repo_name stringlengths 5 100 | path stringlengths 4 294 | copies stringclasses 990
values | size stringlengths 4 7 | content stringlengths 666 1M | license stringclasses 15
values |
|---|---|---|---|---|---|
cvsuser-chromium/chromium | ppapi/generators/idl_generator.py | 165 | 8397 | #!/usr/bin/env python
# Copyright (c) 2012 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
import sys
from idl_log import ErrOut, InfoOut, WarnOut
from idl_option import GetOption, Option, ParseOptions
from idl_parser import ParseFiles
GeneratorList = []
Option('out', 'List of output files', default='')
Option('release', 'Which release to generate.', default='')
Option('range', 'Which ranges in the form of MIN,MAX.', default='start,end')
class Generator(object):
"""Base class for generators.
This class provides a mechanism for adding new generator objects to the IDL
driver. To use this class override the GenerateRelease and GenerateRange
members, and instantiate one copy of the class in the same module which
defines it to register the generator. After the AST is generated, call the
static Run member which will check every registered generator to see which
ones have been enabled through command-line options. To enable a generator
use the switches:
--<sname> : To enable with defaults
--<sname>_opt=<XXX,YYY=y> : To enable with generator specific options.
NOTE: Generators still have access to global options
"""
def __init__(self, name, sname, desc):
self.name = name
self.run_switch = Option(sname, desc)
self.opt_switch = Option(sname + '_opt', 'Options for %s.' % sname,
default='')
GeneratorList.append(self)
self.errors = 0
self.skip_list = []
def Error(self, msg):
ErrOut.Log('Error %s : %s' % (self.name, msg))
self.errors += 1
def GetRunOptions(self):
options = {}
option_list = self.opt_switch.Get()
if option_list:
option_list = option_list.split(',')
for opt in option_list:
offs = opt.find('=')
if offs > 0:
options[opt[:offs]] = opt[offs+1:]
else:
options[opt] = True
return options
if self.run_switch.Get():
return options
return None
def Generate(self, ast, options):
self.errors = 0
rangestr = GetOption('range')
releasestr = GetOption('release')
print "Found releases: %s" % ast.releases
# Generate list of files to ignore due to errors
for filenode in ast.GetListOf('File'):
# If this file has errors, skip it
if filenode.GetProperty('ERRORS') > 0:
self.skip_list.append(filenode)
continue
# Check for a range option which over-rides a release option
if not releasestr and rangestr:
range_list = rangestr.split(',')
if len(range_list) != 2:
self.Error('Failed to generate for %s, incorrect range: "%s"' %
(self.name, rangestr))
else:
vmin = range_list[0]
vmax = range_list[1]
# Generate 'start' and 'end' represent first and last found.
if vmin == 'start':
vmin = ast.releases[0]
if vmax == 'end':
vmax = ast.releases[-1]
vmin = ast.releases.index(vmin)
vmax = ast.releases.index(vmax) + 1
releases = ast.releases[vmin:vmax]
InfoOut.Log('Generate range %s of %s.' % (rangestr, self.name))
ret = self.GenerateRange(ast, releases, options)
if ret < 0:
self.Error('Failed to generate range %s : %s.' %(vmin, vmax))
else:
InfoOut.Log('%s wrote %d files.' % (self.name, ret))
# Otherwise this should be a single release generation
else:
if releasestr == 'start':
releasestr = ast.releases[0]
if releasestr == 'end':
releasestr = ast.releases[-1]
if releasestr > ast.releases[-1]:
InfoOut.Log('There is no unique release for %s, using last release.' %
releasestr)
releasestr = ast.releases[-1]
if releasestr not in ast.releases:
self.Error('Release %s not in [%s].' %
(releasestr, ', '.join(ast.releases)))
if releasestr:
InfoOut.Log('Generate release %s of %s.' % (releasestr, self.name))
ret = self.GenerateRelease(ast, releasestr, options)
if ret < 0:
self.Error('Failed to generate release %s.' % releasestr)
else:
InfoOut.Log('%s wrote %d files.' % (self.name, ret))
else:
self.Error('No range or release specified for %s.' % releasestr)
return self.errors
def GenerateRelease(self, ast, release, options):
__pychecker__ = 'unusednames=ast,release,options'
self.Error("Undefined release generator.")
return 0
def GenerateRange(self, ast, releases, options):
__pychecker__ = 'unusednames=ast,releases,options'
self.Error("Undefined range generator.")
return 0
@staticmethod
def Run(ast):
fail_count = 0
# Check all registered generators if they should run.
for gen in GeneratorList:
options = gen.GetRunOptions()
if options is not None:
if gen.Generate(ast, options):
fail_count += 1
return fail_count
class GeneratorByFile(Generator):
"""A simplified generator that generates one output file per IDL source file.
A subclass of Generator for use of generators which have a one to one
mapping between IDL sources and output files.
Derived classes should define GenerateFile.
"""
def GenerateFile(self, filenode, releases, options):
"""Generates an output file from the IDL source.
Returns true if the generated file is different than the previously
generated file.
"""
__pychecker__ = 'unusednames=filenode,releases,options'
self.Error("Undefined release generator.")
return 0
def GenerateRelease(self, ast, release, options):
return self.GenerateRange(ast, [release], options)
def GenerateRange(self, ast, releases, options):
# Get list of out files
outlist = GetOption('out')
if outlist: outlist = outlist.split(',')
skipList = []
cnt = 0
for filenode in ast.GetListOf('File'):
# Ignore files with errors
if filenode in self.skip_list:
continue
# Skip this file if not required
if outlist and filenode.GetName() not in outlist:
continue
# Create the output file and increment out count if there was a delta
if self.GenerateFile(filenode, releases, options):
cnt = cnt + 1
for filenode in skipList:
errcnt = filenode.GetProperty('ERRORS')
ErrOut.Log('%s : Skipped because of %d errors.' % (
filenode.GetName(), errcnt))
if skipList:
return -len(skipList)
if GetOption('diff'):
return -cnt
return cnt
check_release = 0
check_range = 0
class GeneratorReleaseTest(Generator):
def GenerateRelease(self, ast, release, options = {}):
__pychecker__ = 'unusednames=ast,release,options'
global check_release
check_map = {
'so_long': True,
'MyOpt': 'XYZ',
'goodbye': True
}
check_release = 1
for item in check_map:
check_item = check_map[item]
option_item = options.get(item, None)
if check_item != option_item:
print 'Option %s is %s, expecting %s' % (item, option_item, check_item)
check_release = 0
if release != 'M14':
check_release = 0
return check_release == 1
def GenerateRange(self, ast, releases, options):
__pychecker__ = 'unusednames=ast,releases,options'
global check_range
check_range = 1
return True
def Test():
__pychecker__ = 'unusednames=args'
global check_release
global check_range
ParseOptions(['--testgen_opt=so_long,MyOpt=XYZ,goodbye'])
if Generator.Run('AST') != 0:
print 'Generate release: Failed.\n'
return -1
if check_release != 1 or check_range != 0:
print 'Gererate release: Failed to run.\n'
return -1
check_release = 0
ParseOptions(['--testgen_opt="HELLO"', '--range=M14,M16'])
if Generator.Run('AST') != 0:
print 'Generate range: Failed.\n'
return -1
if check_release != 0 or check_range != 1:
print 'Gererate range: Failed to run.\n'
return -1
print 'Generator test: Pass'
return 0
def Main(args):
if not args: return Test()
filenames = ParseOptions(args)
ast = ParseFiles(filenames)
return Generator.Run(ast)
if __name__ == '__main__':
GeneratorReleaseTest('Test Gen', 'testgen', 'Generator Class Test.')
sys.exit(Main(sys.argv[1:]))
| bsd-3-clause |
wetneb/django | django/contrib/flatpages/templatetags/flatpages.py | 472 | 3632 | from django import template
from django.conf import settings
from django.contrib.flatpages.models import FlatPage
from django.contrib.sites.shortcuts import get_current_site
register = template.Library()
class FlatpageNode(template.Node):
def __init__(self, context_name, starts_with=None, user=None):
self.context_name = context_name
if starts_with:
self.starts_with = template.Variable(starts_with)
else:
self.starts_with = None
if user:
self.user = template.Variable(user)
else:
self.user = None
def render(self, context):
if 'request' in context:
site_pk = get_current_site(context['request']).pk
else:
site_pk = settings.SITE_ID
flatpages = FlatPage.objects.filter(sites__id=site_pk)
# If a prefix was specified, add a filter
if self.starts_with:
flatpages = flatpages.filter(
url__startswith=self.starts_with.resolve(context))
# If the provided user is not authenticated, or no user
# was provided, filter the list to only public flatpages.
if self.user:
user = self.user.resolve(context)
if not user.is_authenticated():
flatpages = flatpages.filter(registration_required=False)
else:
flatpages = flatpages.filter(registration_required=False)
context[self.context_name] = flatpages
return ''
@register.tag
def get_flatpages(parser, token):
"""
Retrieves all flatpage objects available for the current site and
visible to the specific user (or visible to all users if no user is
specified). Populates the template context with them in a variable
whose name is defined by the ``as`` clause.
