x)/S(4) - S(3)*x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(4)*a) - S(3)*x*sqrt(a**S(2)*x**S(2) + S(1))/(S(8)*a) + asinh(a*x)**S(3)/(S(4)*a**S(2)) + S(3)*asinh(a*x)/(S(8)*a**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(3), x), x, x*asinh(a*x)**S(3) + S(6)*x*asinh(a*x) - S(3)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/a - S(6)*sqrt(a**S(2)*x**S(2) + S(1))/a, expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(3)/x, x), x, S(3)*PolyLog(S(2), exp(S(2)*asinh(a*x)))*asinh(a*x)**S(2)/S(2) - S(3)*PolyLog(S(3), exp(S(2)*asinh(a*x)))*asinh(a*x)/S(2) + S(3)*PolyLog(S(4), exp(S(2)*asinh(a*x)))/S(4) + log(-exp(S(2)*asinh(a*x)) + S(1))*asinh(a*x)**S(3) - asinh(a*x)**S(4)/S(4), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(3)/x**S(2), x), x, -S(6)*a*PolyLog(S(2), -exp(asinh(a*x)))*asinh(a*x) + S(6)*a*PolyLog(S(2), exp(asinh(a*x)))*asinh(a*x) + S(6)*a*PolyLog(S(3), -exp(asinh(a*x))) - S(6)*a*PolyLog(S(3), exp(asinh(a*x))) - S(6)*a*asinh(a*x)**S(2)*atanh(exp(asinh(a*x))) - asinh(a*x)**S(3)/x, expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(3)/x**S(3), x), x, S(3)*a**S(2)*PolyLog(S(2), exp(S(2)*asinh(a*x)))/S(2) + S(3)*a**S(2)*log(-exp(S(2)*asinh(a*x)) + S(1))*asinh(a*x) - S(3)*a**S(2)*asinh(a*x)**S(2)/S(2) - S(3)*a*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(2)*x) - asinh(a*x)**S(3)/(S(2)*x**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(3)/x**S(4), x), x, a**S(3)*PolyLog(S(2), -exp(asinh(a*x)))*asinh(a*x) - a**S(3)*PolyLog(S(2), exp(asinh(a*x)))*asinh(a*x) - a**S(3)*PolyLog(S(3), -exp(asinh(a*x))) + a**S(3)*PolyLog(S(3), exp(asinh(a*x))) + a**S(3)*asinh(a*x)**S(2)*atanh(exp(asinh(a*x))) - a**S(3)*atanh(sqrt(a**S(2)*x**S(2) + S(1))) - a**S(2)*asinh(a*x)/x - a*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(2)*x**S(2)) - asinh(a*x)**S(3)/(S(3)*x**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(3)/x**S(5), x), x, -a**S(4)*PolyLog(S(2), exp(S(2)*asinh(a*x)))/S(2) - a**S(4)*log(-exp(S(2)*asinh(a*x)) + S(1))*asinh(a*x) + a**S(4)*asinh(a*x)**S(2)/S(2) + a**S(3)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(2)*x) - a**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(4)*x) - a**S(2)*asinh(a*x)/(S(4)*x**S(2)) - a*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(2)/(S(4)*x**S(3)) - asinh(a*x)**S(3)/(S(4)*x**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(5)*asinh(a*x)**S(4), x), x, x**S(6)*asinh(a*x)**S(4)/S(6) + x**S(6)*asinh(a*x)**S(2)/S(18) + x**S(6)/S(324) - x**S(5)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(9)*a) - x**S(5)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(54)*a) - S(5)*x**S(4)*asinh(a*x)**S(2)/(S(48)*a**S(2)) - S(65)*x**S(4)/(S(3456)*a**S(2)) + S(5)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(36)*a**S(3)) + S(65)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(864)*a**S(3)) + S(5)*x**S(2)*asinh(a*x)**S(2)/(S(16)*a**S(4)) + S(245)*x**S(2)/(S(1152)*a**S(4)) - S(5)*x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(24)*a**S(5)) - S(245)*x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(576)*a**S(5)) + S(5)*asinh(a*x)**S(4)/(S(96)*a**S(6)) + S(245)*asinh(a*x)**S(2)/(S(1152)*a**S(6)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)*asinh(a*x)**S(4), x), x, x**S(5)*asinh(a*x)**S(4)/S(5) + S(12)*x**S(5)*asinh(a*x)**S(2)/S(125) + S(24)*x**S(5)/S(3125) - S(4)*x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(25)*a) - S(24)*x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(625)*a) - S(16)*x**S(3)*asinh(a*x)**S(2)/(S(75)*a**S(2)) - S(1088)*x**S(3)/(S(16875)*a**S(2)) + S(16)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(75)*a**S(3)) + S(1088)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(5625)*a**S(3)) + S(32)*x*asinh(a*x)**S(2)/(S(25)*a**S(4)) + S(16576)*x/(S(5625)*a**S(4)) - S(32)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(75)*a**S(5)) - S(16576)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(5625)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)*asinh(a*x)**S(4), x), x, x**S(4)*asinh(a*x)**S(4)/S(4) + S(3)*x**S(4)*asinh(a*x)**S(2)/S(16) + S(3)*x**S(4)/S(128) - x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(4)*a) - S(3)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(32)*a) - S(9)*x**S(2)*asinh(a*x)**S(2)/(S(16)*a**S(2)) - S(45)*x**S(2)/(S(128)*a**S(2)) + S(3)*x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(8)*a**S(3)) + S(45)*x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(64)*a**S(3)) - S(3)*asinh(a*x)**S(4)/(S(32)*a**S(4)) - S(45)*asinh(a*x)**S(2)/(S(128)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*asinh(a*x)**S(4), x), x, x**S(3)*asinh(a*x)**S(4)/S(3) + S(4)*x**S(3)*asinh(a*x)**S(2)/S(9) + S(8)*x**S(3)/S(81) - S(4)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(9)*a) - S(8)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(27)*a) - S(8)*x*asinh(a*x)**S(2)/(S(3)*a**S(2)) - S(160)*x/(S(27)*a**S(2)) + S(8)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(9)*a**S(3)) + S(160)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(27)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*asinh(a*x)**S(4), x), x, x**S(2)*asinh(a*x)**S(4)/S(2) + S(3)*x**S(2)*asinh(a*x)**S(2)/S(2) + S(3)*x**S(2)/S(4) - x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/a - S(3)*x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/(S(2)*a) + asinh(a*x)**S(4)/(S(4)*a**S(2)) + S(3)*asinh(a*x)**S(2)/(S(4)*a**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(4), x), x, x*asinh(a*x)**S(4) + S(12)*x*asinh(a*x)**S(2) + S(24)*x - S(4)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/a - S(24)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)/a, expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(4)/x, x), x, S(2)*PolyLog(S(2), exp(S(2)*asinh(a*x)))*asinh(a*x)**S(3) - S(3)*PolyLog(S(3), exp(S(2)*asinh(a*x)))*asinh(a*x)**S(2) + S(3)*PolyLog(S(4), exp(S(2)*asinh(a*x)))*asinh(a*x) - S(3)*PolyLog(S(5), exp(S(2)*asinh(a*x)))/S(2) + log(-exp(S(2)*asinh(a*x)) + S(1))*asinh(a*x)**S(4) - asinh(a*x)**S(5)/S(5), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(4)/x**S(2), x), x, -S(12)*a*PolyLog(S(2), -exp(asinh(a*x)))*asinh(a*x)**S(2) + S(12)*a*PolyLog(S(2), exp(asinh(a*x)))*asinh(a*x)**S(2) + S(24)*a*PolyLog(S(3), -exp(asinh(a*x)))*asinh(a*x) - S(24)*a*PolyLog(S(3), exp(asinh(a*x)))*asinh(a*x) - S(24)*a*PolyLog(S(4), -exp(asinh(a*x))) + S(24)*a*PolyLog(S(4), exp(asinh(a*x))) - S(8)*a*asinh(a*x)**S(3)*atanh(exp(asinh(a*x))) - asinh(a*x)**S(4)/x, expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(4)/x**S(3), x), x, S(6)*a**S(2)*PolyLog(S(2), exp(S(2)*asinh(a*x)))*asinh(a*x) - S(3)*a**S(2)*PolyLog(S(3), exp(S(2)*asinh(a*x))) + S(6)*a**S(2)*log(-exp(S(2)*asinh(a*x)) + S(1))*asinh(a*x)**S(2) - S(2)*a**S(2)*asinh(a*x)**S(3) - S(2)*a*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/x - asinh(a*x)**S(4)/(S(2)*x**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**S(4)/x**S(4), x), x, S(2)*a**S(3)*PolyLog(S(2), -exp(asinh(a*x)))*asinh(a*x)**S(2) - S(4)*a**S(3)*PolyLog(S(2), -exp(asinh(a*x))) - S(2)*a**S(3)*PolyLog(S(2), exp(asinh(a*x)))*asinh(a*x)**S(2) + S(4)*a**S(3)*PolyLog(S(2), exp(asinh(a*x))) - S(4)*a**S(3)*PolyLog(S(3), -exp(asinh(a*x)))*asinh(a*x) + S(4)*a**S(3)*PolyLog(S(3), exp(asinh(a*x)))*asinh(a*x) + S(4)*a**S(3)*PolyLog(S(4), -exp(asinh(a*x))) - S(4)*a**S(3)*PolyLog(S(4), exp(asinh(a*x))) + S(4)*a**S(3)*asinh(a*x)**S(3)*atanh(exp(asinh(a*x)))/S(3) - S(8)*a**S(3)*asinh(a*x)*atanh(exp(asinh(a*x))) - S(2)*a**S(2)*asinh(a*x)**S(2)/x - S(2)*a*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**S(3)/(S(3)*x**S(2)) - asinh(a*x)**S(4)/(S(3)*x**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(6)/asinh(a*x), x), x, -S(5)*CoshIntegral(asinh(a*x))/(S(64)*a**S(7)) + S(9)*CoshIntegral(S(3)*asinh(a*x))/(S(64)*a**S(7)) - S(5)*CoshIntegral(S(5)*asinh(a*x))/(S(64)*a**S(7)) + CoshIntegral(S(7)*asinh(a*x))/(S(64)*a**S(7)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(5)/asinh(a*x), x), x, S(5)*SinhIntegral(S(2)*asinh(a*x))/(S(32)*a**S(6)) - SinhIntegral(S(4)*asinh(a*x))/(S(8)*a**S(6)) + SinhIntegral(S(6)*asinh(a*x))/(S(32)*a**S(6)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)/asinh(a*x), x), x, CoshIntegral(asinh(a*x))/(S(8)*a**S(5)) - S(3)*CoshIntegral(S(3)*asinh(a*x))/(S(16)*a**S(5)) + CoshIntegral(S(5)*asinh(a*x))/(S(16)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)/asinh(a*x), x), x, -SinhIntegral(S(2)*asinh(a*x))/(S(4)*a**S(4)) + SinhIntegral(S(4)*asinh(a*x))/(S(8)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/asinh(a*x), x), x, -CoshIntegral(asinh(a*x))/(S(4)*a**S(3)) + CoshIntegral(S(3)*asinh(a*x))/(S(4)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/asinh(a*x), x), x, SinhIntegral(S(2)*asinh(a*x))/(S(2)*a**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/asinh(a*x), x), x, CoshIntegral(asinh(a*x))/a, expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x*asinh(a*x)), x), x, Integrate(S(1)/(x*asinh(a*x)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x**S(2)*asinh(a*x)), x), x, Integrate(S(1)/(x**S(2)*asinh(a*x)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(6)/asinh(a*x)**S(2), x), x, -x**S(6)*sqrt(a**S(2)*x**S(2) + S(1))/(a*asinh(a*x)) - S(5)*SinhIntegral(asinh(a*x))/(S(64)*a**S(7)) + S(27)*SinhIntegral(S(3)*asinh(a*x))/(S(64)*a**S(7)) - S(25)*SinhIntegral(S(5)*asinh(a*x))/(S(64)*a**S(7)) + S(7)*SinhIntegral(S(7)*asinh(a*x))/(S(64)*a**S(7)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(5)/asinh(a*x)**S(2), x), x, -x**S(5)*sqrt(a**S(2)*x**S(2) + S(1))/(a*asinh(a*x)) + S(5)*CoshIntegral(S(2)*asinh(a*x))/(S(16)*a**S(6)) - CoshIntegral(S(4)*asinh(a*x))/(S(2)*a**S(6)) + S(3)*CoshIntegral(S(6)*asinh(a*x))/(S(16)*a**S(6)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)/asinh(a*x)**S(2), x), x, -x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))/(a*asinh(a*x)) + SinhIntegral(asinh(a*x))/(S(8)*a**S(5)) - S(9)*SinhIntegral(S(3)*asinh(a*x))/(S(16)*a**S(5)) + S(5)*SinhIntegral(S(5)*asinh(a*x))/(S(16)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)/asinh(a*x)**S(2), x), x, -x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(a*asinh(a*x)) - CoshIntegral(S(2)*asinh(a*x))/(S(2)*a**S(4)) + CoshIntegral(S(4)*asinh(a*x))/(S(2)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/asinh(a*x)**S(2), x), x, -x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(a*asinh(a*x)) - SinhIntegral(asinh(a*x))/(S(4)*a**S(3)) + S(3)*SinhIntegral(S(3)*asinh(a*x))/(S(4)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/asinh(a*x)**S(2), x), x, -x*sqrt(a**S(2)*x**S(2) + S(1))/(a*asinh(a*x)) + CoshIntegral(S(2)*asinh(a*x))/a**S(2), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**(S(-2)), x), x, -sqrt(a**S(2)*x**S(2) + S(1))/(a*asinh(a*x)) + SinhIntegral(asinh(a*x))/a, expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x*asinh(a*x)**S(2)), x), x, Integrate(S(1)/(x*asinh(a*x)**S(2)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x**S(2)*asinh(a*x)**S(2)), x), x, Integrate(S(1)/(x**S(2)*asinh(a*x)**S(2)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)/asinh(a*x)**S(3), x), x, -S(5)*x**S(5)/(S(2)*asinh(a*x)) - x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))/(S(2)*a*asinh(a*x)**S(2)) - S(2)*x**S(3)/(a**S(2)*asinh(a*x)) + CoshIntegral(asinh(a*x))/(S(16)*a**S(5)) - S(27)*CoshIntegral(S(3)*asinh(a*x))/(S(32)*a**S(5)) + S(25)*CoshIntegral(S(5)*asinh(a*x))/(S(32)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)/asinh(a*x)**S(3), x), x, -S(2)*x**S(4)/asinh(a*x) - x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(2)*a*asinh(a*x)**S(2)) - S(3)*x**S(2)/(S(2)*a**S(2)*asinh(a*x)) - SinhIntegral(S(2)*asinh(a*x))/(S(2)*a**S(4)) + SinhIntegral(S(4)*asinh(a*x))/a**S(4), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/asinh(a*x)**S(3), x), x, -S(3)*x**S(3)/(S(2)*asinh(a*x)) - x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(S(2)*a*asinh(a*x)**S(2)) - x/(a**S(2)*asinh(a*x)) - CoshIntegral(asinh(a*x))/(S(8)*a**S(3)) + S(9)*CoshIntegral(S(3)*asinh(a*x))/(S(8)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/asinh(a*x)**S(3), x), x, -x**S(2)/asinh(a*x) - x*sqrt(a**S(2)*x**S(2) + S(1))/(S(2)*a*asinh(a*x)**S(2)) + SinhIntegral(S(2)*asinh(a*x))/a**S(2) - S(1)/(S(2)*a**S(2)*asinh(a*x)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**(S(-3)), x), x, -x/(S(2)*asinh(a*x)) - sqrt(a**S(2)*x**S(2) + S(1))/(S(2)*a*asinh(a*x)**S(2)) + CoshIntegral(asinh(a*x))/(S(2)*a), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x*asinh(a*x)**S(3)), x), x, Integrate(S(1)/(x*asinh(a*x)**S(3)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x**S(2)*asinh(a*x)**S(3)), x), x, Integrate(S(1)/(x**S(2)*asinh(a*x)**S(3)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)/asinh(a*x)**S(4), x), x, -S(5)*x**S(5)/(S(6)*asinh(a*x)**S(2)) - S(25)*x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))/(S(6)*a*asinh(a*x)) - x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)**S(3)) - S(2)*x**S(3)/(S(3)*a**S(2)*asinh(a*x)**S(2)) - S(2)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(a**S(3)*asinh(a*x)) + SinhIntegral(asinh(a*x))/(S(48)*a**S(5)) - S(27)*SinhIntegral(S(3)*asinh(a*x))/(S(32)*a**S(5)) + S(125)*SinhIntegral(S(5)*asinh(a*x))/(S(96)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)/asinh(a*x)**S(4), x), x, -S(2)*x**S(4)/(S(3)*asinh(a*x)**S(2)) - S(8)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)) - x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)**S(3)) - x**S(2)/(S(2)*a**S(2)*asinh(a*x)**S(2)) - x*sqrt(a**S(2)*x**S(2) + S(1))/(a**S(3)*asinh(a*x)) - CoshIntegral(S(2)*asinh(a*x))/(S(3)*a**S(4)) + S(4)*CoshIntegral(S(4)*asinh(a*x))/(S(3)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/asinh(a*x)**S(4), x), x, -x**S(3)/(S(2)*asinh(a*x)**S(2)) - S(3)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(S(2)*a*asinh(a*x)) - x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)**S(3)) - x/(S(3)*a**S(2)*asinh(a*x)**S(2)) - sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a**S(3)*asinh(a*x)) - SinhIntegral(asinh(a*x))/(S(24)*a**S(3)) + S(9)*SinhIntegral(S(3)*asinh(a*x))/(S(8)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/asinh(a*x)**S(4), x), x, -x**S(2)/(S(3)*asinh(a*x)**S(2)) - S(2)*x*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)) - x*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)**S(3)) + S(2)*CoshIntegral(S(2)*asinh(a*x))/(S(3)*a**S(2)) - S(1)/(S(6)*a**S(2)*asinh(a*x)**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**(S(-4)), x), x, -x/(S(6)*asinh(a*x)**S(2)) - sqrt(a**S(2)*x**S(2) + S(1))/(S(6)*a*asinh(a*x)) - sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)**S(3)) + SinhIntegral(asinh(a*x))/(S(6)*a), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x*asinh(a*x)**S(4)), x), x, Integrate(S(1)/(x*asinh(a*x)**S(4)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x**S(2)*asinh(a*x)**S(4)), x), x, Integrate(S(1)/(x**S(2)*asinh(a*x)**S(4)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)*sqrt(asinh(a*x)), x), x, -sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(192)*a**S(5)) + sqrt(S(5))*sqrt(Pi)*Erf(sqrt(S(5))*sqrt(asinh(a*x)))/(S(1600)*a**S(5)) + sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(32)*a**S(5)) + sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(192)*a**S(5)) - sqrt(S(5))*sqrt(Pi)*Erfi(sqrt(S(5))*sqrt(asinh(a*x)))/(S(1600)*a**S(5)) - sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(32)*a**S(5)) + x**S(5)*sqrt(asinh(a*x))/S(5), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)*sqrt(asinh(a*x)), x), x, sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(64)*a**S(4)) - sqrt(Pi)*Erf(S(2)*sqrt(asinh(a*x)))/(S(256)*a**S(4)) + sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(64)*a**S(4)) - sqrt(Pi)*Erfi(S(2)*sqrt(asinh(a*x)))/(S(256)*a**S(4)) + x**S(4)*sqrt(asinh(a*x))/S(4) - S(3)*sqrt(asinh(a*x))/(S(32)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*sqrt(asinh(a*x)), x), x, sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(144)*a**S(3)) - sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(16)*a**S(3)) - sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(144)*a**S(3)) + sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(16)*a**S(3)) + x**S(3)*sqrt(asinh(a*x))/S(3), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*sqrt(asinh(a*x)), x), x, -sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(32)*a**S(2)) - sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(32)*a**S(2)) + x**S(2)*sqrt(asinh(a*x))/S(2) + sqrt(asinh(a*x))/(S(4)*a**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(sqrt(asinh(a*x)), x), x, sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(4)*a) - sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(4)*a) + x*sqrt(asinh(a*x)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(sqrt(asinh(a*x))/x, x), x, Integrate(sqrt(asinh(a*x))/x, x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)*asinh(a*x)**(S(3)/2), x), x, -sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(384)*a**S(5)) + S(3)*sqrt(S(5))*sqrt(Pi)*Erf(sqrt(S(5))*sqrt(asinh(a*x)))/(S(16000)*a**S(5)) + S(3)*sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(64)*a**S(5)) - sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(384)*a**S(5)) + S(3)*sqrt(S(5))*sqrt(Pi)*Erfi(sqrt(S(5))*sqrt(asinh(a*x)))/(S(16000)*a**S(5)) + S(3)*sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(64)*a**S(5)) + x**S(5)*asinh(a*x)**(S(3)/2)/S(5) - S(3)*x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))*sqrt(asinh(a*x))/(S(50)*a) + S(2)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*sqrt(asinh(a*x))/(S(25)*a**S(3)) - S(4)*sqrt(a**S(2)*x**S(2) + S(1))*sqrt(asinh(a*x))/(S(25)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)*asinh(a*x)**(S(3)/2), x), x, S(3)*sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(256)*a**S(4)) - S(3)*sqrt(Pi)*Erf(S(2)*sqrt(asinh(a*x)))/(S(2048)*a**S(4)) - S(3)*sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(256)*a**S(4)) + S(3)*sqrt(Pi)*Erfi(S(2)*sqrt(asinh(a*x)))/(S(2048)*a**S(4)) + x**S(4)*asinh(a*x)**(S(3)/2)/S(4) - S(3)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))*sqrt(asinh(a*x))/(S(32)*a) + S(9)*x*sqrt(a**S(2)*x**S(2) + S(1))*sqrt(asinh(a*x))/(S(64)*a**S(3)) - S(3)*asinh(a*x)**(S(3)/2)/(S(32)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*asinh(a*x)**(S(3)/2), x), x, sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(288)*a**S(3)) - S(3)*sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(32)*a**S(3)) + sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(288)*a**S(3)) - S(3)*sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(32)*a**S(3)) + x**S(3)*asinh(a*x)**(S(3)/2)/S(3) - x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*sqrt(asinh(a*x))/(S(6)*a) + sqrt(a**S(2)*x**S(2) + S(1))*sqrt(asinh(a*x))/(S(3)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*asinh(a*x)**(S(3)/2), x), x, -S(3)*sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(128)*a**S(2)) + S(3)*sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(128)*a**S(2)) + x**S(2)*asinh(a*x)**(S(3)/2)/S(2) - S(3)*x*sqrt(a**S(2)*x**S(2) + S(1))*sqrt(asinh(a*x))/(S(8)*a) + asinh(a*x)**(S(3)/2)/(S(4)*a**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**(S(3)/2), x), x, S(3)*sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(8)*a) + S(3)*sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(8)*a) + x*asinh(a*x)**(S(3)/2) - S(3)*sqrt(a**S(2)*x**S(2) + S(1))*sqrt(asinh(a*x))/(S(2)*a), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**(S(3)/2)/x, x), x, Integrate(asinh(a*x)**(S(3)/2)/x, x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)*asinh(a*x)**(S(5)/2), x), x, -S(5)*sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(2304)*a**S(5)) + S(3)*sqrt(S(5))*sqrt(Pi)*Erf(sqrt(S(5))*sqrt(asinh(a*x)))/(S(32000)*a**S(5)) + S(15)*sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(128)*a**S(5)) + S(5)*sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(2304)*a**S(5)) - S(3)*sqrt(S(5))*sqrt(Pi)*Erfi(sqrt(S(5))*sqrt(asinh(a*x)))/(S(32000)*a**S(5)) - S(15)*sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(128)*a**S(5)) + x**S(5)*asinh(a*x)**(S(5)/2)/S(5) + S(3)*x**S(5)*sqrt(asinh(a*x))/S(100) - x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**(S(3)/2)/(S(10)*a) - x**S(3)*sqrt(asinh(a*x))/(S(15)*a**S(2)) + S(2)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**(S(3)/2)/(S(15)*a**S(3)) + S(2)*x*sqrt(asinh(a*x))/(S(5)*a**S(4)) - S(4)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**(S(3)/2)/(S(15)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)*asinh(a*x)**(S(5)/2), x), x, S(15)*sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(1024)*a**S(4)) - S(15)*sqrt(Pi)*Erf(S(2)*sqrt(asinh(a*x)))/(S(16384)*a**S(4)) + S(15)*sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(1024)*a**S(4)) - S(15)*sqrt(Pi)*Erfi(S(2)*sqrt(asinh(a*x)))/(S(16384)*a**S(4)) + x**S(4)*asinh(a*x)**(S(5)/2)/S(4) + S(15)*x**S(4)*sqrt(asinh(a*x))/S(256) - S(5)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**(S(3)/2)/(S(32)*a) - S(45)*x**S(2)*sqrt(asinh(a*x))/(S(256)*a**S(2)) + S(15)*x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**(S(3)/2)/(S(64)*a**S(3)) - S(3)*asinh(a*x)**(S(5)/2)/(S(32)*a**S(4)) - S(225)*sqrt(asinh(a*x))/(S(2048)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*asinh(a*x)**(S(5)/2), x), x, S(5)*sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(1728)*a**S(3)) - S(15)*sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(64)*a**S(3)) - S(5)*sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(1728)*a**S(3)) + S(15)*sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(64)*a**S(3)) + x**S(3)*asinh(a*x)**(S(5)/2)/S(3) + S(5)*x**S(3)*sqrt(asinh(a*x))/S(36) - S(5)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**(S(3)/2)/(S(18)*a) - S(5)*x*sqrt(asinh(a*x))/(S(6)*a**S(2)) + S(5)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**(S(3)/2)/(S(9)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*asinh(a*x)**(S(5)/2), x), x, -S(15)*sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(512)*a**S(2)) - S(15)*sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(512)*a**S(2)) + x**S(2)*asinh(a*x)**(S(5)/2)/S(2) + S(15)*x**S(2)*sqrt(asinh(a*x))/S(32) - S(5)*x*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**(S(3)/2)/(S(8)*a) + asinh(a*x)**(S(5)/2)/(S(4)*a**S(2)) + S(15)*sqrt(asinh(a*x))/(S(64)*a**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**(S(5)/2), x), x, S(15)*sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(16)*a) - S(15)*sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(16)*a) + x*asinh(a*x)**(S(5)/2) + S(15)*x*sqrt(asinh(a*x))/S(4) - S(5)*sqrt(a**S(2)*x**S(2) + S(1))*asinh(a*x)**(S(3)/2)/(S(2)*a), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**(S(5)/2)/x, x), x, Integrate(asinh(a*x)**(S(5)/2)/x, x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)/sqrt(asinh(a*x)), x), x, -sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(32)*a**S(5)) + sqrt(S(5))*sqrt(Pi)*Erf(sqrt(S(5))*sqrt(asinh(a*x)))/(S(160)*a**S(5)) + sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(16)*a**S(5)) - sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(32)*a**S(5)) + sqrt(S(5))*sqrt(Pi)*Erfi(sqrt(S(5))*sqrt(asinh(a*x)))/(S(160)*a**S(5)) + sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(16)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)/sqrt(asinh(a*x)), x), x, sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(16)*a**S(4)) - sqrt(Pi)*Erf(S(2)*sqrt(asinh(a*x)))/(S(32)*a**S(4)) - sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(16)*a**S(4)) + sqrt(Pi)*Erfi(S(2)*sqrt(asinh(a*x)))/(S(32)*a**S(4)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/sqrt(asinh(a*x)), x), x, sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(24)*a**S(3)) - sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(8)*a**S(3)) + sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(24)*a**S(3)) - sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(8)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/sqrt(asinh(a*x)), x), x, -sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(8)*a**S(2)) + sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(8)*a**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/sqrt(asinh(a*x)), x), x, sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(2)*a) + sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(2)*a), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x*sqrt(asinh(a*x))), x), x, Integrate(S(1)/(x*sqrt(asinh(a*x))), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x**S(2)*sqrt(asinh(a*x))), x), x, Integrate(S(1)/(x**S(2)*sqrt(asinh(a*x))), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)/asinh(a*x)**(S(3)/2), x), x, S(3)*sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(16)*a**S(5)) - sqrt(S(5))*sqrt(Pi)*Erf(sqrt(S(5))*sqrt(asinh(a*x)))/(S(16)*a**S(5)) - sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(8)*a**S(5)) - S(3)*sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(16)*a**S(5)) + sqrt(S(5))*sqrt(Pi)*Erfi(sqrt(S(5))*sqrt(asinh(a*x)))/(S(16)*a**S(5)) + sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(8)*a**S(5)) - S(2)*x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))/(a*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)/asinh(a*x)**(S(3)/2), x), x, -sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(4)*a**S(4)) + sqrt(Pi)*Erf(S(2)*sqrt(asinh(a*x)))/(S(4)*a**S(4)) - sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(4)*a**S(4)) + sqrt(Pi)*Erfi(S(2)*sqrt(asinh(a*x)))/(S(4)*a**S(4)) - S(2)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(a*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/asinh(a*x)**(S(3)/2), x), x, -sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(4)*a**S(3)) + sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(4)*a**S(3)) + sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(4)*a**S(3)) - sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(4)*a**S(3)) - S(2)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(a*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/asinh(a*x)**(S(3)/2), x), x, sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(2)*a**S(2)) + sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(2)*a**S(2)) - S(2)*x*sqrt(a**S(2)*x**S(2) + S(1))/(a*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**(S(-3)/2), x), x, -sqrt(Pi)*Erf(sqrt(asinh(a*x)))/a + sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/a - S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(a*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x*asinh(a*x)**(S(3)/2)), x), x, Integrate(S(1)/(x*asinh(a*x)**(S(3)/2)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)/asinh(a*x)**(S(5)/2), x), x, -S(3)*sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(8)*a**S(5)) + S(5)*sqrt(S(5))*sqrt(Pi)*Erf(sqrt(S(5))*sqrt(asinh(a*x)))/(S(24)*a**S(5)) + sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(12)*a**S(5)) - S(3)*sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(8)*a**S(5)) + S(5)*sqrt(S(5))*sqrt(Pi)*Erfi(sqrt(S(5))*sqrt(asinh(a*x)))/(S(24)*a**S(5)) + sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(12)*a**S(5)) - S(20)*x**S(5)/(S(3)*sqrt(asinh(a*x))) - S(2)*x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)**(S(3)/2)) - S(16)*x**S(3)/(S(3)*a**S(2)*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)/asinh(a*x)**(S(5)/2), x), x, sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(3)*a**S(4)) - S(2)*sqrt(Pi)*Erf(S(2)*sqrt(asinh(a*x)))/(S(3)*a**S(4)) - sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(3)*a**S(4)) + S(2)*sqrt(Pi)*Erfi(S(2)*sqrt(asinh(a*x)))/(S(3)*a**S(4)) - S(16)*x**S(4)/(S(3)*sqrt(asinh(a*x))) - S(2)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)**(S(3)/2)) - S(4)*x**S(2)/(a**S(2)*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/asinh(a*x)**(S(5)/2), x), x, sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(2)*a**S(3)) - sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(6)*a**S(3)) + sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(2)*a**S(3)) - sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(6)*a**S(3)) - S(4)*x**S(3)/sqrt(asinh(a*x)) - S(2)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)**(S(3)/2)) - S(8)*x/(S(3)*a**S(2)*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/asinh(a*x)**(S(5)/2), x), x, -S(2)*sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(3)*a**S(2)) + S(2)*sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(3)*a**S(2)) - S(8)*x**S(2)/(S(3)*sqrt(asinh(a*x))) - S(2)*x*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)**(S(3)/2)) - S(4)/(S(3)*a**S(2)*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**(S(-5)/2), x), x, S(2)*sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(3)*a) + S(2)*sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(3)*a) - S(4)*x/(S(3)*sqrt(asinh(a*x))) - S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*asinh(a*x)**(S(3)/2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x*asinh(a*x)**(S(5)/2)), x), x, Integrate(S(1)/(x*asinh(a*x)**(S(5)/2)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)/asinh(a*x)**(S(7)/2), x), x, S(9)*sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(20)*a**S(5)) - S(5)*sqrt(S(5))*sqrt(Pi)*Erf(sqrt(S(5))*sqrt(asinh(a*x)))/(S(12)*a**S(5)) - sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(30)*a**S(5)) - S(9)*sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(20)*a**S(5)) + S(5)*sqrt(S(5))*sqrt(Pi)*Erfi(sqrt(S(5))*sqrt(asinh(a*x)))/(S(12)*a**S(5)) + sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(30)*a**S(5)) - S(4)*x**S(5)/(S(3)*asinh(a*x)**(S(3)/2)) - S(40)*x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))/(S(3)*a*sqrt(asinh(a*x))) - S(2)*x**S(4)*sqrt(a**S(2)*x**S(2) + S(1))/(S(5)*a*asinh(a*x)**(S(5)/2)) - S(16)*x**S(3)/(S(15)*a**S(2)*asinh(a*x)**(S(3)/2)) - S(32)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(S(5)*a**S(3)*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(3)/asinh(a*x)**(S(7)/2), x), x, -S(4)*sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(15)*a**S(4)) + S(16)*sqrt(Pi)*Erf(S(2)*sqrt(asinh(a*x)))/(S(15)*a**S(4)) - S(4)*sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(15)*a**S(4)) + S(16)*sqrt(Pi)*Erfi(S(2)*sqrt(asinh(a*x)))/(S(15)*a**S(4)) - S(16)*x**S(4)/(S(15)*asinh(a*x)**(S(3)/2)) - S(128)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(15)*a*sqrt(asinh(a*x))) - S(2)*x**S(3)*sqrt(a**S(2)*x**S(2) + S(1))/(S(5)*a*asinh(a*x)**(S(5)/2)) - S(4)*x**S(2)/(S(5)*a**S(2)*asinh(a*x)**(S(3)/2)) - S(16)*x*sqrt(a**S(2)*x**S(2) + S(1))/(S(5)*a**S(3)*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/asinh(a*x)**(S(7)/2), x), x, -S(3)*sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(asinh(a*x)))/(S(5)*a**S(3)) + sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(15)*a**S(3)) + S(3)*sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(asinh(a*x)))/(S(5)*a**S(3)) - sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(15)*a**S(3)) - S(4)*x**S(3)/(S(5)*asinh(a*x)**(S(3)/2)) - S(24)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(S(5)*a*sqrt(asinh(a*x))) - S(2)*x**S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(S(5)*a*asinh(a*x)**(S(5)/2)) - S(8)*x/(S(15)*a**S(2)*asinh(a*x)**(S(3)/2)) - S(16)*sqrt(a**S(2)*x**S(2) + S(1))/(S(15)*a**S(3)*sqrt(asinh(a*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/asinh(a*x)**(S(7)/2), x), x, S(8)*sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(asinh(a*x)))/(S(15)*a**S(2)) + S(8)*sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(asinh(a*x)))/(S(15)*a**S(2)) - S(8)*x**S(2)/(S(15)*asinh(a*x)**(S(3)/2)) - S(32)*x*sqrt(a**S(2)*x**S(2) + S(1))/(S(15)*a*sqrt(asinh(a*x))) - S(2)*x*sqrt(a**S(2)*x**S(2) + S(1))/(S(5)*a*asinh(a*x)**(S(5)/2)) - S(4)/(S(15)*a**S(2)*asinh(a*x)**(S(3)/2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**(S(-7)/2), x), x, -S(4)*sqrt(Pi)*Erf(sqrt(asinh(a*x)))/(S(15)*a) + S(4)*sqrt(Pi)*Erfi(sqrt(asinh(a*x)))/(S(15)*a) - S(4)*x/(S(15)*asinh(a*x)**(S(3)/2)) - S(8)*sqrt(a**S(2)*x**S(2) + S(1))/(S(15)*a*sqrt(asinh(a*x))) - S(2)*sqrt(a**S(2)*x**S(2) + S(1))/(S(5)*a*asinh(a*x)**(S(5)/2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/(x*asinh(a*x)**(S(7)/2)), x), x, Integrate(S(1)/(x*asinh(a*x)**(S(7)/2)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m*asinh(a*x)**S(4), x), x, -S(4)*a*Integrate(x**(m + S(1))*asinh(a*x)**S(3)/sqrt(a**S(2)*x**S(2) + S(1)), x)/(m + S(1)) + x**(m + S(1))*asinh(a*x)**S(4)/(m + S(1)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m*asinh(a*x)**S(3), x), x, -S(3)*a*Integrate(x**(m + S(1))*asinh(a*x)**S(2)/sqrt(a**S(2)*x**S(2) + S(1)), x)/(m + S(1)) + x**(m + S(1))*asinh(a*x)**S(3)/(m + S(1)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m*asinh(a*x)**S(2), x), x, S(2)*a**S(2)*x**(m + S(3))*HypergeometricPFQ(List(S(1), m/S(2) + S(3)/2, m/S(2) + S(3)/2), List(m/S(2) + S(2), m/S(2) + S(5)/2), -a**S(2)*x**S(2))/(m**S(3) + S(6)*m**S(2) + S(11)*m + S(6)) - S(2)*a*x**(m + S(2))*Hypergeometric2F1(S(1)/2, m/S(2) + S(1), m/S(2) + S(2), -a**S(2)*x**S(2))*asinh(a*x)/(m**S(2) + S(3)*m + S(2)) + x**(m + S(1))*asinh(a*x)**S(2)/(m + S(1)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m*asinh(a*x), x), x, -a*x**(m + S(2))*Hypergeometric2F1(S(1)/2, m/S(2) + S(1), m/S(2) + S(2), -a**S(2)*x**S(2))/(m**S(2) + S(3)*m + S(2)) + x**(m + S(1))*asinh(a*x)/(m + S(1)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m/asinh(a*x), x), x, Integrate(x**m/asinh(a*x), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m/asinh(a*x)**S(2), x), x, Integrate(x**m/asinh(a*x)**S(2), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m*asinh(a*x)**(S(5)/2), x), x, Integrate(x**m*asinh(a*x)**(S(5)/2), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m*asinh(a*x)**(S(3)/2), x), x, Integrate(x**m*asinh(a*x)**(S(3)/2), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m*sqrt(asinh(a*x)), x), x, Integrate(x**m*sqrt(asinh(a*x)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m/sqrt(asinh(a*x)), x), x, Integrate(x**m/sqrt(asinh(a*x)), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**m/asinh(a*x)**(S(3)/2), x), x, Integrate(x**m/asinh(a*x)**(S(3)/2), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate((b*x)**m*asinh(a*x)**n, x), x, Integrate((b*x)**m*asinh(a*x)**n, x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(4)*asinh(a*x)**n, x), x, -S(5)**(-n + S(-1))*Gamma(n + S(1), S(5)*asinh(a*x))/(S(32)*a**S(5)) + S(5)**(-n + S(-1))*(-asinh(a*x))**(-n)*Gamma(n + S(1), -S(5)*asinh(a*x))*asinh(a*x)**n/(S(32)*a**S(5)) - Gamma(n + S(1), asinh(a*x))/(S(16)*a**S(5)) + (-asinh(a*x))**(-n)*Gamma(n + S(1), -asinh(a*x))*asinh(a*x)**n/(S(16)*a**S(5)) + S(3)**(-n)*Gamma(n + S(1), S(3)*asinh(a*x))/(S(32)*a**S(5)) - S(3)**(-n)*(-asinh(a*x))**(-n)*Gamma(n + S(1), -S(3)*asinh(a*x))*asinh(a*x)**n/(S(32)*a**S(5)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*asinh(a*x)**n, x), x, -S(3)**(-n + S(-1))*Gamma(n + S(1), S(3)*asinh(a*x))/(S(8)*a**S(3)) + S(3)**(-n + S(-1))*(-asinh(a*x))**(-n)*Gamma(n + S(1), -S(3)*asinh(a*x))*asinh(a*x)**n/(S(8)*a**S(3)) + Gamma(n + S(1), asinh(a*x))/(S(8)*a**S(3)) - (-asinh(a*x))**(-n)*Gamma(n + S(1), -asinh(a*x))*asinh(a*x)**n/(S(8)*a**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*asinh(a*x)**n, x), x, S(2)**(-n + S(-3))*Gamma(n + S(1), S(2)*asinh(a*x))/a**S(2) + S(2)**(-n + S(-3))*(-asinh(a*x))**(-n)*Gamma(n + S(1), -S(2)*asinh(a*x))*asinh(a*x)**n/a**S(2), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**n, x), x, -Gamma(n + S(1), asinh(a*x))/(S(2)*a) + (-asinh(a*x))**(-n)*Gamma(n + S(1), -asinh(a*x))*asinh(a*x)**n/(S(2)*a), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**n/x, x), x, Integrate(asinh(a*x)**n/x, x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(asinh(a*x)**n/x**S(2), x), x, Integrate(asinh(a*x)**n/x**S(2), x), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*sqrt(a + b*asinh(c*x)), x), x, -sqrt(Pi)*sqrt(b)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(16)*c**S(3)) + sqrt(S(3))*sqrt(Pi)*sqrt(b)*Erf(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(3)*a/b)/(S(144)*c**S(3)) + sqrt(Pi)*sqrt(b)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(16)*c**S(3)) - sqrt(S(3))*sqrt(Pi)*sqrt(b)*Erfi(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(3)*a/b)/(S(144)*c**S(3)) + x**S(3)*sqrt(a + b*asinh(c*x))/S(3), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*sqrt(a + b*asinh(c*x)), x), x, -sqrt(S(2))*sqrt(Pi)*sqrt(b)*Erf(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(2)*a/b)/(S(32)*c**S(2)) - sqrt(S(2))*sqrt(Pi)*sqrt(b)*Erfi(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(2)*a/b)/(S(32)*c**S(2)) + x**S(2)*sqrt(a + b*asinh(c*x))/S(2) + sqrt(a + b*asinh(c*x))/(S(4)*c**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(sqrt(a + b*asinh(c*x)), x), x, sqrt(Pi)*sqrt(b)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(4)*c) - sqrt(Pi)*sqrt(b)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(4)*c) + x*sqrt(a + b*asinh(c*x)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*(a + b*asinh(c*x))**(S(3)/2), x), x, -S(3)*sqrt(Pi)*b**(S(3)/2)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(32)*c**S(3)) + sqrt(S(3))*sqrt(Pi)*b**(S(3)/2)*Erf(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(3)*a/b)/(S(288)*c**S(3)) - S(3)*sqrt(Pi)*b**(S(3)/2)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(32)*c**S(3)) + sqrt(S(3))*sqrt(Pi)*b**(S(3)/2)*Erfi(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(3)*a/b)/(S(288)*c**S(3)) - b*x**S(2)*sqrt(a + b*asinh(c*x))*sqrt(c**S(2)*x**S(2) + S(1))/(S(6)*c) + b*sqrt(a + b*asinh(c*x))*sqrt(c**S(2)*x**S(2) + S(1))/(S(3)*c**S(3)) + x**S(3)*(a + b*asinh(c*x))**(S(3)/2)/S(3), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*(a + b*asinh(c*x))**(S(3)/2), x), x, -S(3)*sqrt(S(2))*sqrt(Pi)*b**(S(3)/2)*Erf(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(2)*a/b)/(S(128)*c**S(2)) + S(3)*sqrt(S(2))*sqrt(Pi)*b**(S(3)/2)*Erfi(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(2)*a/b)/(S(128)*c**S(2)) - S(3)*b*x*sqrt(a + b*asinh(c*x))*sqrt(c**S(2)*x**S(2) + S(1))/(S(8)*c) + x**S(2)*(a + b*asinh(c*x))**(S(3)/2)/S(2) + (a + b*asinh(c*x))**(S(3)/2)/(S(4)*c**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate((a + b*asinh(c*x))**(S(3)/2), x), x, S(3)*sqrt(Pi)*b**(S(3)/2)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(8)*c) + S(3)*sqrt(Pi)*b**(S(3)/2)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(8)*c) - S(3)*b*sqrt(a + b*asinh(c*x))*sqrt(c**S(2)*x**S(2) + S(1))/(S(2)*c) + x*(a + b*asinh(c*x))**(S(3)/2), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)*(a + b*asinh(c*x))**(S(5)/2), x), x, -S(15)*sqrt(Pi)*b**(S(5)/2)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(64)*c**S(3)) + S(5)*sqrt(S(3))*sqrt(Pi)*b**(S(5)/2)*Erf(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(3)*a/b)/(S(1728)*c**S(3)) + S(15)*sqrt(Pi)*b**(S(5)/2)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(64)*c**S(3)) - S(5)*sqrt(S(3))*sqrt(Pi)*b**(S(5)/2)*Erfi(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(3)*a/b)/(S(1728)*c**S(3)) + S(5)*b**S(2)*x**S(3)*sqrt(a + b*asinh(c*x))/S(36) - S(5)*b**S(2)*x*sqrt(a + b*asinh(c*x))/(S(6)*c**S(2)) - S(5)*b*x**S(2)*(a + b*asinh(c*x))**(S(3)/2)*sqrt(c**S(2)*x**S(2) + S(1))/(S(18)*c) + S(5)*b*(a + b*asinh(c*x))**(S(3)/2)*sqrt(c**S(2)*x**S(2) + S(1))/(S(9)*c**S(3)) + x**S(3)*(a + b*asinh(c*x))**(S(5)/2)/S(3), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x*(a + b*asinh(c*x))**(S(5)/2), x), x, -S(15)*sqrt(S(2))*sqrt(Pi)*b**(S(5)/2)*Erf(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(2)*a/b)/(S(512)*c**S(2)) - S(15)*sqrt(S(2))*sqrt(Pi)*b**(S(5)/2)*Erfi(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(2)*a/b)/(S(512)*c**S(2)) + S(15)*b**S(2)*x**S(2)*sqrt(a + b*asinh(c*x))/S(32) + S(15)*b**S(2)*sqrt(a + b*asinh(c*x))/(S(64)*c**S(2)) - S(5)*b*x*(a + b*asinh(c*x))**(S(3)/2)*sqrt(c**S(2)*x**S(2) + S(1))/(S(8)*c) + x**S(2)*(a + b*asinh(c*x))**(S(5)/2)/S(2) + (a + b*asinh(c*x))**(S(5)/2)/(S(4)*c**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate((a + b*asinh(c*x))**(S(5)/2), x), x, S(15)*sqrt(Pi)*b**(S(5)/2)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(16)*c) - S(15)*sqrt(Pi)*b**(S(5)/2)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(16)*c) + S(15)*b**S(2)*x*sqrt(a + b*asinh(c*x))/S(4) - S(5)*b*(a + b*asinh(c*x))**(S(3)/2)*sqrt(c**S(2)*x**S(2) + S(1))/(S(2)*c) + x*(a + b*asinh(c*x))**(S(5)/2), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/sqrt(a + b*asinh(c*x)), x), x, -sqrt(Pi)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(8)*sqrt(b)*c**S(3)) + sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(3)*a/b)/(S(24)*sqrt(b)*c**S(3)) - sqrt(Pi)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(8)*sqrt(b)*c**S(3)) + sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(3)*a/b)/(S(24)*sqrt(b)*c**S(3)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/sqrt(a + b*asinh(c*x)), x), x, -sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(2)*a/b)/(S(8)*sqrt(b)*c**S(2)) + sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(2)*a/b)/(S(8)*sqrt(b)*c**S(2)), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(S(1)/sqrt(a + b*asinh(c*x)), x), x, sqrt(Pi)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(2)*sqrt(b)*c) + sqrt(Pi)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(2)*sqrt(b)*c), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/(a + b*asinh(c*x))**(S(3)/2), x), x, sqrt(Pi)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(4)*b**(S(3)/2)*c**S(3)) - sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(3)*a/b)/(S(4)*b**(S(3)/2)*c**S(3)) - sqrt(Pi)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(4)*b**(S(3)/2)*c**S(3)) + sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(3)*a/b)/(S(4)*b**(S(3)/2)*c**S(3)) - S(2)*x**S(2)*sqrt(c**S(2)*x**S(2) + S(1))/(b*c*sqrt(a + b*asinh(c*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/(a + b*asinh(c*x))**(S(3)/2), x), x, sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(2)*a/b)/(S(2)*b**(S(3)/2)*c**S(2)) + sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(2)*a/b)/(S(2)*b**(S(3)/2)*c**S(2)) - S(2)*x*sqrt(c**S(2)*x**S(2) + S(1))/(b*c*sqrt(a + b*asinh(c*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate((a + b*asinh(c*x))**(S(-3)/2), x), x, -sqrt(Pi)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(b**(S(3)/2)*c) + sqrt(Pi)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(b**(S(3)/2)*c) - S(2)*sqrt(c**S(2)*x**S(2) + S(1))/(b*c*sqrt(a + b*asinh(c*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/(a + b*asinh(c*x))**(S(5)/2), x), x, -sqrt(Pi)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(6)*b**(S(5)/2)*c**S(3)) + sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(3)*a/b)/(S(2)*b**(S(5)/2)*c**S(3)) - sqrt(Pi)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(6)*b**(S(5)/2)*c**S(3)) + sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(3)*a/b)/(S(2)*b**(S(5)/2)*c**S(3)) - S(2)*x**S(2)*sqrt(c**S(2)*x**S(2) + S(1))/(S(3)*b*c*(a + b*asinh(c*x))**(S(3)/2)) - S(4)*x**S(3)/(b**S(2)*sqrt(a + b*asinh(c*x))) - S(8)*x/(S(3)*b**S(2)*c**S(2)*sqrt(a + b*asinh(c*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/(a + b*asinh(c*x))**(S(5)/2), x), x, -S(2)*sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(2)*a/b)/(S(3)*b**(S(5)/2)*c**S(2)) + S(2)*sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(2)*a/b)/(S(3)*b**(S(5)/2)*c**S(2)) - S(2)*x*sqrt(c**S(2)*x**S(2) + S(1))/(S(3)*b*c*(a + b*asinh(c*x))**(S(3)/2)) - S(8)*x**S(2)/(S(3)*b**S(2)*sqrt(a + b*asinh(c*x))) - S(4)/(S(3)*b**S(2)*c**S(2)*sqrt(a + b*asinh(c*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate((a + b*asinh(c*x))**(S(-5)/2), x), x, S(2)*sqrt(Pi)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(3)*b**(S(5)/2)*c) + S(2)*sqrt(Pi)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(3)*b**(S(5)/2)*c) - S(2)*sqrt(c**S(2)*x**S(2) + S(1))/(S(3)*b*c*(a + b*asinh(c*x))**(S(3)/2)) - S(4)*x/(S(3)*b**S(2)*sqrt(a + b*asinh(c*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x**S(2)/(a + b*asinh(c*x))**(S(7)/2), x), x, sqrt(Pi)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(15)*b**(S(7)/2)*c**S(3)) - S(3)*sqrt(S(3))*sqrt(Pi)*Erf(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(3)*a/b)/(S(5)*b**(S(7)/2)*c**S(3)) - sqrt(Pi)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(15)*b**(S(7)/2)*c**S(3)) + S(3)*sqrt(S(3))*sqrt(Pi)*Erfi(sqrt(S(3))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(3)*a/b)/(S(5)*b**(S(7)/2)*c**S(3)) - S(2)*x**S(2)*sqrt(c**S(2)*x**S(2) + S(1))/(S(5)*b*c*(a + b*asinh(c*x))**(S(5)/2)) - S(4)*x**S(3)/(S(5)*b**S(2)*(a + b*asinh(c*x))**(S(3)/2)) - S(8)*x/(S(15)*b**S(2)*c**S(2)*(a + b*asinh(c*x))**(S(3)/2)) - S(24)*x**S(2)*sqrt(c**S(2)*x**S(2) + S(1))/(S(5)*b**S(3)*c*sqrt(a + b*asinh(c*x))) - S(16)*sqrt(c**S(2)*x**S(2) + S(1))/(S(15)*b**S(3)*c**S(3)*sqrt(a + b*asinh(c*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate(x/(a + b*asinh(c*x))**(S(7)/2), x), x, S(8)*sqrt(S(2))*sqrt(Pi)*Erf(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(S(2)*a/b)/(S(15)*b**(S(7)/2)*c**S(2)) + S(8)*sqrt(S(2))*sqrt(Pi)*Erfi(sqrt(S(2))*sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-S(2)*a/b)/(S(15)*b**(S(7)/2)*c**S(2)) - S(2)*x*sqrt(c**S(2)*x**S(2) + S(1))/(S(5)*b*c*(a + b*asinh(c*x))**(S(5)/2)) - S(8)*x**S(2)/(S(15)*b**S(2)*(a + b*asinh(c*x))**(S(3)/2)) - S(4)/(S(15)*b**S(2)*c**S(2)*(a + b*asinh(c*x))**(S(3)/2)) - S(32)*x*sqrt(c**S(2)*x**S(2) + S(1))/(S(15)*b**S(3)*c*sqrt(a + b*asinh(c*x))), expand=True, _diff=True, _numerical=True) assert rubi_test(rubi_integrate((a + b*asinh(c*x))**(S(-7)/2), x), x, -S(4)*sqrt(Pi)*Erf(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(a/b)/(S(15)*b**(S(7)/2)*c) + S(4)*sqrt(Pi)*Erfi(sqrt(a + b*asinh(c*x))/sqrt(b))*exp(-a/b)/(S(15)*b**(S(7)/2)*c) - S(2)*sqrt(c**S(2)*x**S(2) + S(1))/(S(5)*b*c*(a + b*asinh(c*x))**(S(5)/2)) - S(4)*x/(S(15)*b**S(2)*(a + b*asinh(c*x))**(S(3)/2)) - S(8)*sqrt(c**S(2)*x**S(2) + S(1))/(S(15)*b**S(3)*c*sqrt(a + b*asinh(c*x))), expand=True, _diff=True, _numerical=True)