An optional ``for`` clause can be used to control the user whose
permissions are to be used in determining which flatpages are visible.
An optional argument, ``starts_with``, can be applied to limit the
returned flatpages to those beginning with a particular base URL.
This argument can be passed as a variable or a string, as it resolves
from the template context.
Syntax::
{% get_flatpages ['url_starts_with'] [for user] as context_name %}
Example usage::
{% get_flatpages as flatpages %}
{% get_flatpages for someuser as flatpages %}
{% get_flatpages '/about/' as about_pages %}
{% get_flatpages prefix as about_pages %}
{% get_flatpages '/about/' for someuser as about_pages %}
"""
bits = token.split_contents()
syntax_message = ("%(tag_name)s expects a syntax of %(tag_name)s "
"['url_starts_with'] [for user] as context_name" %
dict(tag_name=bits[0]))
# Must have at 3-6 bits in the tag
if len(bits) >= 3 and len(bits) <= 6:
# If there's an even number of bits, there's no prefix
if len(bits) % 2 == 0:
prefix = bits[1]
else:
prefix = None
# The very last bit must be the context name
if bits[-2] != 'as':
raise template.TemplateSyntaxError(syntax_message)
context_name = bits[-1]
# If there are 5 or 6 bits, there is a user defined
if len(bits) >= 5:
if bits[-4] != 'for':
raise template.TemplateSyntaxError(syntax_message)
user = bits[-3]
else:
user = None
return FlatpageNode(context_name, starts_with=prefix, user=user)
else:
raise template.TemplateSyntaxError(syntax_message)
| bsd-3-clause |
Fkawala/gcloud-python | system_tests/bigtable.py | 3 | 17333 | # Copyright 2016 Google Inc.
#
# Licensed 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 datetime
import operator
import os
import unittest
from google.cloud._helpers import _datetime_from_microseconds
from google.cloud._helpers import _microseconds_from_datetime
from google.cloud._helpers import UTC
from google.cloud.bigtable.client import Client
from google.cloud.bigtable.column_family import MaxVersionsGCRule
from google.cloud.bigtable.row_filters import ApplyLabelFilter
from google.cloud.bigtable.row_filters import ColumnQualifierRegexFilter
from google.cloud.bigtable.row_filters import RowFilterChain
from google.cloud.bigtable.row_filters import RowFilterUnion
from google.cloud.bigtable.row_data import Cell
from google.cloud.bigtable.row_data import PartialRowData
from google.cloud.environment_vars import BIGTABLE_EMULATOR
from retry import RetryErrors
from retry import RetryResult
from system_test_utils import EmulatorCreds
from system_test_utils import unique_resource_id
LOCATION_ID = 'us-central1-c'
INSTANCE_ID = 'g-c-p' + unique_resource_id('-')
TABLE_ID = 'google-cloud-python-test-table'
COLUMN_FAMILY_ID1 = u'col-fam-id1'
COLUMN_FAMILY_ID2 = u'col-fam-id2'
COL_NAME1 = b'col-name1'
COL_NAME2 = b'col-name2'
COL_NAME3 = b'col-name3-but-other-fam'
CELL_VAL1 = b'cell-val'
CELL_VAL2 = b'cell-val-newer'
CELL_VAL3 = b'altcol-cell-val'
CELL_VAL4 = b'foo'
ROW_KEY = b'row-key'
ROW_KEY_ALT = b'row-key-alt'
EXISTING_INSTANCES = []
class Config(object):
"""Run-time configuration to be modified at set-up.
This is a mutable stand-in to allow test set-up to modify
global state.
"""
CLIENT = None
INSTANCE = None
IN_EMULATOR = False
def _wait_until_complete(operation, max_attempts=5):
"""Wait until an operation has completed.
:type operation: :class:`google.cloud.operation.Operation`
:param operation: Operation that has not completed.
:type max_attempts: int
:param max_attempts: (Optional) The maximum number of times to check if
the operation has completed. Defaults to 5.
:rtype: bool
:returns: Boolean indicating if the operation is complete.
"""
def _operation_complete(result):
return result
retry = RetryResult(_operation_complete, max_tries=max_attempts)
return retry(operation.poll)()
def _retry_on_unavailable(exc):
"""Retry only errors whose status code is 'UNAVAILABLE'."""
from grpc import StatusCode
return exc.code() == StatusCode.UNAVAILABLE
def setUpModule():
from google.cloud.exceptions import GrpcRendezvous
Config.IN_EMULATOR = os.getenv(BIGTABLE_EMULATOR) is not None
if Config.IN_EMULATOR:
credentials = EmulatorCreds()
Config.CLIENT = Client(admin=True, credentials=credentials)
else:
Config.CLIENT = Client(admin=True)
Config.INSTANCE = Config.CLIENT.instance(INSTANCE_ID, LOCATION_ID)
if not Config.IN_EMULATOR:
retry = RetryErrors(GrpcRendezvous,
error_predicate=_retry_on_unavailable)
instances, failed_locations = retry(Config.CLIENT.list_instances)()
if len(failed_locations) != 0:
raise ValueError('List instances failed in module set up.')
EXISTING_INSTANCES[:] = instances
# After listing, create the test instance.
created_op = Config.INSTANCE.create()
if not _wait_until_complete(created_op):
raise RuntimeError('Instance creation exceed 5 seconds.')
def tearDownModule():
if not Config.IN_EMULATOR:
Config.INSTANCE.delete()
class TestInstanceAdminAPI(unittest.TestCase):
def setUp(self):
if Config.IN_EMULATOR:
self.skipTest(
'Instance Admin API not supported in Bigtable emulator')
self.instances_to_delete = []
def tearDown(self):
for instance in self.instances_to_delete:
instance.delete()
def test_list_instances(self):
instances, failed_locations = Config.CLIENT.list_instances()
self.assertEqual(failed_locations, [])
# We have added one new instance in `setUpModule`.
self.assertEqual(len(instances), len(EXISTING_INSTANCES) + 1)
for instance in instances:
instance_existence = (instance in EXISTING_INSTANCES or
instance == Config.INSTANCE)
self.assertTrue(instance_existence)
def test_reload(self):
# Use same arguments as Config.INSTANCE (created in `setUpModule`)
# so we can use reload() on a fresh instance.
instance = Config.CLIENT.instance(INSTANCE_ID, LOCATION_ID)
# Make sure metadata unset before reloading.
instance.display_name = None
instance.reload()
self.assertEqual(instance.display_name, Config.INSTANCE.display_name)
def test_create_instance(self):
ALT_INSTANCE_ID = 'new' + unique_resource_id('-')
instance = Config.CLIENT.instance(ALT_INSTANCE_ID, LOCATION_ID)
operation = instance.create()
# Make sure this instance gets deleted after the test case.
self.instances_to_delete.append(instance)
# We want to make sure the operation completes.
self.assertTrue(_wait_until_complete(operation))
# Create a new instance instance and make sure it is the same.
instance_alt = Config.CLIENT.instance(ALT_INSTANCE_ID, LOCATION_ID)
instance_alt.reload()
self.assertEqual(instance, instance_alt)
self.assertEqual(instance.display_name, instance_alt.display_name)
def test_update(self):
OLD_DISPLAY_NAME = Config.INSTANCE.display_name
NEW_DISPLAY_NAME = 'Foo Bar Baz'
Config.INSTANCE.display_name = NEW_DISPLAY_NAME
Config.INSTANCE.update()
# Create a new instance instance and reload it.
instance_alt = Config.CLIENT.instance(INSTANCE_ID, None)
self.assertNotEqual(instance_alt.display_name, NEW_DISPLAY_NAME)
instance_alt.reload()
self.assertEqual(instance_alt.display_name, NEW_DISPLAY_NAME)