219.916107

926

0.573022

14,814

65,535

2.492102

0.041852

0.061271

0.137656

0.12265

0.806923

0.7998

0.794707

0.78455

0.769462

0.743079

0

0.059526

0.08127

65,535

297

927

220.656566

0.553638

0.000595

0

0.006849

0

0.003425

0.001267

0

0.530822

1

0.003425

false

0

0.075342

0

0.078767

0

null

0

1

0

1

0

null

0

1

0

8

2c209bd7539bd0fe050cb9e3c2952d318fa15acb

126

py

Python

models/__init__.py

davidkimolo/library-management-system-with-odoo-13

ae2f489def6e2895c2ae59feec51a956febcc017

[ "Apache-2.0" ]

null

models/__init__.py

davidkimolo/library-management-system-with-odoo-13

ae2f489def6e2895c2ae59feec51a956febcc017

[ "Apache-2.0" ]

null

models/__init__.py

davidkimolo/library-management-system-with-odoo-13

ae2f489def6e2895c2ae59feec51a956febcc017

[ "Apache-2.0" ]

null

from . import account from . import library_editor_supplier from . import library from . import product from . import stock

15.75

37

0.785714

17

126

5.705882

0.470588

0.515464

0.350515

0

0.174603

126

7

38

18

0.932692

0

1

0

true

0

1

0

1

0

1

0

null

1

0

1

0

null

0

1

0

1

0

1

0

7

2c30e1a30521d2fcc985551b582fc06ddd344343

2,240

py

Python

Day01_1.py

miiila/AoC217

e787b5c1e266a89e7f1aad75ec17d3628eb740de

[ "MIT" ]

null

Day01_1.py

miiila/AoC217

e787b5c1e266a89e7f1aad75ec17d3628eb740de

[ "MIT" ]

null

Day01_1.py

miiila/AoC217

e787b5c1e266a89e7f1aad75ec17d3628eb740de

[ "MIT" ]

null

i = 494751136895345894732582362629576539599184296195318162664695189393364372585778868512194863927652788149779748657989318645936221887731542718562643272683862627537378624843614831337441659741281289638765171452576466381314558821636595394981788588673443769343597851883955668818165723174939893841654914556681324133667446412138511724424292394454166623639872425168644336248217213826339741267546823779383343362789527461579565822966859349777937921933694912369552152772735167832762563719664315456987186713541153781499646178238762644186484381142249926194743713139262596264878458636595896487362658672224346241358667234115974528626523648311919886566497837217169673923935143386823757293148719377821517314629812886912412829924484513493885672343964151252433622341141661523814465991516961684511941471572895453711624986269342398786175846925783918686856442684489873327497698963658862856336682422797551251489126661954848572297228765445646745256499679451426358865477844467458533962981852292513358871483321161973583245698763531598395467675529181496911117769834127516441369261275244225978893617456524385518493112272169767775861256649728253754964675812534546226295535939697352141217337346738553495616832783757866928174519145357234834584788253893618549484385733283627199445369658339175644484859385884574943219267922729967571943843794565736975716174727852348441254492886794362934343868643337828637454277582276962353246357835493338372219824371517526474283541714897994127864461433627894831268659336264234436872715374727211764167739169341999573855627775114848275268739159272518673316753672995297888734844388928439859359992475637439771269232916542385876779616695129412366735112593669719335783511355773814685491876721452994714318863716542473187246351548626157775143333161422867924437526253865859969947366972895674966845993244925218766937543487875485647329995285821739359369998935331986126873726737672159265827566443794515755939813676194755474477224152139987944419463371386499841415227734673733555261543871359797796529847861748979527579985757964742667473767269248335229836818297477665453189662485548925521497365877771665365728224394427883312135322325169141784 res = 0 prev = 0 while (i > 0): j = i%10 if (prev == j): res += j prev = j i //=10 res += 4 print(res)

160

2,128

0.971429

25

2,240

87.04

0.44

0.001838

0.003676

0

0.969091

0.017857

2,240

14

2,129

160

0.02

0

1

0

1

0

false

0

0.090909

1

0

1

null

0

1

0

1

0

null

1

0

7

d338a24543b68aeaba1845c2c0eae9efb9da48e8

5,548

py

Python

scripts/client/example.py

keithofaptos/draconity

f7f0caca998481d72f5bd2b3ffbdad6fad5f8f30

[ "MIT" ]

2

2018-12-28T08:07:48.000Z

2018-12-28T08:07:49.000Z

scripts/client/example.py

keithofaptos/draconity

f7f0caca998481d72f5bd2b3ffbdad6fad5f8f30

[ "MIT" ]

null

scripts/client/example.py

keithofaptos/draconity

f7f0caca998481d72f5bd2b3ffbdad6fad5f8f30

[ "MIT" ]

null

from common import call, wait import bson import time import sys wait() cfg = '''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'''.strip().decode('hex') start = time.time() print call({ 'cmd': 'g.load', 'name': 'test', 'data': bson.binary.Binary(cfg), 'main_rule': 'test::main', }) print call({'cmd': 'g.listset', 'name': 'test', 'list': 'door', 'items': ['front', 'side', 'garage', 'back', 'patio', 'french']}) print call({'cmd': 'g.listset', 'name': 'test', 'list': 'room', 'items': ['kitchen', 'bedroom', 'living room', 'dining room']}) # print call({'cmd': 'g.listset', 'name': 'test', 'list': 'list', 'items': sys.argv[1:]}) print call({'cmd': 'g.update', 'name': 'test', 'enabled': True}) print time.time() - start # print call({'cmd': 'g.update', 'name': 'test', 'enabled': False, 'exclusive': True, 'priority': 0})

241.217391

4,786

0.940159

107

5,548

48.738318

0.448598

0.010355

0.013806

0.014957

0.031448

0

0.848869

0.019647

5,548

22

4,787

252.181818

0.109947

0.033706

0

0.924412

0.886898

0

1

0

null

0

0.235294

null

0.294118

0

1

null

0

1

0

1

0

1

null

1

0

1

0

9

d33bf93ef77b99cf04526aeed17b28a4c7be8c90

9,775

py

Python

code/gather_for_map.py

GiorgosPanagopoulos/pandemic_tgnn

f9d6c7c0c617d2b6049e7bc20a8b3e5f0fd90d91

[ "MIT" ]

null

code/gather_for_map.py

GiorgosPanagopoulos/pandemic_tgnn

f9d6c7c0c617d2b6049e7bc20a8b3e5f0fd90d91

[ "MIT" ]

null

code/gather_for_map.py

GiorgosPanagopoulos/pandemic_tgnn

f9d6c7c0c617d2b6049e7bc20a8b3e5f0fd90d91

[ "MIT" ]

null

import time import argparse import networkx as nx import numpy as np import scipy.sparse as sp from sklearn import preprocessing import os import pandas as pd from math import ceil from datetime import date, timedelta import itertools import pandas as pd from sklearn.preprocessing import MinMaxScaler import numpy as np import os from functools import reduce from utils import generate_graphs_britain, generate_graphs_by_day step = 5 start_exp = 15 window = 7 os.chdir("/Italy") labels = pd.read_csv("italy_labels.csv") labels.loc[labels["name"]=="reggio_di_calabria","name"] = "reggio_calabria" labels.loc[labels["name"]=="reggio_nell'emilia","name"] = "reggio_emilia" labels.loc[labels["name"]=="bolzano","name"] = "bolzano_bozen" labels.loc[labels["name"]=="l'aquila","name"] = "la_aquila" del labels["id"] labels = labels.set_index("name") sdate = date(2020, 2, 24) edate = date(2020, 5, 12) delta = edate - sdate dates = [sdate + timedelta(days=i) for i in range(delta.days+1)] dates = [str(date) for date in dates] Gs = generate_graphs_by_day(dates,"IT") #labels = labels[,:] labels = labels.loc[Gs[0].nodes(),:] labels = labels.loc[labels.sum(1).values>10,dates] gs_adj = [nx.adjacency_matrix(kgs).toarray().T for kgs in Gs] y = list() for i,G in enumerate(Gs): y.append(list()) for node in G.nodes(): y[i].append(labels.loc[node,dates[i]]) nodez = Gs[0].nodes() main = pd.DataFrame(labels.loc[nodez,labels.columns[start_exp]:].mean(1)) main.columns = ["avg_cases"] main["cases"] = pd.DataFrame(labels.loc[nodez,labels.columns[start_exp]:].sum(1)) main = main.reset_index() #df = pd.DataFrame(labels.iloc[:,start_exp:].mean(1)) #df.columns = ["avg_cases"] #df["cases"] = pd.DataFrame(labels.iloc[:,start_exp:].sum(1)) #df = df.reset_index() os.chdir("/output") x0 = [] x1 = [] x2 = [] x3 = [] x4 = [] for i in range(15,79): try: x0.append(pd.read_csv("out_IT_"+str(i)+"_0.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x1.append(pd.read_csv("out_IT_"+str(i)+"_1.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x2.append(pd.read_csv("out_IT_"+str(i)+"_2.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x3.append(pd.read_csv("out_IT_"+str(i)+"_3.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x4.append(pd.read_csv("out_IT_"+str(i)+"_4.csv")) #df.drop(df.columns[0],1)) except: print(i) n = x0[0]["n"] cnt = 0 pds = [] pds_r = [] for i in range(0,len(x4)): tmpx = [x0[i],x1[i],x2[i],x3[i],x4[i]] # step = 5 d = reduce(lambda p, l: p.add(l, fill_value=0), tmpx) del d["n"] d = d/step par = d["l"].copy() par[par<1]=1 pds.append(abs(d["o"]-d["l"])) pds_r.append(abs(d["o"]-d["l"])/par) pds_r = reduce(lambda p, l: p.add(l, fill_value=0), pds_r)/i pds = reduce(lambda p, l: p.add(l, fill_value=0), pds)/i df = pd.DataFrame({"relative":pds_r.values,"real":pds.values,"name":n }) tmp = df.merge(main,on='name') tmp.to_csv("it_map_plot_"+str(step)+".csv") #------------------------------------- os.chdir("/Spain") labels = pd.read_csv("spain_labels.csv") labels = labels.set_index("name") sdate = date(2020, 3, 12) edate = date(2020, 5, 12) #--- series of graphs and their respective dates delta = edate - sdate dates = [sdate + timedelta(days=i) for i in range(delta.days+1)] dates = [str(date) for date in dates] Gs = generate_graphs_by_day(dates,"ES") l = Gs[0].nodes() #l.remove("zaragoza") labels = labels.loc[l,:] labels = labels.loc[labels.sum(1).values>10,dates] #nodez = Gs[0].nodes() main = pd.DataFrame(labels.loc[:,labels.columns[start_exp]:].mean(1)) main.columns = ["avg_cases"] main["cases"] = pd.DataFrame(labels.loc[:,labels.columns[start_exp]:].sum(1)) main = main.reset_index() #df = pd.DataFrame(labels.iloc[:,start_exp:].mean(1)) #df.columns = ["avg_cases"] #df["cases"] = pd.DataFrame(labels.iloc[:,start_exp:].sum(1)) #df = df.reset_index() os.chdir("/output") x0 = [] x1 = [] x2 = [] x3 = [] x4 = [] for i in range(15,62-step): try: x0.append(pd.read_csv("out_ES_"+str(i)+"_0.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x1.append(pd.read_csv("out_ES_"+str(i)+"_1.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x2.append(pd.read_csv("out_ES_"+str(i)+"_2.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x3.append(pd.read_csv("out_ES_"+str(i)+"_3.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x4.append(pd.read_csv("out_ES_"+str(i)+"_4.csv")) #df.drop(df.columns[0],1)) except: print(i) n = x0[0]["n"] cnt = 0 pds = [] pds_r = [] for i in range(0,len(x4)): tmpx = [x0[i],x1[i],x2[i],x3[i],x4[i]] # step = 5 d = reduce(lambda p, l: p.add(l, fill_value=0), tmpx) del d["n"] d = d/step par = d["l"].copy() par[par<1]=1 pds.append(abs(d["o"]-d["l"])) pds_r.append(abs(d["o"]-d["l"])/par) pds_r = reduce(lambda p, l: p.add(l, fill_value=0), pds_r)/i pds = reduce(lambda p, l: p.add(l, fill_value=0), pds)/i df = pd.DataFrame({"relative":pds_r.values,"real":pds.values,"name":n }) tmp = df.merge(main,on='name') tmp.to_csv("es_map_plot_"+str(step)+".csv") #--------------------------------- os.chdir("/France") labels = pd.read_csv("france_labels.csv") #del labels["id"] labels = labels.set_index("name") sdate = date(2020, 3, 10) edate = date(2020, 5, 12) #Gs = generate_graphs(dates) delta = edate - sdate dates = [sdate + timedelta(days=i) for i in range(delta.days+1)] dates = [str(date) for date in dates] labels = labels.loc[labels.sum(1).values>10,dates] Gs = generate_graphs_by_day(dates,"FR") labels = labels.loc[Gs[0].nodes(),:] #nodez = Gs[0].nodes() main = pd.DataFrame(labels.loc[:,labels.columns[start_exp]:].mean(1)) main.columns = ["avg_cases"] main["cases"] = pd.DataFrame(labels.loc[:,labels.columns[start_exp]:].sum(1)) main = main.reset_index() os.chdir("/output") x0 = [] x1 = [] x2 = [] x3 = [] x4 = [] for i in range(15,64-step): try: x0.append(pd.read_csv("out_FR_"+str(i)+"_0.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x1.append(pd.read_csv("out_FR_"+str(i)+"_1.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x2.append(pd.read_csv("out_FR_"+str(i)+"_2.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x3.append(pd.read_csv("out_FR_"+str(i)+"_3.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x4.append(pd.read_csv("out_FR_"+str(i)+"_4.csv")) #df.drop(df.columns[0],1)) except: print(i) n = x0[0]["n"] cnt = 0 pds = [] pds_r = [] for i in range(0,len(x4)): tmpx = [x0[i],x1[i],x2[i],x3[i],x4[i]] # step = 5 d = reduce(lambda p, l: p.add(l, fill_value=0), tmpx) del d["n"] d = d/step par = d["l"].copy() par[par<1]=1 pds.append(abs(d["o"]-d["l"])) pds_r.append(abs(d["o"]-d["l"])/par) pds_r = reduce(lambda p, l: p.add(l, fill_value=0), pds_r)/i pds = reduce(lambda p, l: p.add(l, fill_value=0), pds)/i df = pd.DataFrame({"relative":pds_r.values,"real":pds.values,"name":n }) tmp = df.merge(main,on='name') tmp.to_csv("fr_map_plot_"+str(step)+".csv") #--------------------------------- os.chdir("/Britain") labels = pd.read_csv("england_labels.csv") #del labels["id"] labels = labels.set_index("name") sdate = date(2020, 3, 13) edate = date(2020, 5, 12) #Gs = generate_graphs(dates) delta = edate - sdate dates = [sdate + timedelta(days=i) for i in range(delta.days+1)] dates = [str(date) for date in dates] labels = labels.loc[labels.sum(1).values>10,dates] Gs = generate_graphs_britain(dates) labels = labels.loc[Gs[0].nodes(),:] labels = labels.loc[labels.sum(1).values>10,dates] #nodez = Gs[0].nodes() main = pd.DataFrame(labels.loc[:,labels.columns[start_exp]:].mean(1)) main.columns = ["avg_cases"] main["cases"] = pd.DataFrame(labels.loc[:,labels.columns[start_exp]:].sum(1)) main = main.reset_index() #start_exp = 15 #df = pd.DataFrame(labels.iloc[:,start_exp:].mean(1)) #df.columns = ["avg_cases"] #df["cases"] = pd.DataFrame(labels.iloc[:,start_exp:].sum(1)) #df = df.reset_index() os.chdir("/output") x0 = [] x1 = [] x2 = [] x3 = [] x4 = [] for i in range(15,62-step): try: x0.append(pd.read_csv("out_EN_"+str(i)+"_0.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x1.append(pd.read_csv("out_EN_"+str(i)+"_1.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x2.append(pd.read_csv("out_EN_"+str(i)+"_2.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x3.append(pd.read_csv("out_EN_"+str(i)+"_3.csv")) #df.drop(df.columns[0],1)) except: print(i) try: x4.append(pd.read_csv("out_EN_"+str(i)+"_4.csv")) #df.drop(df.columns[0],1)) except: print(i) n = x0[0]["n"] cnt = 0 pds = [] pds_r = [] for i in range(0,len(x4)): tmpx = [x0[i],x1[i],x2[i],x3[i],x4[i]] # step = 5 d = reduce(lambda p, l: p.add(l, fill_value=0), tmpx) del d["n"] d = d/step par = d["l"].copy() par[par<1]=1 pds.append(abs(d["o"]-d["l"])) pds_r.append(abs(d["o"]-d["l"])/par) pds_r = reduce(lambda p, l: p.add(l, fill_value=0), pds_r)/i pds = reduce(lambda p, l: p.add(l, fill_value=0), pds)/i df = pd.DataFrame({"relative":pds_r.values,"real":pds.values,"name":n }) tmp = df.merge(main,on='name') tmp.to_csv("en_map_plot_"+str(step)+".csv")

24.560302

81

0.59468

1,670

9,775

3.362874

0.094611

0.025641

0.038462

0.053419

0.855413

0.823184

0.819088

0.803597

0.788462

0.773326

0

0.035282

0.179437

9,775

398

82

24.560302

0.66488

0.139642

0

0.737226

0

0.091735

0

1

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false

0

0.062044

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0.062044

0.072993

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1

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null

0

7

d370f7b752c0c3563dc74c0d71d2d93687838437

111,032

py

Python

examples/subsystem/subsystem_parsed_classes.py

py-ranoid/hydrus

f88d0d06933ec0d426bd7d6df51f2972fd389a40

[ "MIT" ]

7

2018-02-17T13:59:32.000Z

2020-01-03T03:10:28.000Z

examples/subsystem/subsystem_parsed_classes.py

py-ranoid/hydrus

f88d0d06933ec0d426bd7d6df51f2972fd389a40

[ "MIT" ]

1

2018-02-21T17:39:16.000Z

2018-02-27T19:12:18.000Z

examples/subsystem/subsystem_parsed_classes.py

py-ranoid/hydrus

f88d0d06933ec0d426bd7d6df51f2972fd389a40

[ "MIT" ]

3

2018-02-17T14:04:13.000Z

2018-03-08T13:09:26.000Z

parsed_classes = [ { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Detector', '@type': 'hydra:Class', 'description': 'A space detector is a sensor supported by another device that let it collect data, that is deployed into a spacecraft and works outside Earth lower atmosphere', 'supportedOperation': [ { '@id': '_:Spacecraft_Detector_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Detector', 'label': 'Creates a new Spacecraft_Detector entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Detector', 'statusCodes': []}, { '@id': '_:Spacecraft_Detector_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Detector', 'label': 'Replaces an existing Spacecraft_Detector entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Detector', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Detector entity wasn't found."}]}, { '@id': '_:Spacecraft_Detector_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_Detector entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_Detector_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_Detector entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Detector', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Detector entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'property': 'subsystems:objective', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:isComponentOf', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVoltage', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_Detector'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Propulsion', '@type': 'hydra:Class', 'description': 'Complex devices-subsystems used for impelling (processes of applying a force which results in translational motion) a spacecraft, in the specific http://umbel.org/umbel/rc/ProjectilePropelling', 'supportedOperation': [ { '@id': '_:Spacecraft_Propulsion_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Propulsion', 'label': 'Creates a new Spacecraft_Propulsion entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Propulsion', 'statusCodes': []}, { '@id': '_:Spacecraft_Propulsion_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Propulsion', 'label': 'Replaces an existing Spacecraft_Propulsion entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Propulsion', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Propulsion entity wasn't found."}]}, { '@id': '_:Spacecraft_Propulsion_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_Propulsion entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_Propulsion_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_Propulsion entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Propulsion', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Propulsion entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'description': 'The function and the objective what the device performs or make possible', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'title': 'function', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the subsystem to the kind of the devices it holds.', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'title': 'subSystemType', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the standard platform for which the subsystem has been designed.', 'property': 'subsystems:isStandard', 'readonly': False, 'required': False, 'title': 'isStandard', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVolume', 'readonly': False, 'required': False, 'title': 'hasVolume', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinAmpere', 'readonly': False, 'required': False, 'title': 'hasMinAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxAmpere', 'readonly': False, 'required': False, 'title': 'hasMaxAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMass', 'readonly': False, 'required': False, 'title': 'hasMass', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'title': 'minWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'title': 'maxWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasPower', 'readonly': False, 'required': False, 'title': 'hasPower', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasSpecificImpulse', 'readonly': False, 'required': False, 'title': 'hasSpecificImpulse', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'Amount of money it can be bought for, or an esteem of value.', 'property': 'subsystems:hasMonetaryValue', 'readonly': False, 'required': False, 'title': 'hasMonetaryValue', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device receive input from another device', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'title': 'hasWireInWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device send output to another device', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'title': 'hasWireOutWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:isSubsystemOf', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:typeOfPropellant', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasSpecificImpulse', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_Propulsion'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_PrimaryPower', '@type': 'hydra:Class', 'description': 'Complex devices-subsystems used for collecting energy.', 'supportedOperation': [ { '@id': '_:Spacecraft_PrimaryPower_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_PrimaryPower', 'label': 'Creates a new Spacecraft_PrimaryPower entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_PrimaryPower', 'statusCodes': []}, { '@id': '_:Spacecraft_PrimaryPower_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_PrimaryPower', 'label': 'Replaces an existing Spacecraft_PrimaryPower entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_PrimaryPower', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_PrimaryPower entity wasn't found."}]}, { '@id': '_:Spacecraft_PrimaryPower_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_PrimaryPower entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_PrimaryPower_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_PrimaryPower entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_PrimaryPower', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_PrimaryPower entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'description': 'The function and the objective what the device performs or make possible', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'title': 'function', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the subsystem to the kind of the devices it holds.', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'title': 'subSystemType', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the standard platform for which the subsystem has been designed.', 'property': 'subsystems:isStandard', 'readonly': False, 'required': False, 'title': 'isStandard', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVolume', 'readonly': False, 'required': False, 'title': 'hasVolume', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinAmpere', 'readonly': False, 'required': False, 'title': 'hasMinAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxAmpere', 'readonly': False, 'required': False, 'title': 'hasMaxAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMass', 'readonly': False, 'required': False, 'title': 'hasMass', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'title': 'minWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'title': 'maxWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasPower', 'readonly': False, 'required': False, 'title': 'hasPower', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasSpecificImpulse', 'readonly': False, 'required': False, 'title': 'hasSpecificImpulse', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'Amount of money it can be bought for, or an esteem of value.', 'property': 'subsystems:hasMonetaryValue', 'readonly': False, 'required': False, 'title': 'hasMonetaryValue', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device receive input from another device', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'title': 'hasWireInWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device send output to another device', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'title': 'hasWireOutWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:isSubsystemOf', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasEfficiency', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVoltage', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_PrimaryPower'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_BackupPower', '@type': 'hydra:Class', 'description': 'Complex devices-subsystems used for storing energy.', 'supportedOperation': [ { '@id': '_:Spacecraft_BackupPower_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_BackupPower', 'label': 'Creates a new Spacecraft_BackupPower entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_BackupPower', 'statusCodes': []}, { '@id': '_:Spacecraft_BackupPower_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_BackupPower', 'label': 'Replaces an existing Spacecraft_BackupPower entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_BackupPower', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_BackupPower entity wasn't found."}]}, { '@id': '_:Spacecraft_BackupPower_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_BackupPower entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_BackupPower_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_BackupPower entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_BackupPower', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_BackupPower entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'description': 'The function and the objective what the device performs or make possible', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'title': 'function', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the subsystem to the kind of the devices it holds.', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'title': 'subSystemType', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the standard platform for which the subsystem has been designed.', 'property': 'subsystems:isStandard', 'readonly': False, 'required': False, 'title': 'isStandard', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVolume', 'readonly': False, 'required': False, 'title': 'hasVolume', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinAmpere', 'readonly': False, 'required': False, 'title': 'hasMinAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxAmpere', 'readonly': False, 'required': False, 'title': 'hasMaxAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMass', 'readonly': False, 'required': False, 'title': 'hasMass', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'title': 'minWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'title': 'maxWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasPower', 'readonly': False, 'required': False, 'title': 'hasPower', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasSpecificImpulse', 'readonly': False, 'required': False, 'title': 'hasSpecificImpulse', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'Amount of money it can be bought for, or an esteem of value.', 'property': 'subsystems:hasMonetaryValue', 'readonly': False, 'required': False, 'title': 'hasMonetaryValue', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device receive input from another device', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'title': 'hasWireInWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device send output to another device', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'title': 'hasWireOutWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:isSubsystemOf', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_BackupPower'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal', '@type': 'hydra:Class', 'description': 'Shields, shells or any device insulation from/reflecting radiation exploiting emission and absorption events', 'supportedOperation': [ { '@id': '_:Spacecraft_Thermal_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal', 'label': 'Creates a new Spacecraft_Thermal entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal', 'statusCodes': []}, { '@id': '_:Spacecraft_Thermal_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal', 'label': 'Replaces an existing Spacecraft_Thermal entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Thermal entity wasn't found."}]}, { '@id': '_:Spacecraft_Thermal_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_Thermal entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_Thermal_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_Thermal entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Thermal entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'description': 'The function and the objective what the device performs or make possible', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'title': 'function', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the subsystem to the kind of the devices it holds.', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'title': 'subSystemType', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the standard platform for which the subsystem has been designed.', 'property': 'subsystems:isStandard', 'readonly': False, 'required': False, 'title': 'isStandard', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVolume', 'readonly': False, 'required': False, 'title': 'hasVolume', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinAmpere', 'readonly': False, 'required': False, 'title': 'hasMinAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxAmpere', 'readonly': False, 'required': False, 'title': 'hasMaxAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMass', 'readonly': False, 'required': False, 'title': 'hasMass', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'title': 'minWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'title': 'maxWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasPower', 'readonly': False, 'required': False, 'title': 'hasPower', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasSpecificImpulse', 'readonly': False, 'required': False, 'title': 'hasSpecificImpulse', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'Amount of money it can be bought for, or an esteem of value.', 'property': 'subsystems:hasMonetaryValue', 'readonly': False, 'required': False, 'title': 'hasMonetaryValue', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device receive input from another device', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'title': 'hasWireInWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device send output to another device', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'title': 'hasWireOutWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_Thermal'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_PassiveDevice', '@type': 'hydra:Class', 'description': 'They are passive because they mostly transform radiation into heating/cooling ', 'supportedOperation': [ { '@id': '_:Spacecraft_Thermal_PassiveDevice_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_PassiveDevice', 'label': 'Creates a new Spacecraft_Thermal_PassiveDevice entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_PassiveDevice', 'statusCodes': []}, { '@id': '_:Spacecraft_Thermal_PassiveDevice_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_PassiveDevice', 'label': 'Replaces an existing Spacecraft_Thermal_PassiveDevice entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_PassiveDevice', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Thermal_PassiveDevice entity wasn't found."}]}, { '@id': '_:Spacecraft_Thermal_PassiveDevice_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_Thermal_PassiveDevice entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_Thermal_PassiveDevice_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_Thermal_PassiveDevice entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_PassiveDevice', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Thermal_PassiveDevice entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_Thermal_PassiveDevice'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_ActiveDevice', '@type': 'hydra:Class', 'description': 'Complex devices-subsystems used to protect sensors or electronic devices from over/under-heating, like refrigeration absorption.', 'supportedOperation': [ { '@id': '_:Spacecraft_Thermal_ActiveDevice_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_ActiveDevice', 'label': 'Creates a new Spacecraft_Thermal_ActiveDevice entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_ActiveDevice', 'statusCodes': []}, { '@id': '_:Spacecraft_Thermal_ActiveDevice_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_ActiveDevice', 'label': 'Replaces an existing Spacecraft_Thermal_ActiveDevice entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_ActiveDevice', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Thermal_ActiveDevice entity wasn't found."}]}, { '@id': '_:Spacecraft_Thermal_ActiveDevice_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_Thermal_ActiveDevice entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_Thermal_ActiveDevice_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_Thermal_ActiveDevice entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Thermal_ActiveDevice', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Thermal_ActiveDevice entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_Thermal_ActiveDevice'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Structure', '@type': 'hydra:Class', 'description': "It's the skeleton and framework of the spacecraft.", 'supportedOperation': [ { '@id': '_:Spacecraft_Structure_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Structure', 'label': 'Creates a new Spacecraft_Structure entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Structure', 'statusCodes': []}, { '@id': '_:Spacecraft_Structure_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Structure', 'label': 'Replaces an existing Spacecraft_Structure entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Structure', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Structure entity wasn't found."}]}, { '@id': '_:Spacecraft_Structure_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_Structure entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_Structure_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_Structure entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Structure', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Structure entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'description': 'The function and the objective what the device performs or make possible', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'title': 'function', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the subsystem to the kind of the devices it holds.', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'title': 'subSystemType', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the standard platform for which the subsystem has been designed.', 'property': 'subsystems:isStandard', 'readonly': False, 'required': False, 'title': 'isStandard', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVolume', 'readonly': False, 'required': False, 'title': 'hasVolume', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinAmpere', 'readonly': False, 'required': False, 'title': 'hasMinAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxAmpere', 'readonly': False, 'required': False, 'title': 'hasMaxAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMass', 'readonly': False, 'required': False, 'title': 'hasMass', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'title': 'minWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'title': 'maxWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasPower', 'readonly': False, 'required': False, 'title': 'hasPower', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasSpecificImpulse', 'readonly': False, 'required': False, 'title': 'hasSpecificImpulse', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'Amount of money it can be bought for, or an esteem of value.', 'property': 'subsystems:hasMonetaryValue', 'readonly': False, 'required': False, 'title': 'hasMonetaryValue', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device receive input from another device', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'title': 'hasWireInWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device send output to another device', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'title': 'hasWireOutWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:isSubsystemOf', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:standsMaxTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_Structure'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_CDH', '@type': 'hydra:Class', 'description': 'The DH system shall: Enable HK and science data flow \\u2013 Housekeeping data (Temperatures, Pressures, Voltages, Currents, Status,...) \\u2013 Attitude data \\u2013 Payload data (e.g., Science data) - Receive and distribute commands - Perform TM and TC protocols - Distribute timing signals - Synchronization of data \\u2013 Time stamping of data - Provide data storage - Execute commands and schedules - Control subsystems and payloads - Monitor spacecraft health - Make autonomous decisions - Perform data compression.', 'supportedOperation': [ { '@id': '_:Spacecraft_CDH_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_CDH', 'label': 'Creates a new Spacecraft_CDH entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_CDH', 'statusCodes': []}, { '@id': '_:Spacecraft_CDH_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_CDH', 'label': 'Replaces an existing Spacecraft_CDH entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_CDH', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_CDH entity wasn't found."}]}, { '@id': '_:Spacecraft_CDH_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_CDH entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_CDH_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_CDH entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_CDH', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_CDH entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'description': 'The function and the objective what the device performs or make possible', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'title': 'function', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the subsystem to the kind of the devices it holds.', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'title': 'subSystemType', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the standard platform for which the subsystem has been designed.', 'property': 'subsystems:isStandard', 'readonly': False, 'required': False, 'title': 'isStandard', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVolume', 'readonly': False, 'required': False, 'title': 'hasVolume', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinAmpere', 'readonly': False, 'required': False, 'title': 'hasMinAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxAmpere', 'readonly': False, 'required': False, 'title': 'hasMaxAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMass', 'readonly': False, 'required': False, 'title': 'hasMass', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'title': 'minWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'title': 'maxWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasPower', 'readonly': False, 'required': False, 'title': 'hasPower', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasSpecificImpulse', 'readonly': False, 'required': False, 'title': 'hasSpecificImpulse', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'Amount of money it can be bought for, or an esteem of value.', 'property': 'subsystems:hasMonetaryValue', 'readonly': False, 'required': False, 'title': 'hasMonetaryValue', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device receive input from another device', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'title': 'hasWireInWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device send output to another device', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'title': 'hasWireOutWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:isSubsystemOf', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVoltage', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxClock', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinClock', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasDataStorage', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasDataStorageExternal', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasRAM', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_CDH'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Communication', '@type': 'hydra:Class', 'description': 'Complex devices-subsystems used for transmitting/receiving radio waves.', 'supportedOperation': [ { '@id': '_:Spacecraft_Communication_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Communication', 'label': 'Creates a new Spacecraft_Communication entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Communication', 'statusCodes': []}, { '@id': '_:Spacecraft_Communication_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Communication', 'label': 'Replaces an existing Spacecraft_Communication entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Communication', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Communication entity wasn't found."}]}, { '@id': '_:Spacecraft_Communication_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_Communication entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_Communication_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_Communication entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_Communication', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_Communication entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'description': 'The function and the objective what the device performs or make possible', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'title': 'function', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the subsystem to the kind of the devices it holds.', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'title': 'subSystemType', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the standard platform for which the subsystem has been designed.', 'property': 'subsystems:isStandard', 'readonly': False, 'required': False, 'title': 'isStandard', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVolume', 'readonly': False, 'required': False, 'title': 'hasVolume', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinAmpere', 'readonly': False, 'required': False, 'title': 'hasMinAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxAmpere', 'readonly': False, 'required': False, 'title': 'hasMaxAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMass', 'readonly': False, 'required': False, 'title': 'hasMass', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'title': 'minWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'title': 'maxWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasPower', 'readonly': False, 'required': False, 'title': 'hasPower', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasSpecificImpulse', 'readonly': False, 'required': False, 'title': 'hasSpecificImpulse', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'Amount of money it can be bought for, or an esteem of value.', 'property': 'subsystems:hasMonetaryValue', 'readonly': False, 'required': False, 'title': 'hasMonetaryValue', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device receive input from another device', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'title': 'hasWireInWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device send output to another device', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'title': 'hasWireOutWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:isSubsystemOf', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_Communication'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS', '@type': 'hydra:Class', 'description': 'Complex devices-subsystems used to set the direction and the position of the spacecraft, it controls flight dynamics.', 'supportedOperation': [ { '@id': '_:Spacecraft_AODCS_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS', 'label': 'Creates a new Spacecraft_AODCS entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS', 'statusCodes': []}, { '@id': '_:Spacecraft_AODCS_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS', 'label': 'Replaces an existing Spacecraft_AODCS entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_AODCS entity wasn't found."}]}, { '@id': '_:Spacecraft_AODCS_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_AODCS entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_AODCS_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_AODCS entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_AODCS entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'description': 'The function and the objective what the device performs or make possible', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'title': 'function', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the subsystem to the kind of the devices it holds.', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'title': 'subSystemType', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'A property that references the standard platform for which the subsystem has been designed.', 'property': 'subsystems:isStandard', 'readonly': False, 'required': False, 'title': 'isStandard', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasVolume', 'readonly': False, 'required': False, 'title': 'hasVolume', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMinAmpere', 'readonly': False, 'required': False, 'title': 'hasMinAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMaxAmpere', 'readonly': False, 'required': False, 'title': 'hasMaxAmpere', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasMass', 'readonly': False, 'required': False, 'title': 'hasMass', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'title': 'minWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'title': 'maxWorkingTemperature', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasPower', 'readonly': False, 'required': False, 'title': 'hasPower', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasSpecificImpulse', 'readonly': False, 'required': False, 'title': 'hasSpecificImpulse', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'Amount of money it can be bought for, or an esteem of value.', 'property': 'subsystems:hasMonetaryValue', 'readonly': False, 'required': False, 'title': 'hasMonetaryValue', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device receive input from another device', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'title': 'hasWireInWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'description': 'This device send output to another device', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'title': 'hasWireOutWith', 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:function', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:standsMaxTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:maxWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:minWorkingTemperature', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:subSystemType', 'readonly': False, 'required': False, 'writeonly': False}, { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireOutWith', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_AODCS'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_ActiveDevice', '@type': 'hydra:Class', 'description': 'Do NOT use any additional power from the spacecraft generator', 'supportedOperation': [ { '@id': '_:Spacecraft_AODCS_Active_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_ActiveDevice', 'label': 'Creates a new Spacecraft_AODCS_Active entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_ActiveDevice', 'statusCodes': []}, { '@id': '_:Spacecraft_AODCS_Active_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_ActiveDevice', 'label': 'Replaces an existing Spacecraft_AODCS_Active entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_ActiveDevice', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_AODCS_Active entity wasn't found."}]}, { '@id': '_:Spacecraft_AODCS_Active_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_AODCS_Active entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_AODCS_Active_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_AODCS_Active entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_ActiveDevice', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_AODCS_Active entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_AODCS_Active'}, { '@id': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_PassiveDevice', '@type': 'hydra:Class', 'description': 'DO use any additional power from the spacecraft generator', 'supportedOperation': [ { '@id': '_:Spacecraft_AODCS_PassiveDevice_create', '@type': 'hydras:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_PassiveDevice', 'label': 'Creates a new Spacecraft_AODCS_PassiveDevice entity', 'method': 'POST', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_PassiveDevice', 'statusCodes': []}, { '@id': '_:Spacecraft_AODCS_PassiveDevice_replace', '@type': 'hydra:Operation', 'description': None, 'expects': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_PassiveDevice', 'label': 'Replaces an existing Spacecraft_AODCS_PassiveDevice entity', 'method': 'PUT', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_PassiveDevice', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_AODCS_PassiveDevice entity wasn't found."}]}, { '@id': '_:Spacecraft_AODCS_PassiveDevice_delete', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Deletes a Spacecraft_AODCS_PassiveDevice entity', 'method': 'DELETE', 'returns': None, 'statusCodes': []}, { '@id': '_:Spacecraft_AODCS_PassiveDevice_retrieve', '@type': 'hydra:Operation', 'description': None, 'expects': None, 'label': 'Retrieves a Spacecraft_AODCS_PassiveDevice entity', 'method': 'GET', 'returns': 'http://ontology.projectchronos.eu/subsystems/Spacecraft_AODCS_PassiveDevice', 'statusCodes': [ { 'code': 404, 'description': "If the Spacecraft_AODCS_PassiveDevice entity wasn't found."}]}], 'supportedProperty': [ { '@type': 'SupportedProperty', 'property': 'subsystems:hasWireInWith', 'readonly': False, 'required': False, 'writeonly': False}], 'title': 'Spacecraft_AODCS_PassiveDevice'}]

70.051735

548

0.351718

5,224

111,032

7.400077

0.04709

0.10104

0.125097

0.939702

0.921646

0.909074

0.89552

0.875343

0.849863

0

0.001905

0.555642

111,032

1,584

549

70.09596

0.781629

0

0.887626

0

0.003157

0.34346

0.065567

0

1

0

false

0.022096

0

null

0

1

0

1

0

1

0

null

0

8

d3a59d9eb76ef28a3ef6d66b09ae9e791d467847

147

py

Python

platform/radio/efr32_multiphy_configurator/pyradioconfig/parts/lynx/calculators/calc_viterbi.py

PascalGuenther/gecko_sdk

2e82050dc8823c9fe0e8908c1b2666fb83056230

[ "Zlib" ]

82

2016-06-29T17:24:43.000Z

2021-04-16T06:49:17.000Z

platform/radio/efr32_multiphy_configurator/pyradioconfig/parts/lynx/calculators/calc_viterbi.py

PascalGuenther/gecko_sdk

2e82050dc8823c9fe0e8908c1b2666fb83056230

[ "Zlib" ]