# Make sure to put the instance back the way it was for the
# other test cases.
Config.INSTANCE.display_name = OLD_DISPLAY_NAME
Config.INSTANCE.update()
class TestTableAdminAPI(unittest.TestCase):
@classmethod
def setUpClass(cls):
cls._table = Config.INSTANCE.table(TABLE_ID)
cls._table.create()
@classmethod
def tearDownClass(cls):
cls._table.delete()
def setUp(self):
self.tables_to_delete = []
def tearDown(self):
for table in self.tables_to_delete:
table.delete()
def test_list_tables(self):
# Since `Config.INSTANCE` is newly created in `setUpModule`, the table
# created in `setUpClass` here will be the only one.
tables = Config.INSTANCE.list_tables()
self.assertEqual(tables, [self._table])
def test_create_table(self):
temp_table_id = 'foo-bar-baz-table'
temp_table = Config.INSTANCE.table(temp_table_id)
temp_table.create()
self.tables_to_delete.append(temp_table)
# First, create a sorted version of our expected result.
name_attr = operator.attrgetter('name')
expected_tables = sorted([temp_table, self._table], key=name_attr)
# Then query for the tables in the instance and sort them by
# name as well.
tables = Config.INSTANCE.list_tables()
sorted_tables = sorted(tables, key=name_attr)
self.assertEqual(sorted_tables, expected_tables)
def test_create_column_family(self):
temp_table_id = 'foo-bar-baz-table'
temp_table = Config.INSTANCE.table(temp_table_id)
temp_table.create()
self.tables_to_delete.append(temp_table)
self.assertEqual(temp_table.list_column_families(), {})
gc_rule = MaxVersionsGCRule(1)
column_family = temp_table.column_family(COLUMN_FAMILY_ID1,
gc_rule=gc_rule)
column_family.create()
col_fams = temp_table.list_column_families()
self.assertEqual(len(col_fams), 1)
retrieved_col_fam = col_fams[COLUMN_FAMILY_ID1]
self.assertIs(retrieved_col_fam._table, column_family._table)
self.assertEqual(retrieved_col_fam.column_family_id,
column_family.column_family_id)
self.assertEqual(retrieved_col_fam.gc_rule, gc_rule)
def test_update_column_family(self):
temp_table_id = 'foo-bar-baz-table'
temp_table = Config.INSTANCE.table(temp_table_id)
temp_table.create()
self.tables_to_delete.append(temp_table)
gc_rule = MaxVersionsGCRule(1)
column_family = temp_table.column_family(COLUMN_FAMILY_ID1,
gc_rule=gc_rule)
column_family.create()
# Check that our created table is as expected.
col_fams = temp_table.list_column_families()
self.assertEqual(col_fams, {COLUMN_FAMILY_ID1: column_family})
# Update the column family's GC rule and then try to update.
column_family.gc_rule = None
column_family.update()
# Check that the update has propagated.
col_fams = temp_table.list_column_families()
self.assertIsNone(col_fams[COLUMN_FAMILY_ID1].gc_rule)
def test_delete_column_family(self):
temp_table_id = 'foo-bar-baz-table'
temp_table = Config.INSTANCE.table(temp_table_id)
temp_table.create()
self.tables_to_delete.append(temp_table)
self.assertEqual(temp_table.list_column_families(), {})
column_family = temp_table.column_family(COLUMN_FAMILY_ID1)
column_family.create()
# Make sure the family is there before deleting it.
col_fams = temp_table.list_column_families()
self.assertEqual(list(col_fams.keys()), [COLUMN_FAMILY_ID1])
column_family.delete()
# Make sure we have successfully deleted it.
self.assertEqual(temp_table.list_column_families(), {})
class TestDataAPI(unittest.TestCase):
@classmethod
def setUpClass(cls):
cls._table = table = Config.INSTANCE.table(TABLE_ID)
table.create()
table.column_family(COLUMN_FAMILY_ID1).create()
table.column_family(COLUMN_FAMILY_ID2).create()
@classmethod
def tearDownClass(cls):
# Will also delete any data contained in the table.
cls._table.delete()
def _maybe_emulator_skip(self, message):
# NOTE: This method is necessary because ``Config.IN_EMULATOR``
# is set at runtime rather than import time, which means we
# can't use the @unittest.skipIf decorator.
if Config.IN_EMULATOR:
self.skipTest(message)
def setUp(self):
self.rows_to_delete = []
def tearDown(self):
for row in self.rows_to_delete:
row.clear()
row.delete()
row.commit()
def _write_to_row(self, row1=None, row2=None, row3=None, row4=None):
timestamp1 = datetime.datetime.utcnow().replace(tzinfo=UTC)
timestamp1_micros = _microseconds_from_datetime(timestamp1)
# Truncate to millisecond granularity.
timestamp1_micros -= (timestamp1_micros % 1000)
timestamp1 = _datetime_from_microseconds(timestamp1_micros)
# 1000 microseconds is a millisecond
timestamp2 = timestamp1 + datetime.timedelta(microseconds=1000)
timestamp3 = timestamp1 + datetime.timedelta(microseconds=2000)
timestamp4 = timestamp1 + datetime.timedelta(microseconds=3000)
if row1 is not None:
row1.set_cell(COLUMN_FAMILY_ID1, COL_NAME1, CELL_VAL1,
timestamp=timestamp1)
if row2 is not None:
row2.set_cell(COLUMN_FAMILY_ID1, COL_NAME1, CELL_VAL2,
timestamp=timestamp2)
if row3 is not None:
row3.set_cell(COLUMN_FAMILY_ID1, COL_NAME2, CELL_VAL3,
timestamp=timestamp3)
if row4 is not None:
row4.set_cell(COLUMN_FAMILY_ID2, COL_NAME3, CELL_VAL4,
timestamp=timestamp4)
# Create the cells we will check.
cell1 = Cell(CELL_VAL1, timestamp1)
cell2 = Cell(CELL_VAL2, timestamp2)
cell3 = Cell(CELL_VAL3, timestamp3)
cell4 = Cell(CELL_VAL4, timestamp4)
return cell1, cell2, cell3, cell4
def test_read_row(self):
row = self._table.row(ROW_KEY)
self.rows_to_delete.append(row)
cell1, cell2, cell3, cell4 = self._write_to_row(row, row, row, row)
row.commit()
# Read back the contents of the row.
partial_row_data = self._table.read_row(ROW_KEY)
self.assertEqual(partial_row_data.row_key, ROW_KEY)
# Check the cells match.
ts_attr = operator.attrgetter('timestamp')
expected_row_contents = {
COLUMN_FAMILY_ID1: {
COL_NAME1: sorted([cell1, cell2], key=ts_attr, reverse=True),
COL_NAME2: [cell3],
},
COLUMN_FAMILY_ID2: {
COL_NAME3: [cell4],
},
}
self.assertEqual(partial_row_data.cells, expected_row_contents)
def test_read_rows(self):
row = self._table.row(ROW_KEY)
row_alt = self._table.row(ROW_KEY_ALT)
self.rows_to_delete.extend([row, row_alt])
cell1, cell2, cell3, cell4 = self._write_to_row(row, row_alt,
row, row_alt)
row.commit()
row_alt.commit()
rows_data = self._table.read_rows()
self.assertEqual(rows_data.rows, {})
rows_data.consume_all()