6

2022-01-12T18:22:08.000Z

2022-03-25T10:19:27.000Z

platform/radio/efr32_multiphy_configurator/pyradioconfig/parts/lynx/calculators/calc_viterbi.py

PascalGuenther/gecko_sdk

2e82050dc8823c9fe0e8908c1b2666fb83056230

[ "Zlib" ]

56

2016-08-02T10:50:50.000Z

2021-07-19T08:57:34.000Z

from pyradioconfig.parts.panther.calculators.calc_viterbi import CALC_Viterbi_panther class CALC_Viterbi_lynx(CALC_Viterbi_panther): pass

16.333333

85

0.843537

19

147

6.157895

0.578947

0.376068

0.307692

0

0.108844

147

8

86

18.375

0.89313

0

1

0

true

0.333333

0

0.666667

0

1

0

null

1

0

1

0

null

0

1

0

1

0

8

6cb45c39eeef225ad8b34b6fbe0356ced0e5fbe1

84

py

Python

django_filters/__init__.py

reshift/django-filter

9d2ef3722b05136262aa06ec8bdce8f0ba6b693f

[ "BSD-3-Clause" ]

10

2015-02-14T14:22:31.000Z

2022-02-22T17:40:34.000Z

django_filters/__init__.py

jarshwah/django-filter

136dfb817bfebfb0bf0f37583a7a20ae0cf27f77

[ "BSD-3-Clause" ]

3

2017-02-01T16:44:04.000Z

2018-04-02T13:48:03.000Z

django_filters/__init__.py

jarshwah/django-filter

136dfb817bfebfb0bf0f37583a7a20ae0cf27f77

[ "BSD-3-Clause" ]

1

2019-02-20T07:44:44.000Z

from django_filters.filterset import FilterSet from django_filters.filters import *

28

46

0.869048

11

84

6.454545

0.454545

0.28169

0.478873

0

0.095238

84

2

47

42

0.934211

0

1

0

true

0

1

0

1

0

1

0

null

1

0

1

0

null

0

1

0

1

0

1

0

7

6cfc13542b87034b5ea844dcd724f2f15212556a

50,828

py

Python

app/create_json_twitter_complete.py

wbj218/microVisualization

7fa1b71a81fa77c7708fe44c32ad5bbf7864acfc

[ "MIT" ]

null

app/create_json_twitter_complete.py

wbj218/microVisualization

7fa1b71a81fa77c7708fe44c32ad5bbf7864acfc

[ "MIT" ]

3

2021-05-11T15:11:29.000Z

2022-02-13T14:07:47.000Z

app/create_json_twitter_complete.py

Wzz917/Microservices-Visualization

40ba4bf1ffee66915b98566b4ef4b815119b798a

[ "MIT" ]

null

##!/usr/bin/env python """ Example of creating a radar chart (a.k.a. a spider or star chart) [1]_. Although this example allows a frame of either 'circle' or 'polygon', polygon frames don't have proper gridlines (the lines are circles instead of polygons). It's possible to get a polygon grid by setting GRIDLINE_INTERPOLATION_STEPS in matplotlib.axis to the desired number of vertices, but the orientation of the polygon is not aligned with the radial axes. .. [1] http://en.wikipedia.org/wiki/Radar_chart """ from __future__ import with_statement import numpy as np import sys import Image f = open('inputs/'+sys.argv[1], 'w') f.write('{\n "arch":"twitter_tracing",\n "date":"2016-04-17T13:46:56.330297532-07:00",\n "graph":[\n {"node":"twitter.tracing.zone0.client","package":"webserver","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n {"node":"twitter.tracing.zone0.load_balancer","package":"logic","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n ') for j in xrange(0,3): f.write('{"node":"twitter.tracing.zone'+str(j)+'.ZipkinCollector","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') for i in xrange(0,int(int(sys.argv[2])/int(10))): f.write('{"node":"twitter.tracing.zone'+str(j)+'.nginx'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.php-fpm'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.text'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.image'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.video'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.userTag'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.urlShorten'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.uniqueID'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.ComposeTweet'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.memcached_tweetStorage'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.mongodb_tweetStorage'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.WriteTimeline'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.WriteGraphTimelines'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.RT'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.ReadTweet'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.BlockedStats'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.ReadTimeline'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.Reply'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.WriteReplyTimeline'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') f.write('{"node":"twitter.tracing.zone'+str(j)+'.FollowRecommender'+str(i)+'","package":"db","timestamp":"2016-04-17T13:46:56.329529972-07:00","metadata":"IP/54.198.0.1"},\n') 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f.write('{"edge":"e10","source":"twitter.tracing.zone'+str(j)+'.FollowRecommender'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e10","source":"twitter.tracing.zone'+str(j)+'.Ads'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.ReadTweet'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e10","source":"twitter.tracing.zone'+str(j)+'.Ads'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.memcached_ads_recommendations'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e10","source":"twitter.tracing.zone'+str(j)+'.Ads'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.ReadTimeline'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.BlockedStats'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e10","source":"twitter.tracing.zone'+str(j)+'.php-fpm'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.Favorite'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e10","source":"twitter.tracing.zone'+str(j)+'.Favorite'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.ReadTweet'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e10","source":"twitter.tracing.zone'+str(j)+'.Favorite'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.BlockedStats'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e10","source":"twitter.tracing.zone'+str(j)+'.Favorite'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.WriteFavorite'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.WriteFavorite'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.memcached_favorite'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.WriteFavorite'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_favorite'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e10","source":"twitter.tracing.zone'+str(j)+'.php-fpm'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.ReadTweet'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e10","source":"twitter.tracing.zone'+str(j)+'.text'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.DM'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e11","source":"twitter.tracing.zone'+str(j)+'.image'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.DM'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e12","source":"twitter.tracing.zone'+str(j)+'.video'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.DM'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e13","source":"twitter.tracing.zone'+str(j)+'.userTag'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.DM'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e14","source":"twitter.tracing.zone'+str(j)+'.urlShorten'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.DM'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e15","source":"twitter.tracing.zone'+str(j)+'.uniqueID'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.DM'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e16","source":"twitter.tracing.zone'+str(j)+'.DM'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.DMStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e17","source":"twitter.tracing.zone'+str(j)+'.DM'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.WriteDMRecipient'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e19","source":"twitter.tracing.zone'+str(j)+'.DMStorage'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.memcached_DMStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e20","source":"twitter.tracing.zone'+str(j)+'.DMStorage'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_DMStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.userTag'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.php-fpm'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserStats'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.php-fpm'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.ChangeFollow'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.php-fpm'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.BlockUser'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.UserStats'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.ChangeFollow'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.BlockUser'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.BlockedStats'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.index_0'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.index_1'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.index_2'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.index_3'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.index_4'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.index_5'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.index_6'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.index_7'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.index_8'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.index_9'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_0'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_1'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_2'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_3'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_4'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_5'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_6'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_7'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_8'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_9'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_0'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_1'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_2'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_3'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_4'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_5'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_6'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_7'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_8'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.index_9'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.php-fpm'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.Hadoop'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.ZipkinCollector","target":"twitter.tracing.zone'+str(j)+'.Cassandra'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.Cassandra'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.QueryEngine'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e40","source":"twitter.tracing.zone'+str(j)+'.QueryEngine'+str(i)+'","target":"twitter.tracing.zone'+str(j)+'.WebUI'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') for j in xrange(0,3): for i in xrange(0,int(sys.argv[2])): f.write('{"edge":"e21","source":"twitter.tracing.zone'+str(j)+'.WriteTimeline'+str(i/int(10))+'","target":"twitter.tracing.zone'+str(j)+'.memcached_user'+str(j)+'_'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e22","source":"twitter.tracing.zone'+str(j)+'.WriteTimeline'+str(i/int(10))+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_user'+str(j)+'_'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e43","source":"twitter.tracing.zone'+str(j)+'.WriteGraphTimelines'+str(i/int(10))+'","target":"twitter.tracing.zone'+str(j)+'.memcached_follower'+str(j)+'_'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e44","source":"twitter.tracing.zone'+str(j)+'.WriteGraphTimelines'+str(i/int(10))+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_follower'+str(j)+'_'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e21","source":"twitter.tracing.zone'+str(j)+'.WriteDMRecipient'+str(i/int(10))+'","target":"twitter.tracing.zone'+str(j)+'.memcached_DMRecipient'+str(j)+'_'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e22","source":"twitter.tracing.zone'+str(j)+'.WriteDMRecipient'+str(i/int(10))+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_DMRecipient'+str(j)+'_'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e21","source":"twitter.tracing.zone'+str(j)+'.ReadTimeline'+str(i/int(10))+'","target":"twitter.tracing.zone'+str(j)+'.memcached_user'+str(j)+'_'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e22","source":"twitter.tracing.zone'+str(j)+'.ReadTimeline'+str(i/int(10))+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_user'+str(j)+'_'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e21","source":"twitter.tracing.zone'+str(j)+'.WriteReplyTimeline'+str(i/int(10))+'","target":"twitter.tracing.zone'+str(j)+'.memcached_user'+str(j)+'_'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e22","source":"twitter.tracing.zone'+str(j)+'.WriteReplyTimeline'+str(i/int(10))+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_user'+str(j)+'_'+str(i)+'","bidirectional":"yes","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') k=0 for j in xrange(0,3): k=0 for i in xrange(0,int(sys.argv[2])): f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(k)+'","target":"twitter.tracing.zone'+str(j)+'.memcached_user'+str(j)+'_'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(k+1)+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_user'+str(j)+'_'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(k+2*int(sys.argv[2]))+'","target":"twitter.tracing.zone'+str(j)+'.memcached_follower'+str(j)+'_'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(k+1+2*int(sys.argv[2]))+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_follower'+str(j)+'_'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(k+4*int(sys.argv[2]))+'","target":"twitter.tracing.zone'+str(j)+'.memcached_DMRecipient'+str(j)+'_'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(k+1+4*int(sys.argv[2]))+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_DMRecipient'+str(j)+'_'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') k = k + 2 #k = 600 for j in xrange(0,3): for i in xrange(0,int(int(sys.argv[2])/int(10))): f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(6*int(sys.argv[2])+i)+'","target":"twitter.tracing.zone'+str(j)+'.nginx'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(6.10*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.php-fpm'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(6.20*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.memcached_follow_recommendations'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(6.30*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.memcached_ads_recommendations'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(6.40*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.FollowRecommender'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(6.50*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.text'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(6.60*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.video'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(6.70*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.image'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(6.80*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.userTag'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(6.90*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.urlShorten'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(7.00*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.uniqueID'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(7.10*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.Ads'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(7.20*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.ComposeTweet'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(7.30*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.ReadTweet'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(7.40*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.Reply'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(7.50*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.Favorite'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(7.60*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.DM'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(7.70*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.RT'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(7.80*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.ChangeFollow'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(7.90*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.UserStats'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(8.00*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.UserGraph'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(8.10*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.BlockUser'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(8.20*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.BlockedStats'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(8.30*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.UserStats'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(8.40*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.xapian'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(8.50*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.ReadTimeline'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(8.60*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.WriteTimeline'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(8.70*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.WriteGraphTimelines'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(8.80*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.WriteReplyTimeline'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(8.90*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.WriteDMRecipient'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(9.00*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.TweetStorage'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(9.10*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.DMStorage'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(9.20*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.memcached_tweetStorage'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(9.30*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_tweetStorage'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(9.40*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.memcached_DMStorage'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write('{"edge":"e1","source":"twitter.tracing.zone'+str(j)+'.zipkinClient_'+str(int(9.50*int(sys.argv[2]))+i)+'","target":"twitter.tracing.zone'+str(j)+'.mongodb_DMStorage'+str(i)+'","bidirectional":"no","timestamp":"2016-04-17T13:46:56.330250819-07:00"},\n') f.write(']\n}\n') f.close()

182.834532

407

0.639608

7,880

50,828

4.104188

0.026904

0.049102

0.208713

0.243499

0.980798

0.976531

0.975449

0.958474

0.955351

0

0.142769

0.041296

50,828

277

408

183.494585

0.520922

0.000531

0

0.061475

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0.905738

0.726391

0.648453

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null

0

0.016393

null

0

null

0

1

0

1

0

1

null

0

1

0

13

9f111a585a4df25c2dce4d1f4a35b7492d85c137

11,633

py

Python

shell/gen-py/StatestoreService/StatestoreSubscriber.py

suifengzhuliu/impala

611f4c6f3b18cfcddff3b2956cbb87c295a87655

[ "Apache-2.0" ]

null

shell/gen-py/StatestoreService/StatestoreSubscriber.py

suifengzhuliu/impala

611f4c6f3b18cfcddff3b2956cbb87c295a87655

[ "Apache-2.0" ]

null

shell/gen-py/StatestoreService/StatestoreSubscriber.py

suifengzhuliu/impala

611f4c6f3b18cfcddff3b2956cbb87c295a87655

[ "Apache-2.0" ]

null

# # Autogenerated by Thrift Compiler (0.9.0) # # DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING # # options string: py # from thrift.Thrift import TType, TMessageType, TException, TApplicationException from ttypes import * from thrift.Thrift import TProcessor from thrift.transport import TTransport from thrift.protocol import TBinaryProtocol, TProtocol try: from thrift.protocol import fastbinary except: fastbinary = None class Iface: def UpdateState(self, params): """ Parameters: - params """ pass def Heartbeat(self, params): """ Parameters: - params """ pass class Client(Iface): def __init__(self, iprot, oprot=None): self._iprot = self._oprot = iprot if oprot is not None: self._oprot = oprot self._seqid = 0 def UpdateState(self, params): """ Parameters: - params """ self.send_UpdateState(params) return self.recv_UpdateState() def send_UpdateState(self, params): self._oprot.writeMessageBegin('UpdateState', TMessageType.CALL, self._seqid) args = UpdateState_args() args.params = params args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_UpdateState(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = UpdateState_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success is not None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "UpdateState failed: unknown result"); def Heartbeat(self, params): """ Parameters: - params """ self.send_Heartbeat(params) return self.recv_Heartbeat() def send_Heartbeat(self, params): self._oprot.writeMessageBegin('Heartbeat', TMessageType.CALL, self._seqid) args = Heartbeat_args() args.params = params args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_Heartbeat(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = Heartbeat_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success is not None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "Heartbeat failed: unknown result"); class Processor(Iface, TProcessor): def __init__(self, handler): self._handler = handler self._processMap = {} self._processMap["UpdateState"] = Processor.process_UpdateState self._processMap["Heartbeat"] = Processor.process_Heartbeat def process(self, iprot, oprot): (name, type, seqid) = iprot.readMessageBegin() if name not in self._processMap: iprot.skip(TType.STRUCT) iprot.readMessageEnd() x = TApplicationException(TApplicationException.UNKNOWN_METHOD, 'Unknown function %s' % (name)) oprot.writeMessageBegin(name, TMessageType.EXCEPTION, seqid) x.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() return else: self._processMap[name](self, seqid, iprot, oprot) return True def process_UpdateState(self, seqid, iprot, oprot): args = UpdateState_args() args.read(iprot) iprot.readMessageEnd() result = UpdateState_result() result.success = self._handler.UpdateState(args.params) oprot.writeMessageBegin("UpdateState", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_Heartbeat(self, seqid, iprot, oprot): args = Heartbeat_args() args.read(iprot) iprot.readMessageEnd() result = Heartbeat_result() result.success = self._handler.Heartbeat(args.params) oprot.writeMessageBegin("Heartbeat", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() # HELPER FUNCTIONS AND STRUCTURES class UpdateState_args: """ Attributes: - params """ thrift_spec = ( None, # 0 (1, TType.STRUCT, 'params', (TUpdateStateRequest, TUpdateStateRequest.thrift_spec), None, ), # 1 ) def __init__(self, params=None,): self.params = params def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 1: if ftype == TType.STRUCT: self.params = TUpdateStateRequest() self.params.read(iprot) else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('UpdateState_args') if self.params is not None: oprot.writeFieldBegin('params', TType.STRUCT, 1) self.params.write(oprot) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def validate(self): return def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class UpdateState_result: """ Attributes: - success """ thrift_spec = ( (0, TType.STRUCT, 'success', (TUpdateStateResponse, TUpdateStateResponse.thrift_spec), None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.STRUCT: self.success = TUpdateStateResponse() self.success.read(iprot) else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('UpdateState_result') if self.success is not None: oprot.writeFieldBegin('success', TType.STRUCT, 0) self.success.write(oprot) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def validate(self): return def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class Heartbeat_args: """ Attributes: - params """ thrift_spec = ( None, # 0 (1, TType.STRUCT, 'params', (THeartbeatRequest, THeartbeatRequest.thrift_spec), None, ), # 1 ) def __init__(self, params=None,): self.params = params def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 1: if ftype == TType.STRUCT: self.params = THeartbeatRequest() self.params.read(iprot) else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('Heartbeat_args') if self.params is not None: oprot.writeFieldBegin('params', TType.STRUCT, 1) self.params.write(oprot) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def validate(self): return def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class Heartbeat_result: """ Attributes: - success """ thrift_spec = ( (0, TType.STRUCT, 'success', (THeartbeatResponse, THeartbeatResponse.thrift_spec), None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.STRUCT: self.success = THeartbeatResponse() self.success.read(iprot) else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('Heartbeat_result') if self.success is not None: oprot.writeFieldBegin('success', TType.STRUCT, 0) self.success.write(oprot) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def validate(self): return def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other)

29.67602

188

0.678501

1,314

11,633

5.757991

0.103501

0.031721

0.027359

0.051811

0.779276

0.747026

0.724293

0.707243

0.693497

0

0.002388

0.207943

11,633

391

189

29.751918

0.818754

0.029915

0

0.763699

1

0

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0

1

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false

0.006849

0.020548

0.041096

0.30137

0

null

0

1

0

1

0

null

0

7

9f44150046add7a69e0bea1a831961f48483e901

123

py

Python

src/spaceone/board/conf/proto_conf.py

spaceone-dev/board

1733756344240b1498bca85b6e1b88d741425ea0

[ "Apache-2.0" ]

null

src/spaceone/board/conf/proto_conf.py

spaceone-dev/board

1733756344240b1498bca85b6e1b88d741425ea0

[ "Apache-2.0" ]

1

2022-03-23T06:44:15.000Z

2022-03-23T06:52:39.000Z

src/spaceone/board/conf/proto_conf.py

spaceone-dev/board

1733756344240b1498bca85b6e1b88d741425ea0

[ "Apache-2.0" ]

1

2022-03-22T08:59:01.000Z

PROTO = { 'spaceone.board.interface.grpc.v1.board': ['Board'], 'spaceone.board.interface.grpc.v1.post': ['Post'] }

24.6

56

0.642276

15

123

5.266667

0.466667

0.329114

0.556962

0.658228

0.708861

0

0.018692

0.130081

123

4

57

30.75

0.719626

0

0.682927

0.609756

0

1

0

false

0

1

0

null

1

0

1

0

1

null

0

7

9f9a949d618408cef24874b85b55dba45410a6d5

136,581

py

Python

napalm_yang/models/openconfig/network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/__init__.py

ckishimo/napalm-yang

8f2bd907bd3afcde3c2f8e985192de74748baf6c

[ "Apache-2.0" ]

64

2016-10-20T15:47:18.000Z

2021-11-11T11:57:32.000Z

napalm_yang/models/openconfig/network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/__init__.py

ckishimo/napalm-yang

8f2bd907bd3afcde3c2f8e985192de74748baf6c

[ "Apache-2.0" ]

126

2016-10-05T10:36:14.000Z

2019-05-15T08:43:23.000Z

napalm_yang/models/openconfig/network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/__init__.py

ckishimo/napalm-yang

8f2bd907bd3afcde3c2f8e985192de74748baf6c

[ "Apache-2.0" ]

63

2016-11-07T15:23:08.000Z

2021-09-22T14:41:16.000Z

# -*- coding: utf-8 -*- from operator import attrgetter from pyangbind.lib.yangtypes import RestrictedPrecisionDecimalType from pyangbind.lib.yangtypes import RestrictedClassType from pyangbind.lib.yangtypes import TypedListType from pyangbind.lib.yangtypes import YANGBool from pyangbind.lib.yangtypes import YANGListType from pyangbind.lib.yangtypes import YANGDynClass from pyangbind.lib.yangtypes import ReferenceType from pyangbind.lib.base import PybindBase from collections import OrderedDict from decimal import Decimal from bitarray import bitarray import six # PY3 support of some PY2 keywords (needs improved) if six.PY3: import builtins as __builtin__ long = int elif six.PY2: import __builtin__ class state(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module openconfig-network-instance - based on the path /network-instances/network-instance/afts/aft/entries/entry/next-hops/next-hop/state. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: Operational state parameters relating to the AFT next-hop entry """ __slots__ = ( "_path_helper", "_extmethods", "__index", "__weight", "__ip_address", "__mac_address", "__popped_mpls_label_stack", "__pushed_mpls_label_stack", "__decapsulate_header", "__encapsulate_header", "__origin_protocol", ) _yang_name = "state" _pybind_generated_by = "container" def __init__(self, *args, **kwargs): self._path_helper = False self._extmethods = False self.__index = YANGDynClass( base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..18446744073709551615"]}, int_size=64, ), is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint64", is_config=False, ) self.__weight = YANGDynClass( base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), is_leaf=True, yang_name="weight", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint32", is_config=False, ) self.__ip_address = YANGDynClass( base=[ RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\\.){3}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9\\.]*"}, ), RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}((([0-9a-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|(((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\\.){3}(25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])))(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9a-fA-F:\\.]*"}, ), ], is_leaf=True, yang_name="ip-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="inet:ip-address-no-zone", is_config=False, ) self.__mac_address = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_dict={"pattern": "[0-9a-fA-F]{2}(:[0-9a-fA-F]{2}){5}"}, ), is_leaf=True, yang_name="mac-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="yang:mac-address", is_config=False, ) self.__popped_mpls_label_stack = YANGDynClass( base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="popped-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) self.__pushed_mpls_label_stack = YANGDynClass( base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="pushed-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) self.__decapsulate_header = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="decapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) self.__encapsulate_header = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="encapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) self.__origin_protocol = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, }, ), is_leaf=True, yang_name="origin-protocol", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="identityref", is_config=False, ) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path() + [self._yang_name] else: return [ "network-instances", "network-instance", "afts", "aft", "entries", "entry", "next-hops", "next-hop", "state", ] def _get_index(self): """ Getter method for index, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/index (uint64) YANG Description: A unique entry for the next-hop """ return self.__index def _set_index(self, v, load=False): """ Setter method for index, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/index (uint64) If this variable is read-only (config: false) in the source YANG file, then _set_index is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_index() directly. YANG Description: A unique entry for the next-hop """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..18446744073709551615"]}, int_size=64, ), is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint64", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """index must be of a type compatible with uint64""", "defined-type": "uint64", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='uint64', is_config=False)""", } ) self.__index = t if hasattr(self, "_set"): self._set() def _unset_index(self): self.__index = YANGDynClass( base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..18446744073709551615"]}, int_size=64, ), is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint64", is_config=False, ) def _get_weight(self): """ Getter method for weight, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/weight (uint32) YANG Description: The weight of the next-hop. Traffic is balanced according to the ratio described by the relative weights of the next hops that exist for the AFT entry. Note that all next-hops that are specified are assumed to be active next-hops and therefore eligible (and selected) to be installed in the FIB, and hence used for packet forwarding. """ return self.__weight def _set_weight(self, v, load=False): """ Setter method for weight, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/weight (uint32) If this variable is read-only (config: false) in the source YANG file, then _set_weight is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_weight() directly. YANG Description: The weight of the next-hop. Traffic is balanced according to the ratio described by the relative weights of the next hops that exist for the AFT entry. Note that all next-hops that are specified are assumed to be active next-hops and therefore eligible (and selected) to be installed in the FIB, and hence used for packet forwarding. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), is_leaf=True, yang_name="weight", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint32", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """weight must be of a type compatible with uint32""", "defined-type": "uint32", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="weight", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='uint32', is_config=False)""", } ) self.__weight = t if hasattr(self, "_set"): self._set() def _unset_weight(self): self.__weight = YANGDynClass( base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), is_leaf=True, yang_name="weight", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint32", is_config=False, ) def _get_ip_address(self): """ Getter method for ip_address, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/ip_address (inet:ip-address-no-zone) YANG Description: The IP address of the next-hop system. """ return self.__ip_address def _set_ip_address(self, v, load=False): """ Setter method for ip_address, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/ip_address (inet:ip-address-no-zone) If this variable is read-only (config: false) in the source YANG file, then _set_ip_address is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_ip_address() directly. YANG Description: The IP address of the next-hop system. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=[ RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\\.){3}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9\\.]*"}, ), RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}((([0-9a-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|(((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\\.){3}(25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])))(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9a-fA-F:\\.]*"}, ), ], is_leaf=True, yang_name="ip-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="inet:ip-address-no-zone", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """ip_address must be of a type compatible with inet:ip-address-no-zone""", "defined-type": "inet:ip-address-no-zone", "generated-type": """YANGDynClass(base=[RestrictedClassType(base_type=RestrictedClassType(base_type=six.text_type, restriction_dict={'pattern': '(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\\.){3}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])(%[\\p{N}\\p{L}]+)?'}), restriction_dict={'pattern': '[0-9\\.]*'}),RestrictedClassType(base_type=RestrictedClassType(base_type=six.text_type, restriction_dict={'pattern': '((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}((([0-9a-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|(((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\\.){3}(25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])))(%[\\p{N}\\p{L}]+)?'}), restriction_dict={'pattern': '[0-9a-fA-F:\\.]*'}),], is_leaf=True, yang_name="ip-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='inet:ip-address-no-zone', is_config=False)""", } ) self.__ip_address = t if hasattr(self, "_set"): self._set() def _unset_ip_address(self): self.__ip_address = YANGDynClass( base=[ RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\\.){3}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9\\.]*"}, ), RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}((([0-9a-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|(((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\\.){3}(25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])))(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9a-fA-F:\\.]*"}, ), ], is_leaf=True, yang_name="ip-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="inet:ip-address-no-zone", is_config=False, ) def _get_mac_address(self): """ Getter method for mac_address, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/mac_address (yang:mac-address) YANG Description: The MAC address of the next-hop if resolved by the local network instance. """ return self.__mac_address def _set_mac_address(self, v, load=False): """ Setter method for mac_address, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/mac_address (yang:mac-address) If this variable is read-only (config: false) in the source YANG file, then _set_mac_address is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_mac_address() directly. YANG Description: The MAC address of the next-hop if resolved by the local network instance. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=six.text_type, restriction_dict={"pattern": "[0-9a-fA-F]{2}(:[0-9a-fA-F]{2}){5}"}, ), is_leaf=True, yang_name="mac-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="yang:mac-address", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """mac_address must be of a type compatible with yang:mac-address""", "defined-type": "yang:mac-address", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_dict={'pattern': '[0-9a-fA-F]{2}(:[0-9a-fA-F]{2}){5}'}), is_leaf=True, yang_name="mac-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='yang:mac-address', is_config=False)""", } ) self.__mac_address = t if hasattr(self, "_set"): self._set() def _unset_mac_address(self): self.__mac_address = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_dict={"pattern": "[0-9a-fA-F]{2}(:[0-9a-fA-F]{2}){5}"}, ), is_leaf=True, yang_name="mac-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="yang:mac-address", is_config=False, ) def _get_popped_mpls_label_stack(self): """ Getter method for popped_mpls_label_stack, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/popped_mpls_label_stack (oc-mplst:mpls-label) YANG Description: The MPLS label stack to be popped from the packet when switched by the system. The stack is encoding as a leaf-list whereby the other of the entries is such that the first entry is the label lowest down the label stack to be popped. If the local system pops the outer-most label 400, then the value of this list is [400,]. If the local system removes two labels, the outer-most being 500, and the second of which is 500, then the value of the list is [500, 400]. A swap operation is reflected by entries in the popped-mpls-label-stack and pushed-mpls-label-stack nodes. """ return self.__popped_mpls_label_stack def _set_popped_mpls_label_stack(self, v, load=False): """ Setter method for popped_mpls_label_stack, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/popped_mpls_label_stack (oc-mplst:mpls-label) If this variable is read-only (config: false) in the source YANG file, then _set_popped_mpls_label_stack is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_popped_mpls_label_stack() directly. YANG Description: The MPLS label stack to be popped from the packet when switched by the system. The stack is encoding as a leaf-list whereby the other of the entries is such that the first entry is the label lowest down the label stack to be popped. If the local system pops the outer-most label 400, then the value of this list is [400,]. If the local system removes two labels, the outer-most being 500, and the second of which is 500, then the value of the list is [500, 400]. A swap operation is reflected by entries in the popped-mpls-label-stack and pushed-mpls-label-stack nodes. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="popped-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """popped_mpls_label_stack must be of a type compatible with oc-mplst:mpls-label""", "defined-type": "oc-mplst:mpls-label", "generated-type": """YANGDynClass(base=TypedListType(allowed_type=[RestrictedClassType(base_type=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), restriction_dict={'range': ['16..1048575']}),RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'IPV4_EXPLICIT_NULL': {'value': 0}, 'ROUTER_ALERT': {'value': 1}, 'IPV6_EXPLICIT_NULL': {'value': 2}, 'IMPLICIT_NULL': {'value': 3}, 'ENTROPY_LABEL_INDICATOR': {'value': 7}, 'NO_LABEL': {}},),]), is_leaf=False, yang_name="popped-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='oc-mplst:mpls-label', is_config=False)""", } ) self.__popped_mpls_label_stack = t if hasattr(self, "_set"): self._set() def _unset_popped_mpls_label_stack(self): self.__popped_mpls_label_stack = YANGDynClass( base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="popped-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) def _get_pushed_mpls_label_stack(self): """ Getter method for pushed_mpls_label_stack, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/pushed_mpls_label_stack (oc-mplst:mpls-label) YANG Description: The MPLS label stack imposed when forwarding packets to the next-hop - the stack is encoded as a leaf list whereby the order of the entries is such that the first entry in the list is the label at the bottom of the stack to be pushed. To this end, a packet which is to forwarded to a device using a service label of 42, and a transport label of 8072 will be represented with a label stack list of [42, 8072]. The MPLS label stack list is ordered by the user, such that no system re-ordering of leaves is permitted by the system. A swap operation is reflected by entries in the popped-mpls-label-stack and pushed-mpls-label-stack nodes. """ return self.__pushed_mpls_label_stack def _set_pushed_mpls_label_stack(self, v, load=False): """ Setter method for pushed_mpls_label_stack, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/pushed_mpls_label_stack (oc-mplst:mpls-label) If this variable is read-only (config: false) in the source YANG file, then _set_pushed_mpls_label_stack is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_pushed_mpls_label_stack() directly. YANG Description: The MPLS label stack imposed when forwarding packets to the next-hop - the stack is encoded as a leaf list whereby the order of the entries is such that the first entry in the list is the label at the bottom of the stack to be pushed. To this end, a packet which is to forwarded to a device using a service label of 42, and a transport label of 8072 will be represented with a label stack list of [42, 8072]. The MPLS label stack list is ordered by the user, such that no system re-ordering of leaves is permitted by the system. A swap operation is reflected by entries in the popped-mpls-label-stack and pushed-mpls-label-stack nodes. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="pushed-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """pushed_mpls_label_stack must be of a type compatible with oc-mplst:mpls-label""", "defined-type": "oc-mplst:mpls-label", "generated-type": """YANGDynClass(base=TypedListType(allowed_type=[RestrictedClassType(base_type=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), restriction_dict={'range': ['16..1048575']}),RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'IPV4_EXPLICIT_NULL': {'value': 0}, 'ROUTER_ALERT': {'value': 1}, 'IPV6_EXPLICIT_NULL': {'value': 2}, 'IMPLICIT_NULL': {'value': 3}, 'ENTROPY_LABEL_INDICATOR': {'value': 7}, 'NO_LABEL': {}},),]), is_leaf=False, yang_name="pushed-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='oc-mplst:mpls-label', is_config=False)""", } ) self.__pushed_mpls_label_stack = t if hasattr(self, "_set"): self._set() def _unset_pushed_mpls_label_stack(self): self.__pushed_mpls_label_stack = YANGDynClass( base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="pushed-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) def _get_decapsulate_header(self): """ Getter method for decapsulate_header, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/decapsulate_header (oc-aftt:encapsulation-header-type) YANG Description: When forwarding a packet to the specified next-hop, the local system performs a decapsulation of the packet - removing the specified header type. In the case that no next-hop is specified, the packet header is removed, and a subsequent forwarding lookup is performed on the packet encapsulated within the header, matched within the relevant AFT within the specified network-instance. """ return self.__decapsulate_header def _set_decapsulate_header(self, v, load=False): """ Setter method for decapsulate_header, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/decapsulate_header (oc-aftt:encapsulation-header-type) If this variable is read-only (config: false) in the source YANG file, then _set_decapsulate_header is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_decapsulate_header() directly. YANG Description: When forwarding a packet to the specified next-hop, the local system performs a decapsulation of the packet - removing the specified header type. In the case that no next-hop is specified, the packet header is removed, and a subsequent forwarding lookup is performed on the packet encapsulated within the header, matched within the relevant AFT within the specified network-instance. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="decapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """decapsulate_header must be of a type compatible with oc-aftt:encapsulation-header-type""", "defined-type": "oc-aftt:encapsulation-header-type", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'GRE': {}, 'IPV4': {}, 'IPV6': {}, 'MPLS': {}},), is_leaf=True, yang_name="decapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='oc-aftt:encapsulation-header-type', is_config=False)""", } ) self.__decapsulate_header = t if hasattr(self, "_set"): self._set() def _unset_decapsulate_header(self): self.__decapsulate_header = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="decapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) def _get_encapsulate_header(self): """ Getter method for encapsulate_header, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/encapsulate_header (oc-aftt:encapsulation-header-type) YANG Description: When forwarding a packet to the specified next-hop the local system performs an encapsulation of the packet - adding the specified header type. """ return self.__encapsulate_header def _set_encapsulate_header(self, v, load=False): """ Setter method for encapsulate_header, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/encapsulate_header (oc-aftt:encapsulation-header-type) If this variable is read-only (config: false) in the source YANG file, then _set_encapsulate_header is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_encapsulate_header() directly. YANG Description: When forwarding a packet to the specified next-hop the local system performs an encapsulation of the packet - adding the specified header type. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="encapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """encapsulate_header must be of a type compatible with oc-aftt:encapsulation-header-type""", "defined-type": "oc-aftt:encapsulation-header-type", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'GRE': {}, 'IPV4': {}, 'IPV6': {}, 'MPLS': {}},), is_leaf=True, yang_name="encapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='oc-aftt:encapsulation-header-type', is_config=False)""", } ) self.__encapsulate_header = t if hasattr(self, "_set"): self._set() def _unset_encapsulate_header(self): self.__encapsulate_header = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="encapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) def _get_origin_protocol(self): """ Getter method for origin_protocol, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/origin_protocol (identityref) YANG Description: The protocol from which the AFT entry was learned. """ return self.__origin_protocol def _set_origin_protocol(self, v, load=False): """ Setter method for origin_protocol, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/origin_protocol (identityref) If this variable is read-only (config: false) in the source YANG file, then _set_origin_protocol is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_origin_protocol() directly. YANG Description: The protocol from which the AFT entry was learned. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, }, ), is_leaf=True, yang_name="origin-protocol", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="identityref", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """origin_protocol must be of a type compatible with identityref""", "defined-type": "openconfig-network-instance:identityref", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'BGP': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:BGP': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:BGP': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'ISIS': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:ISIS': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:ISIS': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'OSPF': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:OSPF': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:OSPF': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'OSPF3': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:OSPF3': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:OSPF3': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'STATIC': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:STATIC': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:STATIC': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'DIRECTLY_CONNECTED': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:DIRECTLY_CONNECTED': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:DIRECTLY_CONNECTED': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'LOCAL_AGGREGATE': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:LOCAL_AGGREGATE': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:LOCAL_AGGREGATE': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}},), is_leaf=True, yang_name="origin-protocol", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='identityref', is_config=False)""", } ) self.__origin_protocol = t if hasattr(self, "_set"): self._set() def _unset_origin_protocol(self): self.__origin_protocol = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, }, ), is_leaf=True, yang_name="origin-protocol", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="identityref", is_config=False, ) index = __builtin__.property(_get_index) weight = __builtin__.property(_get_weight) ip_address = __builtin__.property(_get_ip_address) mac_address = __builtin__.property(_get_mac_address) popped_mpls_label_stack = __builtin__.property(_get_popped_mpls_label_stack) pushed_mpls_label_stack = __builtin__.property(_get_pushed_mpls_label_stack) decapsulate_header = __builtin__.property(_get_decapsulate_header) encapsulate_header = __builtin__.property(_get_encapsulate_header) origin_protocol = __builtin__.property(_get_origin_protocol) _pyangbind_elements = OrderedDict( [ ("index", index), ("weight", weight), ("ip_address", ip_address), ("mac_address", mac_address), ("popped_mpls_label_stack", popped_mpls_label_stack), ("pushed_mpls_label_stack", pushed_mpls_label_stack), ("decapsulate_header", decapsulate_header), ("encapsulate_header", encapsulate_header), ("origin_protocol", origin_protocol), ] ) class state(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module openconfig-network-instance-l2 - based on the path /network-instances/network-instance/afts/aft/entries/entry/next-hops/next-hop/state. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: Operational state parameters relating to the AFT next-hop entry """ __slots__ = ( "_path_helper", "_extmethods", "__index", "__weight", "__ip_address", "__mac_address", "__popped_mpls_label_stack", "__pushed_mpls_label_stack", "__decapsulate_header", "__encapsulate_header", "__origin_protocol", ) _yang_name = "state" _pybind_generated_by = "container" def __init__(self, *args, **kwargs): self._path_helper = False self._extmethods = False self.__index = YANGDynClass( base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..18446744073709551615"]}, int_size=64, ), is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint64", is_config=False, ) self.__weight = YANGDynClass( base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), is_leaf=True, yang_name="weight", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint32", is_config=False, ) self.__ip_address = YANGDynClass( base=[ RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\\.){3}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9\\.]*"}, ), RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}((([0-9a-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|(((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\\.){3}(25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])))(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9a-fA-F:\\.]*"}, ), ], is_leaf=True, yang_name="ip-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="inet:ip-address-no-zone", is_config=False, ) self.__mac_address = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_dict={"pattern": "[0-9a-fA-F]{2}(:[0-9a-fA-F]{2}){5}"}, ), is_leaf=True, yang_name="mac-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="yang:mac-address", is_config=False, ) self.__popped_mpls_label_stack = YANGDynClass( base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="popped-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) self.__pushed_mpls_label_stack = YANGDynClass( base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="pushed-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) self.__decapsulate_header = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="decapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) self.__encapsulate_header = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="encapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) self.__origin_protocol = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, }, ), is_leaf=True, yang_name="origin-protocol", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="identityref", is_config=False, ) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path() + [self._yang_name] else: return [ "network-instances", "network-instance", "afts", "aft", "entries", "entry", "next-hops", "next-hop", "state", ] def _get_index(self): """ Getter method for index, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/index (uint64) YANG Description: A unique entry for the next-hop """ return self.__index def _set_index(self, v, load=False): """ Setter method for index, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/index (uint64) If this variable is read-only (config: false) in the source YANG file, then _set_index is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_index() directly. YANG Description: A unique entry for the next-hop """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..18446744073709551615"]}, int_size=64, ), is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint64", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """index must be of a type compatible with uint64""", "defined-type": "uint64", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='uint64', is_config=False)""", } ) self.__index = t if hasattr(self, "_set"): self._set() def _unset_index(self): self.__index = YANGDynClass( base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..18446744073709551615"]}, int_size=64, ), is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint64", is_config=False, ) def _get_weight(self): """ Getter method for weight, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/weight (uint32) YANG Description: The weight of the next-hop. Traffic is balanced according to the ratio described by the relative weights of the next hops that exist for the AFT entry. Note that all next-hops that are specified are assumed to be active next-hops and therefore eligible (and selected) to be installed in the FIB, and hence used for packet forwarding. """ return self.__weight def _set_weight(self, v, load=False): """ Setter method for weight, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/weight (uint32) If this variable is read-only (config: false) in the source YANG file, then _set_weight is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_weight() directly. YANG Description: The weight of the next-hop. Traffic is balanced according to the ratio described by the relative weights of the next hops that exist for the AFT entry. Note that all next-hops that are specified are assumed to be active next-hops and therefore eligible (and selected) to be installed in the FIB, and hence used for packet forwarding. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), is_leaf=True, yang_name="weight", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint32", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """weight must be of a type compatible with uint32""", "defined-type": "uint32", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="weight", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='uint32', is_config=False)""", } ) self.__weight = t if hasattr(self, "_set"): self._set() def _unset_weight(self): self.__weight = YANGDynClass( base=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), is_leaf=True, yang_name="weight", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="uint32", is_config=False, ) def _get_ip_address(self): """ Getter method for ip_address, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/ip_address (inet:ip-address-no-zone) YANG Description: The IP address of the next-hop system. """ return self.__ip_address def _set_ip_address(self, v, load=False): """ Setter method for ip_address, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/ip_address (inet:ip-address-no-zone) If this variable is read-only (config: false) in the source YANG file, then _set_ip_address is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_ip_address() directly. YANG Description: The IP address of the next-hop system. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=[ RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\\.){3}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9\\.]*"}, ), RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}((([0-9a-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|(((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\\.){3}(25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])))(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9a-fA-F:\\.]*"}, ), ], is_leaf=True, yang_name="ip-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="inet:ip-address-no-zone", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """ip_address must be of a type compatible with inet:ip-address-no-zone""", "defined-type": "inet:ip-address-no-zone", "generated-type": """YANGDynClass(base=[RestrictedClassType(base_type=RestrictedClassType(base_type=six.text_type, restriction_dict={'pattern': '(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\\.){3}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])(%[\\p{N}\\p{L}]+)?'}), restriction_dict={'pattern': '[0-9\\.]*'}),RestrictedClassType(base_type=RestrictedClassType(base_type=six.text_type, restriction_dict={'pattern': '((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}((([0-9a-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|(((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\\.){3}(25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])))(%[\\p{N}\\p{L}]+)?'}), restriction_dict={'pattern': '[0-9a-fA-F:\\.]*'}),], is_leaf=True, yang_name="ip-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='inet:ip-address-no-zone', is_config=False)""", } ) self.__ip_address = t if hasattr(self, "_set"): self._set() def _unset_ip_address(self): self.__ip_address = YANGDynClass( base=[ RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "(([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\\.){3}([0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9\\.]*"}, ), RestrictedClassType( base_type=RestrictedClassType( base_type=six.text_type, restriction_dict={ "pattern": "((:|[0-9a-fA-F]{0,4}):)([0-9a-fA-F]{0,4}:){0,5}((([0-9a-fA-F]{0,4}:)?(:|[0-9a-fA-F]{0,4}))|(((25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])\\.){3}(25[0-5]|2[0-4][0-9]|[01]?[0-9]?[0-9])))(%[\\p{N}\\p{L}]+)?" }, ), restriction_dict={"pattern": "[0-9a-fA-F:\\.]*"}, ), ], is_leaf=True, yang_name="ip-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="inet:ip-address-no-zone", is_config=False, ) def _get_mac_address(self): """ Getter method for mac_address, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/mac_address (yang:mac-address) YANG Description: The MAC address of the next-hop if resolved by the local network instance. """ return self.__mac_address def _set_mac_address(self, v, load=False): """ Setter method for mac_address, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/mac_address (yang:mac-address) If this variable is read-only (config: false) in the source YANG file, then _set_mac_address is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_mac_address() directly. YANG Description: The MAC address of the next-hop if resolved by the local network instance. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=six.text_type, restriction_dict={"pattern": "[0-9a-fA-F]{2}(:[0-9a-fA-F]{2}){5}"}, ), is_leaf=True, yang_name="mac-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="yang:mac-address", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """mac_address must be of a type compatible with yang:mac-address""", "defined-type": "yang:mac-address", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_dict={'pattern': '[0-9a-fA-F]{2}(:[0-9a-fA-F]{2}){5}'}), is_leaf=True, yang_name="mac-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='yang:mac-address', is_config=False)""", } ) self.__mac_address = t if hasattr(self, "_set"): self._set() def _unset_mac_address(self): self.__mac_address = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_dict={"pattern": "[0-9a-fA-F]{2}(:[0-9a-fA-F]{2}){5}"}, ), is_leaf=True, yang_name="mac-address", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="yang:mac-address", is_config=False, ) def _get_popped_mpls_label_stack(self): """ Getter method for popped_mpls_label_stack, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/popped_mpls_label_stack (oc-mplst:mpls-label) YANG Description: The MPLS label stack to be popped from the packet when switched by the system. The stack is encoding as a leaf-list whereby the other of the entries is such that the first entry is the label lowest down the label stack to be popped. If the local system pops the outer-most label 400, then the value of this list is [400,]. If the local system removes two labels, the outer-most being 500, and the second of which is 500, then the value of the list is [500, 400]. A swap operation is reflected by entries in the popped-mpls-label-stack and pushed-mpls-label-stack nodes. """ return self.__popped_mpls_label_stack def _set_popped_mpls_label_stack(self, v, load=False): """ Setter method for popped_mpls_label_stack, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/popped_mpls_label_stack (oc-mplst:mpls-label) If this variable is read-only (config: false) in the source YANG file, then _set_popped_mpls_label_stack is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_popped_mpls_label_stack() directly. YANG Description: The MPLS label stack to be popped from the packet when switched by the system. The stack is encoding as a leaf-list whereby the other of the entries is such that the first entry is the label lowest down the label stack to be popped. If the local system pops the outer-most label 400, then the value of this list is [400,]. If the local system removes two labels, the outer-most being 500, and the second of which is 500, then the value of the list is [500, 400]. A swap operation is reflected by entries in the popped-mpls-label-stack and pushed-mpls-label-stack nodes. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="popped-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """popped_mpls_label_stack must be of a type compatible with oc-mplst:mpls-label""", "defined-type": "oc-mplst:mpls-label", "generated-type": """YANGDynClass(base=TypedListType(allowed_type=[RestrictedClassType(base_type=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), restriction_dict={'range': ['16..1048575']}),RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'IPV4_EXPLICIT_NULL': {'value': 0}, 'ROUTER_ALERT': {'value': 1}, 'IPV6_EXPLICIT_NULL': {'value': 2}, 'IMPLICIT_NULL': {'value': 3}, 'ENTROPY_LABEL_INDICATOR': {'value': 7}, 'NO_LABEL': {}},),]), is_leaf=False, yang_name="popped-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='oc-mplst:mpls-label', is_config=False)""", } ) self.__popped_mpls_label_stack = t if hasattr(self, "_set"): self._set() def _unset_popped_mpls_label_stack(self): self.__popped_mpls_label_stack = YANGDynClass( base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="popped-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) def _get_pushed_mpls_label_stack(self): """ Getter method for pushed_mpls_label_stack, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/pushed_mpls_label_stack (oc-mplst:mpls-label) YANG Description: The MPLS label stack imposed when forwarding packets to the next-hop - the stack is encoded as a leaf list whereby the order of the entries is such that the first entry in the list is the label at the bottom of the stack to be pushed. To this end, a packet which is to forwarded to a device using a service label of 42, and a transport label of 8072 will be represented with a label stack list of [42, 8072]. The MPLS label stack list is ordered by the user, such that no system re-ordering of leaves is permitted by the system. A swap operation is reflected by entries in the popped-mpls-label-stack and pushed-mpls-label-stack nodes. """ return self.__pushed_mpls_label_stack def _set_pushed_mpls_label_stack(self, v, load=False): """ Setter method for pushed_mpls_label_stack, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/pushed_mpls_label_stack (oc-mplst:mpls-label) If this variable is read-only (config: false) in the source YANG file, then _set_pushed_mpls_label_stack is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_pushed_mpls_label_stack() directly. YANG Description: The MPLS label stack imposed when forwarding packets to the next-hop - the stack is encoded as a leaf list whereby the order of the entries is such that the first entry in the list is the label at the bottom of the stack to be pushed. To this end, a packet which is to forwarded to a device using a service label of 42, and a transport label of 8072 will be represented with a label stack list of [42, 8072]. The MPLS label stack list is ordered by the user, such that no system re-ordering of leaves is permitted by the system. A swap operation is reflected by entries in the popped-mpls-label-stack and pushed-mpls-label-stack nodes. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="pushed-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """pushed_mpls_label_stack must be of a type compatible with oc-mplst:mpls-label""", "defined-type": "oc-mplst:mpls-label", "generated-type": """YANGDynClass(base=TypedListType(allowed_type=[RestrictedClassType(base_type=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), restriction_dict={'range': ['16..1048575']}),RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'IPV4_EXPLICIT_NULL': {'value': 0}, 'ROUTER_ALERT': {'value': 1}, 'IPV6_EXPLICIT_NULL': {'value': 2}, 'IMPLICIT_NULL': {'value': 3}, 'ENTROPY_LABEL_INDICATOR': {'value': 7}, 'NO_LABEL': {}},),]), is_leaf=False, yang_name="pushed-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='oc-mplst:mpls-label', is_config=False)""", } ) self.__pushed_mpls_label_stack = t if hasattr(self, "_set"): self._set() def _unset_pushed_mpls_label_stack(self): self.__pushed_mpls_label_stack = YANGDynClass( base=TypedListType( allowed_type=[ RestrictedClassType( base_type=RestrictedClassType( base_type=long, restriction_dict={"range": ["0..4294967295"]}, int_size=32, ), restriction_dict={"range": ["16..1048575"]}, ), RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "IPV4_EXPLICIT_NULL": {"value": 0}, "ROUTER_ALERT": {"value": 1}, "IPV6_EXPLICIT_NULL": {"value": 2}, "IMPLICIT_NULL": {"value": 3}, "ENTROPY_LABEL_INDICATOR": {"value": 7}, "NO_LABEL": {}, }, ), ] ), is_leaf=False, yang_name="pushed-mpls-label-stack", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-mplst:mpls-label", is_config=False, ) def _get_decapsulate_header(self): """ Getter method for decapsulate_header, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/decapsulate_header (oc-aftt:encapsulation-header-type) YANG Description: When forwarding a packet to the specified next-hop, the local system performs a decapsulation of the packet - removing the specified header type. In the case that no next-hop is specified, the packet header is removed, and a subsequent forwarding lookup is performed on the packet encapsulated within the header, matched within the relevant AFT within the specified network-instance. """ return self.__decapsulate_header def _set_decapsulate_header(self, v, load=False): """ Setter method for decapsulate_header, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/decapsulate_header (oc-aftt:encapsulation-header-type) If this variable is read-only (config: false) in the source YANG file, then _set_decapsulate_header is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_decapsulate_header() directly. YANG Description: When forwarding a packet to the specified next-hop, the local system performs a decapsulation of the packet - removing the specified header type. In the case that no next-hop is specified, the packet header is removed, and a subsequent forwarding lookup is performed on the packet encapsulated within the header, matched within the relevant AFT within the specified network-instance. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="decapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """decapsulate_header must be of a type compatible with oc-aftt:encapsulation-header-type""", "defined-type": "oc-aftt:encapsulation-header-type", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'GRE': {}, 'IPV4': {}, 'IPV6': {}, 'MPLS': {}},), is_leaf=True, yang_name="decapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='oc-aftt:encapsulation-header-type', is_config=False)""", } ) self.__decapsulate_header = t if hasattr(self, "_set"): self._set() def _unset_decapsulate_header(self): self.__decapsulate_header = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="decapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) def _get_encapsulate_header(self): """ Getter method for encapsulate_header, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/encapsulate_header (oc-aftt:encapsulation-header-type) YANG Description: When forwarding a packet to the specified next-hop the local system performs an encapsulation of the packet - adding the specified header type. """ return self.__encapsulate_header def _set_encapsulate_header(self, v, load=False): """ Setter method for encapsulate_header, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/encapsulate_header (oc-aftt:encapsulation-header-type) If this variable is read-only (config: false) in the source YANG file, then _set_encapsulate_header is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_encapsulate_header() directly. YANG Description: When forwarding a packet to the specified next-hop the local system performs an encapsulation of the packet - adding the specified header type. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="encapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """encapsulate_header must be of a type compatible with oc-aftt:encapsulation-header-type""", "defined-type": "oc-aftt:encapsulation-header-type", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'GRE': {}, 'IPV4': {}, 'IPV6': {}, 'MPLS': {}},), is_leaf=True, yang_name="encapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='oc-aftt:encapsulation-header-type', is_config=False)""", } ) self.__encapsulate_header = t if hasattr(self, "_set"): self._set() def _unset_encapsulate_header(self): self.__encapsulate_header = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={"GRE": {}, "IPV4": {}, "IPV6": {}, "MPLS": {}}, ), is_leaf=True, yang_name="encapsulate-header", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="oc-aftt:encapsulation-header-type", is_config=False, ) def _get_origin_protocol(self): """ Getter method for origin_protocol, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/origin_protocol (identityref) YANG Description: The protocol from which the AFT entry was learned. """ return self.__origin_protocol def _set_origin_protocol(self, v, load=False): """ Setter method for origin_protocol, mapped from YANG variable /network_instances/network_instance/afts/aft/entries/entry/next_hops/next_hop/state/origin_protocol (identityref) If this variable is read-only (config: false) in the source YANG file, then _set_origin_protocol is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_origin_protocol() directly. YANG Description: The protocol from which the AFT entry was learned. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass( v, base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, }, ), is_leaf=True, yang_name="origin-protocol", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="identityref", is_config=False, ) except (TypeError, ValueError): raise ValueError( { "error-string": """origin_protocol must be of a type compatible with identityref""", "defined-type": "openconfig-network-instance:identityref", "generated-type": """YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'BGP': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:BGP': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:BGP': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'ISIS': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:ISIS': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:ISIS': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'OSPF': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:OSPF': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:OSPF': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'OSPF3': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:OSPF3': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:OSPF3': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'STATIC': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:STATIC': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:STATIC': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'DIRECTLY_CONNECTED': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:DIRECTLY_CONNECTED': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:DIRECTLY_CONNECTED': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'LOCAL_AGGREGATE': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pol-types:LOCAL_AGGREGATE': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}, 'oc-pt:LOCAL_AGGREGATE': {'@module': 'openconfig-policy-types', '@namespace': 'http://openconfig.net/yang/policy-types'}},), is_leaf=True, yang_name="origin-protocol", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='identityref', is_config=False)""", } ) self.__origin_protocol = t if hasattr(self, "_set"): self._set() def _unset_origin_protocol(self): self.__origin_protocol = YANGDynClass( base=RestrictedClassType( base_type=six.text_type, restriction_type="dict_key", restriction_arg={ "BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:BGP": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:ISIS": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:OSPF3": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:STATIC": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:DIRECTLY_CONNECTED": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pol-types:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, "oc-pt:LOCAL_AGGREGATE": { "@module": "openconfig-policy-types", "@namespace": "http://openconfig.net/yang/policy-types", }, }, ), is_leaf=True, yang_name="origin-protocol", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace="http://openconfig.net/yang/network-instance", defining_module="openconfig-network-instance", yang_type="identityref", is_config=False, ) index = __builtin__.property(_get_index) weight = __builtin__.property(_get_weight) ip_address = __builtin__.property(_get_ip_address) mac_address = __builtin__.property(_get_mac_address) popped_mpls_label_stack = __builtin__.property(_get_popped_mpls_label_stack) pushed_mpls_label_stack = __builtin__.property(_get_pushed_mpls_label_stack) decapsulate_header = __builtin__.property(_get_decapsulate_header) encapsulate_header = __builtin__.property(_get_encapsulate_header) origin_protocol = __builtin__.property(_get_origin_protocol) _pyangbind_elements = OrderedDict( [ ("index", index), ("weight", weight), ("ip_address", ip_address), ("mac_address", mac_address), ("popped_mpls_label_stack", popped_mpls_label_stack), ("pushed_mpls_label_stack", pushed_mpls_label_stack), ("decapsulate_header", decapsulate_header), ("encapsulate_header", encapsulate_header), ("origin_protocol", origin_protocol), ] )