# NOTE: We should refrain from editing protected data on instances.
# Instead we should make the values public or provide factories
# for constructing objects with them.
row_data = PartialRowData(ROW_KEY)
row_data._chunks_encountered = True
row_data._committed = True
row_data._cells = {
COLUMN_FAMILY_ID1: {
COL_NAME1: [cell1],
COL_NAME2: [cell3],
},
}
row_alt_data = PartialRowData(ROW_KEY_ALT)
row_alt_data._chunks_encountered = True
row_alt_data._committed = True
row_alt_data._cells = {
COLUMN_FAMILY_ID1: {
COL_NAME1: [cell2],
},
COLUMN_FAMILY_ID2: {
COL_NAME3: [cell4],
},
}
expected_rows = {
ROW_KEY: row_data,
ROW_KEY_ALT: row_alt_data,
}
self.assertEqual(rows_data.rows, expected_rows)
def test_read_with_label_applied(self):
self._maybe_emulator_skip('Labels not supported by Bigtable emulator')
row = self._table.row(ROW_KEY)
self.rows_to_delete.append(row)
cell1, _, cell3, _ = self._write_to_row(row, None, row)
row.commit()
# Combine a label with column 1.
label1 = u'label-red'
label1_filter = ApplyLabelFilter(label1)
col1_filter = ColumnQualifierRegexFilter(COL_NAME1)
chain1 = RowFilterChain(filters=[col1_filter, label1_filter])
# Combine a label with column 2.
label2 = u'label-blue'
label2_filter = ApplyLabelFilter(label2)
col2_filter = ColumnQualifierRegexFilter(COL_NAME2)
chain2 = RowFilterChain(filters=[col2_filter, label2_filter])
# Bring our two labeled columns together.
row_filter = RowFilterUnion(filters=[chain1, chain2])
partial_row_data = self._table.read_row(ROW_KEY, filter_=row_filter)
self.assertEqual(partial_row_data.row_key, ROW_KEY)
cells_returned = partial_row_data.cells
col_fam1 = cells_returned.pop(COLUMN_FAMILY_ID1)
# Make sure COLUMN_FAMILY_ID1 was the only key.
self.assertEqual(len(cells_returned), 0)
cell1_new, = col_fam1.pop(COL_NAME1)
cell3_new, = col_fam1.pop(COL_NAME2)
# Make sure COL_NAME1 and COL_NAME2 were the only keys.
self.assertEqual(len(col_fam1), 0)
# Check that cell1 has matching values and gained a label.
self.assertEqual(cell1_new.value, cell1.value)
self.assertEqual(cell1_new.timestamp, cell1.timestamp)
self.assertEqual(cell1.labels, [])
self.assertEqual(cell1_new.labels, [label1])
# Check that cell3 has matching values and gained a label.
self.assertEqual(cell3_new.value, cell3.value)
self.assertEqual(cell3_new.timestamp, cell3.timestamp)
self.assertEqual(cell3.labels, [])
self.assertEqual(cell3_new.labels, [label2])
| apache-2.0 |
MechanisM/musicdb | contrib/django/db/backends/mysql/client.py | 524 | 1380 | import os
import sys
from django.db.backends import BaseDatabaseClient
class DatabaseClient(BaseDatabaseClient):
executable_name = 'mysql'
def runshell(self):
settings_dict = self.connection.settings_dict
args = [self.executable_name]
db = settings_dict['OPTIONS'].get('db', settings_dict['NAME'])
user = settings_dict['OPTIONS'].get('user', settings_dict['USER'])
passwd = settings_dict['OPTIONS'].get('passwd', settings_dict['PASSWORD'])
host = settings_dict['OPTIONS'].get('host', settings_dict['HOST'])
port = settings_dict['OPTIONS'].get('port', settings_dict['PORT'])
defaults_file = settings_dict['OPTIONS'].get('read_default_file')
# Seems to be no good way to set sql_mode with CLI.
if defaults_file:
args += ["--defaults-file=%s" % defaults_file]
if user:
args += ["--user=%s" % user]
if passwd:
args += ["--password=%s" % passwd]
if host:
if '/' in host:
args += ["--socket=%s" % host]
else:
args += ["--host=%s" % host]
if port:
args += ["--port=%s" % port]
if db:
args += [db]
if os.name == 'nt':
sys.exit(os.system(" ".join(args)))
else:
os.execvp(self.executable_name, args)
| agpl-3.0 |
tealover/nova | nova/virt/libvirt/rbd_utils.py | 25 | 10843 | # Copyright 2012 Grid Dynamics
# Copyright 2013 Inktank Storage, Inc.
# Copyright 2014 Mirantis, Inc.
#
# Licensed 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 urllib
try:
import rados
import rbd
except ImportError:
rados = None
rbd = None
from oslo_log import log as logging
from oslo_serialization import jsonutils
from oslo_utils import excutils
from oslo_utils import units
from nova import exception
from nova.i18n import _
from nova.i18n import _LE
from nova.i18n import _LW
from nova.openstack.common import loopingcall
from nova import utils
LOG = logging.getLogger(__name__)
class RBDVolumeProxy(object):
"""Context manager for dealing with an existing rbd volume.
This handles connecting to rados and opening an ioctx automatically, and
otherwise acts like a librbd Image object.
The underlying librados client and ioctx can be accessed as the attributes
'client' and 'ioctx'.
"""
def __init__(self, driver, name, pool=None, snapshot=None,
read_only=False):
client, ioctx = driver._connect_to_rados(pool)
try:
snap_name = snapshot.encode('utf8') if snapshot else None
self.volume = rbd.Image(ioctx, name.encode('utf8'),
snapshot=snap_name,
read_only=read_only)
except rbd.ImageNotFound:
with excutils.save_and_reraise_exception():
LOG.debug("rbd image %s does not exist", name)
driver._disconnect_from_rados(client, ioctx)
except rbd.Error:
with excutils.save_and_reraise_exception():
LOG.exception(_LE("error opening rbd image %s"), name)
driver._disconnect_from_rados(client, ioctx)
self.driver = driver
self.client = client
self.ioctx = ioctx
def __enter__(self):
return self
def __exit__(self, type_, value, traceback):
try:
self.volume.close()
finally:
self.driver._disconnect_from_rados(self.client, self.ioctx)
def __getattr__(self, attrib):
return getattr(self.volume, attrib)
class RADOSClient(object):
"""Context manager to simplify error handling for connecting to ceph."""
def __init__(self, driver, pool=None):
self.driver = driver
self.cluster, self.ioctx = driver._connect_to_rados(pool)
def __enter__(self):
return self
def __exit__(self, type_, value, traceback):
self.driver._disconnect_from_rados(self.cluster, self.ioctx)
class RBDDriver(object):
def __init__(self, pool, ceph_conf, rbd_user):
self.pool = pool.encode('utf8')
# NOTE(angdraug): rados.Rados fails to connect if ceph_conf is None:
# https://github.com/ceph/ceph/pull/1787
self.ceph_conf = ceph_conf.encode('utf8') if ceph_conf else ''
self.rbd_user = rbd_user.encode('utf8') if rbd_user else None
if rbd is None:
raise RuntimeError(_('rbd python libraries not found'))
def _connect_to_rados(self, pool=None):
client = rados.Rados(rados_id=self.rbd_user,
conffile=self.ceph_conf)
try:
client.connect()
pool_to_open = pool or self.pool
ioctx = client.open_ioctx(pool_to_open.encode('utf-8'))
return client, ioctx
except rados.Error:
# shutdown cannot raise an exception
client.shutdown()
raise
def _disconnect_from_rados(self, client, ioctx):
# closing an ioctx cannot raise an exception
ioctx.close()
client.shutdown()
def supports_layering(self):
return hasattr(rbd, 'RBD_FEATURE_LAYERING')
def ceph_args(self):
"""List of command line parameters to be passed to ceph commands to
reflect RBDDriver configuration such as RBD user name and location
of ceph.conf.