49.182931

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136,581

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1

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1

0

1

0

null

0

8

4c9a70db5bed75096933027980d3e71a60df2f6f

2,962

py

Python

tests/unit/providers/configuration/test_from_env_py2_py3.py

YelloFam/python-dependency-injector

541131e33858ee1b8b5a7590d2bb9f929740ea1e

[ "BSD-3-Clause" ]

null

tests/unit/providers/configuration/test_from_env_py2_py3.py

YelloFam/python-dependency-injector

541131e33858ee1b8b5a7590d2bb9f929740ea1e

[ "BSD-3-Clause" ]

null

tests/unit/providers/configuration/test_from_env_py2_py3.py

YelloFam/python-dependency-injector

541131e33858ee1b8b5a7590d2bb9f929740ea1e

[ "BSD-3-Clause" ]

null

"""Configuration.from_env() tests.""" from pytest import mark, raises def test(config): config.from_env("CONFIG_TEST_ENV") assert config() == "test-value" def test_with_children(config): config.section1.value1.from_env("CONFIG_TEST_ENV") assert config() == {"section1": {"value1": "test-value"}} assert config.section1() == {"value1": "test-value"} assert config.section1.value1() == "test-value" def test_default(config): config.from_env("UNDEFINED_ENV", "default-value") assert config() == "default-value" def test_default_none(config): config.from_env("UNDEFINED_ENV") assert config() is None def test_option_default_none(config): config.option.from_env("UNDEFINED_ENV") assert config.option() is None @mark.parametrize("config_type", ["strict"]) def test_undefined_in_strict_mode(config): with raises(ValueError): config.from_env("UNDEFINED_ENV") @mark.parametrize("config_type", ["strict"]) def test_option_undefined_in_strict_mode(config): with raises(ValueError): config.option.from_env("UNDEFINED_ENV") def test_undefined_in_strict_mode_with_default(config): config.from_env("UNDEFINED_ENV", "default-value") assert config() == "default-value" @mark.parametrize("config_type", ["strict"]) def test_option_undefined_in_strict_mode_with_default(config): config.option.from_env("UNDEFINED_ENV", "default-value") assert config.option() == "default-value" def test_required_undefined(config): with raises(ValueError): config.from_env("UNDEFINED_ENV", required=True) def test_required_undefined_with_default(config): config.from_env("UNDEFINED_ENV", default="default-value", required=True) assert config() == "default-value" def test_option_required_undefined(config): with raises(ValueError): config.option.from_env("UNDEFINED_ENV", required=True) def test_option_required_undefined_with_default(config): config.option.from_env("UNDEFINED_ENV", default="default-value", required=True) assert config.option() == "default-value" @mark.parametrize("config_type", ["strict"]) def test_not_required_undefined_in_strict_mode(config): config.from_env("UNDEFINED_ENV", required=False) assert config() is None @mark.parametrize("config_type", ["strict"]) def test_option_not_required_undefined_in_strict_mode(config): config.option.from_env("UNDEFINED_ENV", required=False) assert config.option() is None @mark.parametrize("config_type", ["strict"]) def test_not_required_undefined_with_default_in_strict_mode(config): config.from_env("UNDEFINED_ENV", default="default-value", required=False) assert config() == "default-value" @mark.parametrize("config_type", ["strict"]) def test_option_not_required_undefined_with_default_in_strict_mode(config): config.option.from_env("UNDEFINED_ENV", default="default-value", required=False) assert config.option() == "default-value"

29.919192

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null

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0

7

4cac0aa79399cda11d6f1153b3e152a2cdc7d039

203

py

Python

brainrl/environment/__init__.py

JoseAndresMR/ABC

187a9482d855aefa7e33b683fce1272b92b9289d

[ "MIT" ]

1

2021-12-20T09:48:59.000Z

brainrl/environment/__init__.py

JoseAndresMR/ABC

187a9482d855aefa7e33b683fce1272b92b9289d

[ "MIT" ]

1

2022-01-04T16:07:38.000Z

brainrl/environment/__init__.py

JoseAndresMR/ABC

187a9482d855aefa7e33b683fce1272b92b9289d

[ "MIT" ]

1

2021-12-20T09:49:06.000Z

from .gym_episodic_environment import GymEpisodicEnvironment, Environment from .meta_environment import MetaEnvironment from .unity_episodic_environment import UnityEpisodicEnvironment, UnityEnvironment

50.75

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null

0

1

0

1

0

1

0

7

4cce0c7105c791ac92c7e7187abfdbab02a7a0f6

8,508

py

Python

test/client/test_client.py

autopi-io/py-udsoncan

2351ee02bf4a70e5661d6fd5f48f58db740f244e

[ "MIT" ]

1

2021-03-21T12:18:23.000Z

test/client/test_client.py

autopi-io/py-udsoncan

2351ee02bf4a70e5661d6fd5f48f58db740f244e

[ "MIT" ]

null

test/client/test_client.py

autopi-io/py-udsoncan

2351ee02bf4a70e5661d6fd5f48f58db740f244e

[ "MIT" ]

null

from __future__ import with_statement from __future__ import absolute_import from udsoncan import services from udsoncan.exceptions import * from udsoncan import Request, Response from test.ClientServerTest import ClientServerTest import time class TestClient(ClientServerTest): def __init__(self, *args, **kwargs): ClientServerTest.__init__(self, *args, **kwargs) def test_timeout_override(self): pass def _test_timeout_override(self): req = Request(service = services.TesterPresent, subfunction=0) timeout = 0.5 try: t1 = time.time() response = self.udsclient.send_request(req, timeout=timeout) raise Exception(u'Request did not raise a TimeoutException') except TimeoutException, e: diff = time.time() - t1 self.assertGreater(diff, timeout, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) self.assertLess(diff, timeout+0.5, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) # Server does not respond. Overall timeout is set smaller than P2 timeout. Overall timeout should trig def test_no_response_overall_timeout(self): pass def _test_no_response_overall_timeout(self): req = Request(service = services.TesterPresent, subfunction=0) timeout = 0.5 self.udsclient.set_configs({u'request_timeout': timeout, u'p2_timeout' : 2, u'p2_star_timeout':2}) try: t1 = time.time() response = self.udsclient.send_request(req) raise Exception(u'Request did not raise a TimeoutException') except TimeoutException, e: diff = time.time() - t1 self.assertGreater(diff, timeout, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) self.assertLess(diff, timeout+0.5, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) # Server does not respond. P2 timeout is smaller than overall timeout. P2 timeout should trig def test_no_response_p2_timeout(self): pass def _test_no_response_p2_timeout(self): req = Request(service = services.TesterPresent, subfunction=0) timeout = 0.5 self.udsclient.set_configs({u'request_timeout': 2, u'p2_timeout' : timeout, u'p2_star_timeout':2}) try: t1 = time.time() response = self.udsclient.send_request(req) raise Exception(u'Request did not raise a TimeoutException') except TimeoutException, e: diff = time.time() - t1 self.assertGreater(diff, timeout, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) self.assertLess(diff, timeout+0.5, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) # overall timeout is set to 0.5. Server respond "pendingResponse" for 1 sec. Client should timeout first. def test_overall_timeout_pending_response(self): if not hasattr(self, u'completed'): self.completed = False self.conn.touserqueue.get(timeout=0.2) response = Response(service=services.TesterPresent, code=Response.Code.RequestCorrectlyReceived_ResponsePending) t1 = time.time() while time.time() - t1 < 1 and not self.completed: self.conn.fromuserqueue.put(response.get_payload()) time.sleep(0.1) def _test_overall_timeout_pending_response(self): req = Request(service = services.TesterPresent, subfunction=0) timeout = 0.5 self.udsclient.set_configs({u'request_timeout': timeout, u'p2_timeout' : 2, u'p2_star_timeout':2}) try: t1 = time.time() response = self.udsclient.send_request(req) raise Exception(u'Request did not raise a TimeoutException') except TimeoutException, e: self.assertIsNotNone(self.udsclient.last_response, u'Client never received the PendingResponse message') self.completed = True diff = time.time() - t1 self.assertGreater(diff, timeout, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) self.assertLess(diff, timeout+0.5, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) # Sends 2 "pending response" response to switch to P2* timeout. def test_p2_star_timeout(self): self.conn.touserqueue.get(timeout=0.2) response = Response(service=services.TesterPresent, code=Response.Code.RequestCorrectlyReceived_ResponsePending) self.conn.fromuserqueue.put(response.get_payload()) time.sleep(0.1) self.conn.fromuserqueue.put(response.get_payload()) def _test_p2_star_timeout(self): req = Request(service = services.TesterPresent, subfunction=0) timeout = 2 self.udsclient.set_configs({u'request_timeout': 5, u'p2_timeout' : 0.5, u'p2_star_timeout':timeout}) try: t1 = time.time() response = self.udsclient.send_request(req) raise Exception(u'Request did not raise a TimeoutException') except TimeoutException, e: self.assertIsNotNone(self.udsclient.last_response, u'Client never received the PendingResponse message') self.completed = True diff = time.time() - t1 self.assertGreater(diff, timeout, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) self.assertLess(diff, timeout+0.5, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) # Sends 2 "pending response" response to switch to P2* timeout. def test_p2_star_timeout_overrided_by_diagnostic_session_control(self): self.conn.touserqueue.get(timeout=0.2) self.conn.fromuserqueue.put("\x50\x01\x03\xE8\x00\xC8") # Respond to diagnostic session control with timeout of 2 sec response = Response(service=services.TesterPresent, code=Response.Code.RequestCorrectlyReceived_ResponsePending) self.conn.fromuserqueue.put(response.get_payload()) time.sleep(0.1) self.conn.fromuserqueue.put(response.get_payload()) def _test_p2_star_timeout_overrided_by_diagnostic_session_control(self): req = Request(service = services.TesterPresent, subfunction=0) self.udsclient.set_configs({u'request_timeout': 5, u'p2_timeout' : 0.5, u'p2_star_timeout':1}) self.udsclient.change_session(1) timeout = 2 try: t1 = time.time() response = self.udsclient.send_request(req) raise Exception(u'Request did not raise a TimeoutException') except TimeoutException, e: self.assertIsNotNone(self.udsclient.last_response, u'Client never received the PendingResponse message') self.completed = True diff = time.time() - t1 self.assertGreater(diff, timeout, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) self.assertLess(diff, timeout+0.5, u'Timeout raised after %.3f seconds when it should be %.3f sec' % (diff, timeout)) def test_payload_override_literal(self): request = self.conn.touserqueue.get(timeout=0.2) self.assertEqual(request, '\x12\x34\x56\x78') self.conn.fromuserqueue.put("\x7E\x00") def _test_payload_override_literal(self): req = Request(service = services.TesterPresent, subfunction=0) with self.udsclient.payload_override('\x12\x34\x56\x78'): response = self.udsclient.send_request(req) self.assertEqual(response.original_payload, '\x7E\x00') def test_payload_override_func(self): request = self.conn.touserqueue.get(timeout=0.2) self.assertEqual(request, '\x99\x88\x77\x66') self.conn.fromuserqueue.put("\x7E\x00") def _test_payload_override_func(self): def func(payload): return '\x99\x88\x77\x66' req = Request(service = services.TesterPresent, subfunction=0) with self.udsclient.payload_override(func): response = self.udsclient.send_request(req) self.assertEqual(response.original_payload, '\x7E\x00')

52.518519

130

0.659732

1,052

8,508

5.205323

0.121673

0.04821

0.019722

0.041636

0.858473

0.849708

0.843134

0.801863

0.778671

0

0.02789

0.24142

8,508

162

131

52.518519

0.820576

0.05677

0

0.698529

0

0.182697

0.003053

0

0.139706

0

null

0.022059

0.051471

null

0

null

0

1

0

null

0

1

0

7

4cd214a985610a55765ba1469e02c5129eab375e

112

py

Python

base/routing/__init__.py

vralex/RumbleRunner

eb9889daf90846176af292d4e7411c41dac885c8

[ "MIT" ]

2

2022-01-26T15:06:02.000Z

2022-02-03T05:14:52.000Z

base/routing/__init__.py

vralex/RumbleRunner

eb9889daf90846176af292d4e7411c41dac885c8

[ "MIT" ]

1

2022-02-07T23:50:26.000Z

base/routing/__init__.py

vralex/RumbleRunner

eb9889daf90846176af292d4e7411c41dac885c8

[ "MIT" ]

1

2022-02-07T23:19:16.000Z

from base.routing.registration import CallbackHandlerReg, CommandHandlerReg, PendingRequestHandlerReg, ChatType

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e240a230b5f93e441f63910b080b66bf44d7d00f

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py

Python

intent-markup-python/test/intent_markup_parser_Test.py

leftshiftone/intent-markup

11641918e61646133b5b57cbfeff707efdd09b70

[ "Apache-2.0" ]

1

2020-11-27T07:04:58.000Z

intent-markup-python/test/intent_markup_parser_Test.py

leftshiftone/intent-markup

11641918e61646133b5b57cbfeff707efdd09b70

[ "Apache-2.0" ]