"""
args = []
if self.rbd_user:
args.extend(['--id', self.rbd_user])
if self.ceph_conf:
args.extend(['--conf', self.ceph_conf])
return args
def get_mon_addrs(self):
args = ['ceph', 'mon', 'dump', '--format=json'] + self.ceph_args()
out, _ = utils.execute(*args)
lines = out.split('\n')
if lines[0].startswith('dumped monmap epoch'):
lines = lines[1:]
monmap = jsonutils.loads('\n'.join(lines))
addrs = [mon['addr'] for mon in monmap['mons']]
hosts = []
ports = []
for addr in addrs:
host_port = addr[:addr.rindex('/')]
host, port = host_port.rsplit(':', 1)
hosts.append(host.strip('[]'))
ports.append(port)
return hosts, ports
def parse_url(self, url):
prefix = 'rbd://'
if not url.startswith(prefix):
reason = _('Not stored in rbd')
raise exception.ImageUnacceptable(image_id=url, reason=reason)
pieces = map(urllib.unquote, url[len(prefix):].split('/'))
if '' in pieces:
reason = _('Blank components')
raise exception.ImageUnacceptable(image_id=url, reason=reason)
if len(pieces) != 4:
reason = _('Not an rbd snapshot')
raise exception.ImageUnacceptable(image_id=url, reason=reason)
return pieces
def _get_fsid(self):
with RADOSClient(self) as client:
return client.cluster.get_fsid()
def is_cloneable(self, image_location, image_meta):
url = image_location['url']
try:
fsid, pool, image, snapshot = self.parse_url(url)
except exception.ImageUnacceptable as e:
LOG.debug('not cloneable: %s', e)
return False
if self._get_fsid() != fsid:
reason = '%s is in a different ceph cluster' % url
LOG.debug(reason)
return False
if image_meta['disk_format'] != 'raw':
reason = ("rbd image clone requires image format to be "
"'raw' but image {0} is '{1}'").format(
url, image_meta['disk_format'])
LOG.debug(reason)
return False
# check that we can read the image
try:
return self.exists(image, pool=pool, snapshot=snapshot)
except rbd.Error as e:
LOG.debug('Unable to open image %(loc)s: %(err)s' %
dict(loc=url, err=e))
return False
def clone(self, image_location, dest_name):
_fsid, pool, image, snapshot = self.parse_url(
image_location['url'])
LOG.debug('cloning %(pool)s/%(img)s@%(snap)s' %
dict(pool=pool, img=image, snap=snapshot))
with RADOSClient(self, str(pool)) as src_client:
with RADOSClient(self) as dest_client:
rbd.RBD().clone(src_client.ioctx,
image.encode('utf-8'),
snapshot.encode('utf-8'),
dest_client.ioctx,
dest_name,
features=rbd.RBD_FEATURE_LAYERING)
def size(self, name):
with RBDVolumeProxy(self, name) as vol:
return vol.size()
def resize(self, name, size):
"""Resize RBD volume.
:name: Name of RBD object
:size: New size in bytes
"""
LOG.debug('resizing rbd image %s to %d', name, size)
with RBDVolumeProxy(self, name) as vol:
vol.resize(size)
def exists(self, name, pool=None, snapshot=None):
try:
with RBDVolumeProxy(self, name,
pool=pool,
snapshot=snapshot,
read_only=True):
return True
except rbd.ImageNotFound:
return False
def import_image(self, base, name):
"""Import RBD volume from image file.
Uses the command line import instead of librbd since rbd import
command detects zeroes to preserve sparseness in the image.
:base: Path to image file
:name: Name of RBD volume
"""
args = ['--pool', self.pool, base, name]
if self.supports_layering():
args += ['--new-format']
args += self.ceph_args()
utils.execute('rbd', 'import', *args)
def cleanup_volumes(self, instance):
def _cleanup_vol(ioctx, volume, retryctx):
try:
rbd.RBD().remove(client.ioctx, volume)
raise loopingcall.LoopingCallDone(retvalue=False)
except (rbd.ImageBusy, rbd.ImageHasSnapshots):
LOG.warn(_LW('rbd remove %(volume)s in pool %(pool)s '
'failed'),
{'volume': volume, 'pool': self.pool})
retryctx['retries'] -= 1
if retryctx['retries'] <= 0:
raise loopingcall.LoopingCallDone()
with RADOSClient(self, self.pool) as client:
def belongs_to_instance(disk):
return disk.startswith(instance.uuid)
volumes = rbd.RBD().list(client.ioctx)
for volume in filter(belongs_to_instance, volumes):
# NOTE(danms): We let it go for ten seconds
retryctx = {'retries': 10}
timer = loopingcall.FixedIntervalLoopingCall(
_cleanup_vol, client.ioctx, volume, retryctx)
timed_out = timer.start(interval=1).wait()
if timed_out:
# NOTE(danms): Run this again to propagate the error, but
# if it succeeds, don't raise the loopingcall exception
try:
_cleanup_vol(client.ioctx, volume, retryctx)
except loopingcall.LoopingCallDone:
pass
def get_pool_info(self):
with RADOSClient(self) as client:
stats = client.cluster.get_cluster_stats()
return {'total': stats['kb'] * units.Ki,
'free': stats['kb_avail'] * units.Ki,
'used': stats['kb_used'] * units.Ki}
| apache-2.0 |
reyoung/Paddle | benchmark/tensorflow/rnn/rnn_multi_gpu.py | 21 | 12436 | #!/usr/bin/env python
from six.moves import xrange # pylint: disable=redefined-builtin
import re
import math
import time
import numpy as np
from datetime import datetime
import reader
import tensorflow as tf
from tensorflow.python.ops import rnn
FLAGS = tf.app.flags.FLAGS
tf.app.flags.DEFINE_integer('batch_size', 64, """Batch size.""")
tf.app.flags.DEFINE_integer('num_batches', 100, """Number of batches to run.""")
tf.app.flags.DEFINE_integer('num_layers', 1, """Number of batches to run.""")
tf.app.flags.DEFINE_integer('max_len', 100, """Number of batches to run.""")
tf.app.flags.DEFINE_integer('hidden_size', 128, """Number of batches to run.""")
tf.app.flags.DEFINE_integer('emb_size', 64, """Number of batches to run.""")
tf.app.flags.DEFINE_boolean('log_device_placement', False,
"""Whether to log device placement.""")
tf.app.flags.DEFINE_integer('num_gpus', 4, """How many GPUs to use.""")
VOCAB_SIZE = 30000
NUM_CLASS = 2
NUM_EXAMPLES_PER_EPOCH_FOR_TRAIN = 50000
NUM_EPOCHS_PER_DECAY = 50
INITIAL_LEARNING_RATE = 0.1
LEARNING_RATE_DECAY_FACTOR = 0.1
TOWER_NAME = 'tower'
train_dataset = reader.create_datasets("imdb.pkl", VOCAB_SIZE)
def get_incoming_shape(incoming):
""" Returns the incoming data shape """
if isinstance(incoming, tf.Tensor):
return incoming.get_shape().as_list()
elif type(incoming) in [np.array, list, tuple]:
return np.shape(incoming)
else:
raise Exception("Invalid incoming layer.")
# Note input * W is done in LSTMCell,
# which is different from PaddlePaddle
def single_lstm(name,
incoming,
n_units,
use_peepholes=True,
return_seq=False,
return_state=False):
with tf.name_scope(name) as scope:
cell = tf.nn.rnn_cell.LSTMCell(n_units, use_peepholes=use_peepholes)
output, _cell_state = rnn.rnn(cell, incoming, dtype=tf.float32)
out = output if return_seq else output[-1]
return (out, _cell_state) if return_state else out
def lstm(name,
incoming,
n_units,
use_peepholes=True,
return_seq=False,
return_state=False,
num_layers=1):
with tf.name_scope(name) as scope:
lstm_cell = tf.nn.rnn_cell.LSTMCell(
n_units, use_peepholes=use_peepholes)
cell = tf.nn.rnn_cell.MultiRNNCell([lstm_cell] * num_layers)
initial_state = cell.zero_state(FLAGS.batch_size, dtype=tf.float32)
if not isinstance(incoming, list):
# if the input is embeding, the Tensor shape : [None, time_step, emb_size]
incoming = [
tf.squeeze(input_, [1])
for input_ in tf.split(1, FLAGS.max_len, incoming)
]
outputs, state = tf.nn.rnn(cell,
incoming,
initial_state=initial_state,
dtype=tf.float32)
out = outputs if return_seq else outputs[-1]
return (out, _cell_state) if return_state else out
def embedding(name, incoming, vocab_size, emb_size):
with tf.name_scope(name) as scope:
#with tf.device("/cpu:0"):
embedding = tf.get_variable(
name + '_emb', [vocab_size, emb_size], dtype=tf.float32)
out = tf.nn.embedding_lookup(embedding, incoming)
return out
def fc(name, inpOp, nIn, nOut, act=True):
with tf.name_scope(name) as scope:
kernel = tf.get_variable(
name + '_w', [nIn, nOut],
initializer=tf.truncated_normal_initializer(
stddev=0.01, dtype=tf.float32),
dtype=tf.float32)
biases = tf.get_variable(
name + '_b', [nOut],
initializer=tf.constant_initializer(
value=0.0, dtype=tf.float32),
dtype=tf.float32,
trainable=True)
net = tf.nn.relu_layer(inpOp, kernel, biases, name=name) if act else \
tf.matmul(inpOp, kernel) + biases
return net
def inference(seq):
net = embedding('emb', seq, VOCAB_SIZE, FLAGS.emb_size)
print "emb:", get_incoming_shape(net)
net = lstm('lstm', net, FLAGS.hidden_size, num_layers=FLAGS.num_layers)
print "lstm:", get_incoming_shape(net)
net = fc('fc1', net, FLAGS.hidden_size, 2)
return net
def loss(logits, labels):
# one label index for one sample
#labels = tf.cast(labels, tf.int64)
# cross_entropy = tf.nn.sparse_softmax_cross_entropy_with_logits(
# logits, labels, name='cross_entropy_per_example')
labels = tf.cast(labels, tf.float32)
cross_entropy = tf.nn.softmax_cross_entropy_with_logits(
logits, labels, name='cross_entropy_per_example')
cross_entropy_mean = tf.reduce_mean(cross_entropy, name='cross_entropy')
tf.add_to_collection('losses', cross_entropy_mean)
return tf.add_n(tf.get_collection('losses'), name='total_loss')
def tower_loss(scope):
"""Calculate the total loss on a single tower running the model.
Args:
scope: unique prefix string identifying the tower, e.g. 'tower_0'
Returns:
Tensor of shape [] containing the total loss for a batch of data
"""
data, label = train_dataset.next_batch(FLAGS.batch_size)
# Build a Graph that computes the logits predictions from the
# inference model.
last_layer = inference(data)
# Build the portion of the Graph calculating the losses. Note that we will
# assemble the total_loss using a custom function below.
#_ = loss(last_layer, label)
_ = loss(last_layer, label)
# Assemble all of the losses for the current tower only.
losses = tf.get_collection('losses', scope)
# Calculate the total loss for the current tower.
total_loss = tf.add_n(losses, name='total_loss')
# Compute the moving average of all individual losses and the total loss.
loss_averages = tf.train.ExponentialMovingAverage(0.9, name='avg')
loss_averages_op = loss_averages.apply(losses + [total_loss])
# Attach a scalar summary to all individual losses and the total loss; do the
# same for the averaged version of the losses.
for l in losses + [total_loss]:
# Remove 'tower_[0-9]/' from the name in case this is a multi-GPU training
# session. This helps the clarity of presentation on tensorboard.
loss_name = re.sub('%s_[0-9]*/' % TOWER_NAME, '', l.op.name)
# Name each loss as '(raw)' and name the moving average version of the loss
# as the original loss name.
tf.scalar_summary(loss_name + ' (raw)', l)
#tf.scalar_summary(loss_name, loss_averages.average(l))
with tf.control_dependencies([loss_averages_op]):
total_loss = tf.identity(total_loss)
return total_loss
def average_gradients(tower_grads):
"""Calculate the average gradient for each shared variable across all towers.
Note that this function provides a synchronization point across all towers.
Args:
tower_grads: List of lists of (gradient, variable) tuples. The outer list
is over individual gradients. The inner list is over the gradient
calculation for each tower.
Returns:
List of pairs of (gradient, variable) where the gradient has been averaged
across all towers.
"""
average_grads = []
for grad_and_vars in zip(*tower_grads):
# Note that each grad_and_vars looks like the following:
# ((grad0_gpu0, var0_gpu0), ... , (grad0_gpuN, var0_gpuN))
grads = []
for g, _ in grad_and_vars:
# Add 0 dimension to the gradients to represent the tower.
expanded_g = tf.expand_dims(g, 0)
# Append on a 'tower' dimension which we will average over below.
grads.append(expanded_g)
# Average over the 'tower' dimension.
grad = tf.concat(0, grads)
grad = tf.reduce_mean(grad, 0)
# Keep in mind that the Variables are redundant because they are shared
# across towers. So .. we will just return the first tower's pointer to
# the Variable.
v = grad_and_vars[0][1]
grad_and_var = (grad, v)
average_grads.append(grad_and_var)
return average_grads
def time_tensorflow_run(session, target):
num_steps_burn_in = 80
total_duration = 0.0
total_duration_squared = 0.0
for i in xrange(FLAGS.num_batches + num_steps_burn_in):
start_time = time.time()
_ = session.run(target, feed_dict={x_input: data, y_input: label})
_, loss_value = session.run(target)
duration = time.time() - start_time
if i > num_steps_burn_in:
if not i % 10:
num_examples_per_step = FLAGS.batch_size * FLAGS.num_gpus
examples_per_sec = num_examples_per_step / duration
# sec_per_batch = duration / FLAGS.num_gpus
sec_per_batch = duration
format_str = (
'%s: step %d, loss= %.2f (%.1f examples/sec; %.3f '
'sec/batch batch_size= %d)')
print(format_str %
(datetime.now(), i - num_steps_burn_in, loss_value,
duration, sec_per_batch, num_examples_per_step))
total_duration += duration
total_duration_squared += duration * duration
mn = total_duration / FLAGS.num_batches
vr = total_duration_squared / FLAGS.num_batches - mn * mn
sd = math.sqrt(vr)
print('%s: FwdBwd across %d steps, %.3f +/- %.3f sec / batch' %
(datetime.now(), FLAGS.num_batches, mn, sd))
def run_benchmark():
with tf.Graph().as_default(), tf.device('/cpu:0'):
# Create a variable to count the number of train() calls. This equals the
# number of batches processed * FLAGS.num_gpus.
global_step = tf.get_variable(
'global_step', [],
initializer=tf.constant_initializer(0),
trainable=False)
# Calculate the learning rate schedule.
num_batches_per_epoch = (NUM_EXAMPLES_PER_EPOCH_FOR_TRAIN /
FLAGS.batch_size)
decay_steps = int(num_batches_per_epoch * NUM_EPOCHS_PER_DECAY)
# Create an optimizer that performs gradient descent.
opt = tf.train.AdamOptimizer(0.001)
#train_dataset = reader.create_datasets("imdb.pkl", VOCAB_SIZE)
# Calculate the gradients for each model tower.
tower_grads = []
for i in xrange(FLAGS.num_gpus):
with tf.device('/gpu:%d' % i):
with tf.name_scope('%s_%d' % (TOWER_NAME, i)) as scope:
# Calculate the loss for one tower of the model. This function
# constructs the entire model but shares the variables across
# all towers.
loss = tower_loss(scope)
# Reuse variables for the next tower.
tf.get_variable_scope().reuse_variables()