3

2022-01-19T12:15:34.000Z

2022-02-19T06:49:06.000Z

intent-markup-python/test/intent_markup_parser_Test.py

leftshiftone/intent-markup

11641918e61646133b5b57cbfeff707efdd09b70

[ "Apache-2.0" ]

null

from unittest import TestCase import os from intent_markup.intent_markup_parser import IntentMarkupParser class IntentMarkupParserTest(TestCase): root_dir = os.path.dirname(os.path.realpath(__file__)) def test_intent_markup_with_autocomplete_false(self): with open(f"{self.root_dir}/../build/testResources/intent_markup_with_autocomplete_false.xml", 'r') as f: intent = IntentMarkupParser.parse(f.read()) self.assertFalse(intent.autocomplete) self.assertEqual("Das ist ein Beispiel.", intent.text) self.assertTrue(len(intent.musts) == 0) def test_intent_markup_with_autocomplete_implicit_and_fuzzy(self): with open(f"{self.root_dir}/../build/testResources/intent_markup_with_autocomplete_implicit_and_fuzzy.xml", 'r') as f: intent = IntentMarkupParser.parse(f.read()) self.assertTrue(intent.autocomplete) self.assertEqual("Das ist ein Beispiel.", intent.text) self.assertFalse(len(intent.musts) == 0) self.assertTrue(intent.musts[0].fuzzy) self.assertEqual("Beispiel", intent.musts[0].text) def test_intent_markup_with_autocomplete_explicit_and_fuzzy(self): with open(f"{self.root_dir}/../build/testResources/intent_markup_with_autocomplete_explicit_and_fuzzy.xml", 'r') as f: intent = IntentMarkupParser.parse(f.read()) self.assertTrue(intent.autocomplete) self.assertEqual("Das ist ein Beispiel.", intent.text) self.assertFalse(len(intent.musts) == 0) self.assertTrue(intent.musts[0].fuzzy) self.assertEqual("Beispiel", intent.musts[0].text) def test_intent_with_no_markup(self): with open(f"{self.root_dir}/../build/testResources/intent_with_no_markup.xml", 'r') as f: intent = IntentMarkupParser.parse(f.read()) print(intent) self.assertTrue(intent.autocomplete) self.assertEqual("Das ist ein Beispiel.", intent.text)

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7

2c57cda4c6579b2a1942a6ff59e2120b1b2c2466

140

py

Python

opsdroid/connector/slack/__init__.py

JiahnChoi/opsdroid.kr

0893456b0f9f6c70edf7c330a7593d87450538cc

[ "Apache-2.0" ]

712

2016-08-09T21:30:07.000Z

2022-03-24T09:38:21.000Z

opsdroid/connector/slack/__init__.py

JiahnChoi/opsdroid.kr

0893456b0f9f6c70edf7c330a7593d87450538cc

[ "Apache-2.0" ]

1,767

2016-07-27T13:01:25.000Z

2022-03-29T04:25:10.000Z

opsdroid/connector/slack/__init__.py

JiahnChoi/opsdroid.kr

0893456b0f9f6c70edf7c330a7593d87450538cc

[ "Apache-2.0" ]

536

2016-07-31T14:23:41.000Z

2022-03-22T17:35:15.000Z

"""Imports the slack, connector.""" from .connector import CONFIG_SCHEMA # noqa: F401 from .connector import ConnectorSlack # noqa: F401

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7

2c5e0724affdcd0c6e3d908cb1f8354781b2a120

117,191

py

Python

graph.py

Coin-Miner-5000/support

3dd89e64ef85f890ec2649bc083ae2a3f6b72078

[ "MIT" ]

null

graph.py

Coin-Miner-5000/support

3dd89e64ef85f890ec2649bc083ae2a3f6b72078

[ "MIT" ]

null

graph.py

Coin-Miner-5000/support

3dd89e64ef85f890ec2649bc083ae2a3f6b72078

[ "MIT" ]

null

graph_of_map = {279: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(69,62)', 'elevation': 0, 's': 265}, 265: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(69,61)', 'elevation': 0, 'n': 279, 's': 249, 'e': 270}, 249: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(69,60)', 'elevation': 0, 'n': 265, 's': 240, 'e': 282}, 240: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(69,59)', 'elevation': 0, 'n': 249, 'e': 386, 'w': 221}, 386: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(70,59)', 'elevation': 0, 'e': 414, 'w': 240}, 414: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(71,59)', 'elevation': 0, 'w': 386}, 221: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(68,59)', 'elevation': 0, 's': 253, 'e': 240, 'w': 184}, 253: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(68,58)', 'elevation': 0, 'n': 221, 'e': 258}, 258: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(69,58)', 'elevation': 0, 'e': 306, 'w': 253}, 306: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(70,58)', 'elevation': 0, 'e': 397, 'w': 258}, 397: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(71,58)', 'elevation': 0, 'w': 306}, 184: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(67,59)', 'elevation': 0, 'e': 221, 'w': 127}, 127: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(66,59)', 'elevation': 0, 'e': 184, 'w': 120}, 120: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,59)', 'elevation': 0, 'n': 107, 'e': 127}, 107: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,60)', 'elevation': 0, 's': 120, 'e': 121, 'w': 104}, 121: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(66,60)', 'elevation': 0, 'n': 128, 'e': 143, 'w': 107}, 128: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(66,61)', 'elevation': 0, 's': 121, 'e': 189}, 189: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(67,61)', 'elevation': 0, 'e': 255, 'w': 128}, 255: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(68,61)', 'elevation': 0, 'w': 189}, 143: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(67,60)', 'elevation': 0, 'e': 212, 'w': 121}, 212: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(68,60)', 'elevation': 0, 'w': 143}, 104: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,60)', 'elevation': 0, 'n': 59, 'e': 107}, 59: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,61)', 'elevation': 0, 'n': 38, 's': 104, 'e': 92}, 38: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,62)', 'elevation': 0, 's': 59, 'e': 66, 'w': 33}, 66: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,62)', 'elevation': 0, 'n': 169, 'e': 123, 'w': 38}, 169: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,63)', 'elevation': 0, 's': 66, 'e': 186}, 186: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(66,63)', 'elevation': 0, 'e': 205, 'w': 169}, 205: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(67,63)', 'elevation': 0, 's': 241, 'e': 479, 'w': 186}, 241: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(67,62)', 'elevation': 0, 'n': 205, 'e': 266}, 266: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(68,62)', 'elevation': 0, 'w': 241}, 479: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(68,63)', 'elevation': 0, 'w': 205}, 123: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(66,62)', 'elevation': 0, 'w': 66}, 33: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,62)', 'elevation': 0, 'e': 38, 'w': 31}, 31: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,62)', 'elevation': 0, 'n': 30, 'e': 33}, 30: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,63)', 'elevation': 0, 's': 31, 'e': 32, 'w': 27}, 32: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,63)', 'elevation': 0, 'n': 39, 'e': 54, 'w': 30}, 39: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,64)', 'elevation': 0, 'n': 53, 's': 32, 'e': 51, 'w': 41}, 53: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,65)', 'elevation': 0, 'n': 95, 's': 39, 'w': 88}, 95: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,66)', 'elevation': 0, 'n': 119, 's': 53, 'w': 115}, 119: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,67)', 'elevation': 0, 'n': 134, 's': 95}, 134: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,68)', 'elevation': 0, 'n': 147, 's': 119, 'e': 144}, 147: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,69)', 'elevation': 0, 'n': 200, 's': 134, 'e': 153, 'w': 151}, 200: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,70)', 'elevation': 0, 'n': 227, 's': 147, 'e': 206}, 227: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,71)', 'elevation': 0, 'n': 269, 's': 200}, 269: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,72)', 'elevation': 0, 'n': 319, 's': 227}, 319: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,73)', 'elevation': 0, 'n': 359, 's': 269, 'e': 345}, 359: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,74)', 'elevation': 0, 's': 319}, 345: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,73)', 'elevation': 0, 's': 375, 'w': 319}, 375: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,72)', 'elevation': 0, 'n': 345, 'e': 385}, 385: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,72)', 'elevation': 0, 'w': 375}, 206: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,70)', 'elevation': 0, 'n': 288, 'e': 380, 'w': 200}, 288: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,71)', 'elevation': 0, 's': 206}, 380: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,70)', 'elevation': 0, 'n': 424, 'w': 206}, 424: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,71)', 'elevation': 0, 's': 380, 'e': 473}, 473: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(66,71)', 'elevation': 0, 'e': 494, 'w': 424}, 494: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(67,71)', 'elevation': 0, 'w': 473}, 153: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,69)', 'elevation': 0, 'e': 329, 'w': 147}, 329: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,69)', 'elevation': 0, 'w': 153}, 151: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,69)', 'elevation': 0, 'n': 172, 'e': 147, 'w': 207}, 172: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,70)', 'elevation': 0, 'n': 267, 's': 151}, 267: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,71)', 'elevation': 0, 'n': 285, 's': 172, 'w': 271}, 285: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,72)', 'elevation': 0, 'n': 286, 's': 267}, 286: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,73)', 'elevation': 0, 'n': 336, 's': 285, 'w': 291}, 336: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,74)', 'elevation': 0, 's': 286}, 291: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,73)', 'elevation': 0, 'n': 410, 'e': 286, 'w': 347}, 410: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,74)', 'elevation': 0, 's': 291}, 347: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(60,73)', 'elevation': 0, 'n': 452, 's': 442, 'e': 291}, 452: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(60,74)', 'elevation': 0, 's': 347}, 442: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(60,72)', 'elevation': 0, 'n': 347}, 271: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,71)', 'elevation': 0, 'n': 337, 'e': 267}, 337: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,72)', 'elevation': 0, 's': 271}, 207: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,69)', 'elevation': 0, 'n': 231, 'e': 151, 'w': 290}, 231: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,70)', 'elevation': 0, 's': 207, 'w': 248}, 248: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(60,70)', 'elevation': 0, 'n': 296, 'e': 231, 'w': 280}, 296: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(60,71)', 'elevation': 0, 's': 248}, 280: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(59,70)', 'elevation': 0, 'n': 325, 'e': 248}, 325: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(59,71)', 'elevation': 0, 'n': 353, 's': 280, 'w': 374}, 353: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(59,72)', 'elevation': 0, 's': 325}, 374: {'title': 'Fully Shrine', 'description': 'Here lies a shrine for Full-lifey, who captured the golden snitch and gained the power to warp between worlds with some help from his team and a solitary spy.', 'terrain': 'NORMAL', 'coordinates': '(58,71)', 'elevation': 0, 'e': 325}, 290: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(60,69)', 'elevation': 0, 'e': 207}, 144: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,68)', 'elevation': 0, 'e': 155, 'w': 134}, 155: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,68)', 'elevation': 0, 's': 187, 'e': 316, 'w': 144}, 187: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,67)', 'elevation': 0, 'n': 155}, 316: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. 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You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,65)', 'elevation': 0, 'e': 76}, 73: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(59,64)', 'elevation': 0, 'e': 63}, 19: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(60,62)', 'elevation': 0, 'n': 20, 's': 10, 'w': 77}, 10: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(60,61)', 'elevation': 0, 'n': 19, 's': 0, 'w': 43}, 0: {'title': 'A brightly lit room', 'description': 'You are standing in the center of a brightly lit room. 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You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(59,59)', 'elevation': 0, 's': 7, 'w': 16}, 16: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,59)', 'elevation': 0, 'n': 58, 'e': 8, 'w': 67}, 58: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,60)', 'elevation': 0, 's': 16, 'w': 65}, 65: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(57,60)', 'elevation': 0, 'n': 74, 'e': 58, 'w': 139}, 74: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. 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Holloway', 'description': 'You are at the base of a large, looming mountain.', 'terrain': 'MOUNTAIN', 'coordinates': '(61,59)', 'elevation': 1, 's': 9, 'e': 5, 'w': 2}, 9: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(61,58)', 'elevation': 2, 'n': 3, 's': 12, 'e': 11}, 12: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(61,57)', 'elevation': 3, 'n': 9, 's': 18, 'e': 14, 'w': 21}, 18: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(61,56)', 'elevation': 4, 'n': 12, 's': 22, 'w': 25}, 22: {'title': 'The Peak of Mt. Holloway', 'description': 'You are standing at the zenith of Mt. Holloway. 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Holloway', 'description': 'You are at the base of a large, looming mountain.', 'terrain': 'MOUNTAIN', 'coordinates': '(61,51)', 'elevation': 1, 'n': 117, 's': 244, 'w': 138}, 244: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,50)', 'elevation': 0, 'n': 131, 'e': 239}, 239: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,50)', 'elevation': 0, 'n': 198, 'w': 244}, 198: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,51)', 'elevation': 0, 'n': 166, 's': 239, 'e': 199}, 166: {'title': 'Mt. Holloway', 'description': 'You are at the base of a large, looming mountain.', 'terrain': 'MOUNTAIN', 'coordinates': '(62,52)', 'elevation': 1, 's': 198, 'e': 150, 'w': 117}, 150: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,52)', 'elevation': 0, 'n': 135, 'w': 166}, 135: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,53)', 'elevation': 0, 's': 150, 'e': 106}, 106: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. 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You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(69,53)', 'elevation': 0, 'n': 261, 'e': 323}, 323: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(70,53)', 'elevation': 0, 'e': 433, 'w': 277}, 433: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(71,53)', 'elevation': 0, 's': 455, 'e': 460, 'w': 323}, 455: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(71,52)', 'elevation': 0, 'n': 433}, 460: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. 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You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(68,49)', 'elevation': 0, 'n': 352, 's': 399, 'w': 463}, 399: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(68,48)', 'elevation': 0, 'n': 362, 's': 467}, 467: {'title': "Pirate Ry's", 'description': "You see a sign before you that reads:\n\n'You have found Pirate Ry's. Send a `change_name` request and I'll change your identity to whatever you wish... for a price.'", 'terrain': 'NORMAL', 'coordinates': '(68,47)', 'elevation': 0, 'n': 399}, 463: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. 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Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(60,57)', 'elevation': 2, 'e': 12, 'w': 29}, 29: {'title': 'Mt. Holloway', 'description': 'You are at the base of a large, looming mountain.', 'terrain': 'MOUNTAIN', 'coordinates': '(59,57)', 'elevation': 1, 's': 45, 'e': 21, 'w': 49}, 45: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(59,56)', 'elevation': 2, 'n': 29, 's': 60}, 60: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(59,55)', 'elevation': 3, 'n': 45, 'e': 36, 'w': 70}, 36: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(60,55)', 'elevation': 4, 's': 48, 'e': 22, 'w': 60}, 48: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(60,54)', 'elevation': 3, 'n': 36, 's': 105, 'w': 149}, 105: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(60,53)', 'elevation': 2, 'n': 48, 'w': 202}, 202: {'title': 'Mt. Holloway', 'description': 'You are at the base of a large, looming mountain.', 'terrain': 'MOUNTAIN', 'coordinates': '(59,53)', 'elevation': 1, 'e': 105}, 149: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(59,54)', 'elevation': 2, 'e': 48}, 70: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(58,55)', 'elevation': 2, 's': 163, 'e': 60, 'w': 98}, 163: {'title': 'Mt. 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You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(60,48)', 'elevation': 0, 'n': 309, 's': 378}, 378: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(60,47)', 'elevation': 0, 'n': 333}, 326: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,49)', 'elevation': 0, 's': 342, 'w': 309}, 342: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,48)', 'elevation': 0, 'n': 326, 's': 432}, 432: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,47)', 'elevation': 0, 'n': 342}, 317: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,49)', 'elevation': 0, 's': 387, 'e': 281, 'w': 409}, 387: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,48)', 'elevation': 0, 'n': 317, 's': 417, 'w': 431}, 417: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,47)', 'elevation': 0, 'n': 387}, 431: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(57,48)', 'elevation': 0, 'e': 387, 'w': 492}, 492: {'title': "Sandofsky's Sanctum", 'description': 'Before you stands a statue of Sandofsky, musclebound hero from times of old: Cold as ice and twice as smooth. You feel a chill as thoughts of algorithms fill the air. Before the statue, a plaque reads, "Being a Hero, sometimes you must Recall to Zero."', 'terrain': 'NORMAL', 'coordinates': '(56,48)', 'elevation': 0, 'e': 431}, 409: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(57,49)', 'elevation': 0, 'e': 317}, 225: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,51)', 'elevation': 0, 's': 278, 'e': 195}, 278: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,50)', 'elevation': 0, 'n': 225}, 25: {'title': 'Mt. Holloway', 'description': 'You are on the side of a steep incline.', 'terrain': 'MOUNTAIN', 'coordinates': '(60,56)', 'elevation': 3, 'e': 18}, 11: {'title': 'Mt. Holloway', 'description': 'You are at the base of a large, looming mountain.', 'terrain': 'MOUNTAIN', 'coordinates': '(62,58)', 'elevation': 1, 'e': 17, 'w': 9}, 17: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,58)', 'elevation': 0, 'n': 24, 'e': 42, 'w': 11}, 24: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(63,59)', 'elevation': 0, 's': 17}, 42: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,58)', 'elevation': 0, 'n': 44, 's': 80, 'e': 118, 'w': 17}, 44: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,59)', 'elevation': 0, 's': 42}, 80: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,57)', 'elevation': 0, 'n': 42, 's': 81, 'e': 86}, 81: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(64,56)', 'elevation': 0, 'n': 80}, 86: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,57)', 'elevation': 0, 's': 96, 'e': 90, 'w': 80}, 96: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,56)', 'elevation': 0, 'n': 86, 'e': 97}, 97: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(66,56)', 'elevation': 0, 'e': 181, 'w': 96}, 181: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(67,56)', 'elevation': 0, 'w': 97}, 90: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(66,57)', 'elevation': 0, 'e': 178, 'w': 86}, 178: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(67,57)', 'elevation': 0, 'n': 209, 'e': 243, 'w': 90}, 209: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(67,58)', 'elevation': 0, 's': 178}, 243: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(68,57)', 'elevation': 0, 's': 293, 'e': 256, 'w': 178}, 293: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(68,56)', 'elevation': 0, 'n': 243}, 256: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(69,57)', 'elevation': 0, 's': 360, 'e': 327, 'w': 243}, 360: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(69,56)', 'elevation': 0, 'n': 256, 'e': 398}, 398: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(70,56)', 'elevation': 0, 'e': 438, 'w': 360}, 438: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(71,56)', 'elevation': 0, 'e': 465, 'w': 398}, 465: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(72,56)', 'elevation': 0, 'e': 498, 'w': 438}, 498: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(73,56)', 'elevation': 0, 'w': 465}, 327: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(70,57)', 'elevation': 0, 'e': 427, 'w': 256}, 427: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(71,57)', 'elevation': 0, 'e': 430, 'w': 327}, 430: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(72,57)', 'elevation': 0, 'n': 443, 'e': 439, 'w': 427}, 443: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(72,58)', 'elevation': 0, 's': 430, 'e': 471}, 471: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(73,58)', 'elevation': 0, 'w': 443}, 439: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(73,57)', 'elevation': 0, 'w': 430}, 118: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,58)', 'elevation': 0, 'e': 137, 'w': 42}, 137: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(66,58)', 'elevation': 0, 'w': 118}, 5: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,59)', 'elevation': 0, 'w': 3}, 4: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,60)', 'elevation': 0, 'n': 23, 'e': 13, 'w': 0}, 23: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(61,61)', 'elevation': 0, 's': 4, 'e': 26}, 26: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,61)', 'elevation': 0, 'e': 55, 'w': 23}, 55: {'title': 'Wishing Well', 'description': "You are standing besides a large well. A sign next the well reads 'EXAMINE WELL, FIND WEALTH'.", 'terrain': 'NORMAL', 'coordinates': '(63,61)', 'elevation': 0, 'w': 26}, 13: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(62,60)', 'elevation': 0, 'e': 15, 'w': 4}, 15: {'title': 'JKMT Donuts', 'description': "A glass display case separates you from fried, yummy goodness. Behind the stacks of pink boxes, you hear a worker yelling. A sign reads, 'Donuts for sale!'", 'terrain': 'NORMAL', 'coordinates': '(63,60)', 'elevation': 0, 'w': 13}, 1: {'title': 'Shop', 'description': "You are standing in a small shop. A sign behind the mechanical shopkeeper says 'WILL PAY FOR TREASURE'.", 'terrain': 'NORMAL', 'coordinates': '(59,60)', 'elevation': 0, 'e': 0}, 43: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(59,61)', 'elevation': 0, 'e': 10, 'w': 47}, 47: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,61)', 'elevation': 0, 'n': 71, 'e': 43}, 71: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,62)', 'elevation': 0, 's': 47}, 77: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(59,62)', 'elevation': 0, 'e': 19}, 46: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(59,63)', 'elevation': 0, 'e': 20, 'w': 62}, 62: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,63)', 'elevation': 0, 'n': 64, 'e': 46, 'w': 84}, 64: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(58,64)', 'elevation': 0, 's': 62, 'w': 82}, 82: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(57,64)', 'elevation': 0, 'n': 191, 'e': 64}, 191: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(57,65)', 'elevation': 0, 's': 82}, 84: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(57,63)', 'elevation': 0, 'e': 62, 'w': 91}, 91: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(56,63)', 'elevation': 0, 'n': 180, 's': 101, 'e': 84, 'w': 99}, 180: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(56,64)', 'elevation': 0, 's': 91}, 101: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(56,62)', 'elevation': 0, 'n': 91, 'w': 113}, 113: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(55,62)', 'elevation': 0, 's': 114, 'e': 101}, 114: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(55,61)', 'elevation': 0, 'n': 113, 'w': 176}, 176: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(54,61)', 'elevation': 0, 'e': 114, 'w': 402}, 402: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(53,61)', 'elevation': 0, 'e': 176, 'w': 451}, 451: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(52,61)', 'elevation': 0, 'e': 402, 'w': 453}, 453: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(51,61)', 'elevation': 0, 's': 464, 'e': 451}, 464: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(51,60)', 'elevation': 0, 'n': 453}, 99: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(55,63)', 'elevation': 0, 'n': 190, 'e': 91, 'w': 146}, 190: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(55,64)', 'elevation': 0, 's': 99}, 146: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(54,63)', 'elevation': 0, 'n': 215, 's': 177, 'e': 99, 'w': 257}, 215: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(54,64)', 'elevation': 0, 'n': 246, 's': 146}, 246: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(54,65)', 'elevation': 0, 's': 215}, 177: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(54,62)', 'elevation': 0, 'n': 146, 'w': 346}, 346: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(53,62)', 'elevation': 0, 'e': 177}, 257: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(53,63)', 'elevation': 0, 'n': 320, 'e': 146, 'w': 364}, 320: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(53,64)', 'elevation': 0, 'n': 348, 's': 257}, 348: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(53,65)', 'elevation': 0, 's': 320}, 364: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(52,63)', 'elevation': 0, 'n': 429, 's': 381, 'e': 257, 'w': 448}, 429: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(52,64)', 'elevation': 0, 's': 364}, 381: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(52,62)', 'elevation': 0, 'n': 364, 'w': 394}, 394: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(51,62)', 'elevation': 0, 'e': 381}, 448: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(51,63)', 'elevation': 0, 'e': 364}, 92: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(65,61)', 'elevation': 0, 'w': 59}, 282: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(70,60)', 'elevation': 0, 'w': 249}, 270: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(70,61)', 'elevation': 0, 'n': 416, 'e': 338, 'w': 265}, 416: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(70,62)', 'elevation': 0, 's': 270}, 338: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(71,61)', 'elevation': 0, 's': 379, 'w': 270}, 379: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(71,60)', 'elevation': 0, 'n': 338, 'e': 395}, 395: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(72,60)', 'elevation': 0, 's': 403, 'e': 421, 'w': 379}, 403: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(72,59)', 'elevation': 0, 'n': 395}, 421: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(73,60)', 'elevation': 0, 'n': 440, 'w': 395}, 440: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(73,61)', 'elevation': 0, 's': 421, 'w': 476}, 476: {'title': 'A misty room', 'description': 'You are standing on grass and surrounded by a dense mist. You can barely make out the exits in any direction.', 'terrain': 'NORMAL', 'coordinates': '(72,61)', 'elevation': 0, 'e': 440}} # print(len(graph_of_map))

29,297.75

117,162

0.660179

18,261

117,191

4.23646

0.040852

0.089579

0.108335

0.149944

0.828533

0.827784

0.827422

0

0.067011

0.151411

117,191

3

117,163

39,063.666667

0.710911

0.000205

0

434

0.729271

0

1

0

false

0

null

0

1

0

1

0

1

0

null

0

11