# Retain the summaries from the final tower.
# summaries = tf.get_collection(tf.GraphKeys.SUMMARIES, scope)
# Calculate the gradients for the batch of data on this tower.
grads = opt.compute_gradients(loss)
# Keep track of the gradients across all towers.
tower_grads.append(grads)
# We must calculate the mean of each gradient. Note that this is the
# synchronization point across all towers.
grads = average_gradients(tower_grads)
# Apply the gradients to adjust the shared variables.
apply_gradient_op = opt.apply_gradients(grads, global_step=global_step)
# Group all updates to into a single train op.
train_op = tf.group(apply_gradient_op)
# Build an initialization operation.
init = tf.initialize_all_variables()
# Start running operations on the Graph. allow_soft_placement must be set to
# True to build towers on GPU, as some of the ops do not have GPU
# implementations.
sess = tf.Session(config=tf.ConfigProto(
allow_soft_placement=True,
log_device_placement=FLAGS.log_device_placement))
sess.run(init)
time_tensorflow_run(sess, [train_op, loss])
def main(_):
run_benchmark()
if __name__ == '__main__':
tf.app.run()
| apache-2.0 |
benschmaus/catapult | third_party/gsutil/third_party/boto/boto/ec2containerservice/layer1.py | 135 | 31044 | # Copyright (c) 2015 Amazon.com, Inc. or its affiliates. All Rights Reserved
#
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the
# "Software"), to deal in the Software without restriction, including
# without limitation the rights to use, copy, modify, merge, publish, dis-
# tribute, sublicense, and/or sell copies of the Software, and to permit
# persons to whom the Software is furnished to do so, subject to the fol-
# lowing conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABIL-
# ITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT
# SHALL THE AUTHOR BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
# WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
# IN THE SOFTWARE.
#
import boto
from boto.compat import json
from boto.connection import AWSQueryConnection
from boto.regioninfo import RegionInfo
from boto.exception import JSONResponseError
from boto.ec2containerservice import exceptions
class EC2ContainerServiceConnection(AWSQueryConnection):
"""
Amazon EC2 Container Service (Amazon ECS) is a highly scalable,
fast, container management service that makes it easy to run,
stop, and manage Docker containers on a cluster of Amazon EC2
instances. Amazon ECS lets you launch and stop container-enabled
applications with simple API calls, allows you to get the state of
your cluster from a centralized service, and gives you access to
many familiar Amazon EC2 features like security groups, Amazon EBS
volumes, and IAM roles.
You can use Amazon ECS to schedule the placement of containers
across your cluster based on your resource needs, isolation
policies, and availability requirements. Amazon EC2 Container
Service eliminates the need for you to operate your own cluster
management and configuration management systems or worry about
scaling your management infrastructure.
"""
APIVersion = "2014-11-13"
DefaultRegionName = "us-east-1"
DefaultRegionEndpoint = "ecs.us-east-1.amazonaws.com"
ResponseError = JSONResponseError
_faults = {
"ServerException": exceptions.ServerException,
"ClientException": exceptions.ClientException,
}
def __init__(self, **kwargs):
region = kwargs.pop('region', None)
if not region:
region = RegionInfo(self, self.DefaultRegionName,
self.DefaultRegionEndpoint)
if 'host' not in kwargs or kwargs['host'] is None:
kwargs['host'] = region.endpoint
super(EC2ContainerServiceConnection, self).__init__(**kwargs)
self.region = region
def _required_auth_capability(self):
return ['hmac-v4']
def create_cluster(self, cluster_name=None):
"""
Creates a new Amazon ECS cluster. By default, your account
will receive a `default` cluster when you launch your first
container instance. However, you can create your own cluster
with a unique name with the `CreateCluster` action.
During the preview, each account is limited to two clusters.
:type cluster_name: string
:param cluster_name: The name of your cluster. If you do not specify a
name for your cluster, you will create a cluster named `default`.
"""
params = {}
if cluster_name is not None:
params['clusterName'] = cluster_name
return self._make_request(
action='CreateCluster',
verb='POST',
path='/', params=params)
def delete_cluster(self, cluster):
"""
Deletes the specified cluster. You must deregister all
container instances from this cluster before you may delete
it. You can list the container instances in a cluster with
ListContainerInstances and deregister them with
DeregisterContainerInstance.
:type cluster: string
:param cluster: The cluster you want to delete.
"""
params = {'cluster': cluster, }
return self._make_request(
action='DeleteCluster',
verb='POST',
path='/', params=params)
def deregister_container_instance(self, container_instance, cluster=None,
force=None):
"""
Deregisters an Amazon ECS container instance from the
specified cluster. This instance will no longer be available
to run tasks.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that hosts the container instance you want to
deregister. If you do not specify a cluster, the default cluster is
assumed.
:type container_instance: string
:param container_instance: The container instance UUID or full Amazon
Resource Name (ARN) of the container instance you want to
deregister. The ARN contains the `arn:aws:ecs` namespace, followed
by the region of the container instance, the AWS account ID of the
container instance owner, the `container-instance` namespace, and
then the container instance UUID. For example, arn:aws:ecs: region
: aws_account_id :container-instance/ container_instance_UUID .
:type force: boolean
:param force: Force the deregistration of the container instance. You
can use the `force` parameter if you have several tasks running on
a container instance and you don't want to run `StopTask` for each
task before deregistering the container instance.
"""
params = {'containerInstance': container_instance, }
if cluster is not None:
params['cluster'] = cluster
if force is not None:
params['force'] = str(
force).lower()
return self._make_request(
action='DeregisterContainerInstance',
verb='POST',
path='/', params=params)
def deregister_task_definition(self, task_definition):
"""
Deregisters the specified task definition. You will no longer
be able to run tasks from this definition after
deregistration.
:type task_definition: string
:param task_definition: The `family` and `revision` (
`family:revision`) or full Amazon Resource Name (ARN) of the task
definition that you want to deregister.
"""
params = {'taskDefinition': task_definition, }
return self._make_request(
action='DeregisterTaskDefinition',
verb='POST',
path='/', params=params)
def describe_clusters(self, clusters=None):
"""
Describes one or more of your clusters.
:type clusters: list
:param clusters: A space-separated list of cluster names or full
cluster Amazon Resource Name (ARN) entries. If you do not specify a
cluster, the default cluster is assumed.
"""
params = {}
if clusters is not None:
self.build_list_params(params,
clusters,
'clusters.member')
return self._make_request(
action='DescribeClusters',
verb='POST',
path='/', params=params)
def describe_container_instances(self, container_instances, cluster=None):
"""
Describes Amazon EC2 Container Service container instances.
Returns metadata about registered and remaining resources on
each container instance requested.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that hosts the container instances you want to
describe. If you do not specify a cluster, the default cluster is
assumed.
:type container_instances: list
:param container_instances: A space-separated list of container
instance UUIDs or full Amazon Resource Name (ARN) entries.
"""
params = {}
self.build_list_params(params,
container_instances,
'containerInstances.member')
if cluster is not None:
params['cluster'] = cluster
return self._make_request(
action='DescribeContainerInstances',
verb='POST',
path='/', params=params)
def describe_task_definition(self, task_definition):
"""
Describes a task definition.
:type task_definition: string
:param task_definition: The `family` and `revision` (
`family:revision`) or full Amazon Resource Name (ARN) of the task
definition that you want to describe.
"""
params = {'taskDefinition': task_definition, }
return self._make_request(
action='DescribeTaskDefinition',
verb='POST',
path='/', params=params)
def describe_tasks(self, tasks, cluster=None):
"""
Describes a specified task or tasks.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that hosts the task you want to describe. If you do not
specify a cluster, the default cluster is assumed.
:type tasks: list
:param tasks: A space-separated list of task UUIDs or full Amazon
Resource Name (ARN) entries.
"""
params = {}
self.build_list_params(params,
tasks,
'tasks.member')
if cluster is not None:
params['cluster'] = cluster
return self._make_request(
action='DescribeTasks',
verb='POST',
path='/', params=params)
def discover_poll_endpoint(self, container_instance=None):
"""
This action is only used by the Amazon EC2 Container Service
agent, and it is not intended for use outside of the agent.
Returns an endpoint for the Amazon EC2 Container Service agent
to poll for updates.
:type container_instance: string
:param container_instance: The container instance UUID or full Amazon
Resource Name (ARN) of the container instance. The ARN contains the
`arn:aws:ecs` namespace, followed by the region of the container
instance, the AWS account ID of the container instance owner, the
`container-instance` namespace, and then the container instance
UUID. For example, arn:aws:ecs: region : aws_account_id :container-
instance/ container_instance_UUID .
"""
params = {}
if container_instance is not None:
params['containerInstance'] = container_instance
return self._make_request(
action='DiscoverPollEndpoint',
verb='POST',
path='/', params=params)
def list_clusters(self, next_token=None, max_results=None):
"""
Returns a list of existing clusters.
:type next_token: string
:param next_token: The `nextToken` value returned from a previous
paginated `ListClusters` request where `maxResults` was used and
the results exceeded the value of that parameter. Pagination
continues from the end of the previous results that returned the
`nextToken` value. This value is `null` when there are no more
results to return.
:type max_results: integer
:param max_results: The maximum number of cluster results returned by
`ListClusters` in paginated output. When this parameter is used,
`ListClusters` only returns `maxResults` results in a single page
along with a `nextToken` response element. The remaining results of
the initial request can be seen by sending another `ListClusters`
request with the returned `nextToken` value. This value can be
between 1 and 100. If this parameter is not used, then
`ListClusters` returns up to 100 results and a `nextToken` value if
applicable.
"""
params = {}
if next_token is not None:
params['nextToken'] = next_token
if max_results is not None:
params['maxResults'] = max_results
return self._make_request(
action='ListClusters',
verb='POST',
path='/', params=params)
def list_container_instances(self, cluster=None, next_token=None,
max_results=None):
"""
Returns a list of container instances in a specified cluster.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that hosts the container instances you want to list. If
you do not specify a cluster, the default cluster is assumed..
:type next_token: string
:param next_token: The `nextToken` value returned from a previous
paginated `ListContainerInstances` request where `maxResults` was
used and the results exceeded the value of that parameter.
Pagination continues from the end of the previous results that
returned the `nextToken` value. This value is `null` when there are
no more results to return.
:type max_results: integer
:param max_results: The maximum number of container instance results
returned by `ListContainerInstances` in paginated output. When this
parameter is used, `ListContainerInstances` only returns
`maxResults` results in a single page along with a `nextToken`
response element. The remaining results of the initial request can
be seen by sending another `ListContainerInstances` request with
the returned `nextToken` value. This value can be between 1 and
100. If this parameter is not used, then `ListContainerInstances`
returns up to 100 results and a `nextToken` value if applicable.
"""
params = {}
if cluster is not None:
params['cluster'] = cluster
if next_token is not None:
params['nextToken'] = next_token
if max_results is not None:
params['maxResults'] = max_results
return self._make_request(
action='ListContainerInstances',
verb='POST',
path='/', params=params)
def list_task_definitions(self, family_prefix=None, next_token=None,
max_results=None):
"""
Returns a list of task definitions that are registered to your
account. You can filter the results by family name with the
`familyPrefix` parameter.
:type family_prefix: string
:param family_prefix: The name of the family that you want to filter
the `ListTaskDefinitions` results with. Specifying a `familyPrefix`
will limit the listed task definitions to definitions that belong
to that family.
:type next_token: string
:param next_token: The `nextToken` value returned from a previous
paginated `ListTaskDefinitions` request where `maxResults` was used
and the results exceeded the value of that parameter. Pagination
continues from the end of the previous results that returned the
`nextToken` value. This value is `null` when there are no more
results to return.
:type max_results: integer
:param max_results: The maximum number of task definition results
returned by `ListTaskDefinitions` in paginated output. When this
parameter is used, `ListTaskDefinitions` only returns `maxResults`
results in a single page along with a `nextToken` response element.
The remaining results of the initial request can be seen by sending
another `ListTaskDefinitions` request with the returned `nextToken`
value. This value can be between 1 and 100. If this parameter is
not used, then `ListTaskDefinitions` returns up to 100 results and
a `nextToken` value if applicable.
"""
params = {}
if family_prefix is not None:
params['familyPrefix'] = family_prefix
if next_token is not None:
params['nextToken'] = next_token
if max_results is not None:
params['maxResults'] = max_results
return self._make_request(
action='ListTaskDefinitions',
verb='POST',
path='/', params=params)
def list_tasks(self, cluster=None, container_instance=None, family=None,
next_token=None, max_results=None):
"""
Returns a list of tasks for a specified cluster. You can
filter the results by family name or by a particular container
instance with the `family` and `containerInstance` parameters.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that hosts the tasks you want to list. If you do not
specify a cluster, the default cluster is assumed..
:type container_instance: string
:param container_instance: The container instance UUID or full Amazon
Resource Name (ARN) of the container instance that you want to
filter the `ListTasks` results with. Specifying a
`containerInstance` will limit the results to tasks that belong to
that container instance.
:type family: string
:param family: The name of the family that you want to filter the
`ListTasks` results with. Specifying a `family` will limit the
results to tasks that belong to that family.
:type next_token: string
:param next_token: The `nextToken` value returned from a previous
paginated `ListTasks` request where `maxResults` was used and the
results exceeded the value of that parameter. Pagination continues
from the end of the previous results that returned the `nextToken`
value. This value is `null` when there are no more results to
return.
:type max_results: integer
:param max_results: The maximum number of task results returned by
`ListTasks` in paginated output. When this parameter is used,
`ListTasks` only returns `maxResults` results in a single page
along with a `nextToken` response element. The remaining results of
the initial request can be seen by sending another `ListTasks`
request with the returned `nextToken` value. This value can be
between 1 and 100. If this parameter is not used, then `ListTasks`
returns up to 100 results and a `nextToken` value if applicable.
"""
params = {}
if cluster is not None:
params['cluster'] = cluster
if container_instance is not None:
params['containerInstance'] = container_instance
if family is not None:
params['family'] = family
if next_token is not None:
params['nextToken'] = next_token
if max_results is not None:
params['maxResults'] = max_results
return self._make_request(
action='ListTasks',
verb='POST',
path='/', params=params)
def register_container_instance(self, cluster=None,
instance_identity_document=None,
instance_identity_document_signature=None,
total_resources=None):
"""
This action is only used by the Amazon EC2 Container Service
agent, and it is not intended for use outside of the agent.
Registers an Amazon EC2 instance into the specified cluster.
This instance will become available to place containers on.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that you want to register your container instance with.
If you do not specify a cluster, the default cluster is assumed..
:type instance_identity_document: string
:param instance_identity_document:
:type instance_identity_document_signature: string
:param instance_identity_document_signature:
:type total_resources: list
:param total_resources:
"""
params = {}
if cluster is not None:
params['cluster'] = cluster
if instance_identity_document is not None:
params['instanceIdentityDocument'] = instance_identity_document
if instance_identity_document_signature is not None:
params['instanceIdentityDocumentSignature'] = instance_identity_document_signature
if total_resources is not None:
self.build_complex_list_params(
params, total_resources,
'totalResources.member',
('name', 'type', 'doubleValue', 'longValue', 'integerValue', 'stringSetValue'))
return self._make_request(
action='RegisterContainerInstance',
verb='POST',
path='/', params=params)
def register_task_definition(self, family, container_definitions):
"""
Registers a new task definition from the supplied `family` and
`containerDefinitions`.
:type family: string
:param family: You can specify a `family` for a task definition, which
allows you to track multiple versions of the same task definition.
You can think of the `family` as a name for your task definition.
:type container_definitions: list
:param container_definitions: A list of container definitions in JSON
format that describe the different containers that make up your
task.
"""
params = {'family': family, }
self.build_complex_list_params(
params, container_definitions,
'containerDefinitions.member',
('name', 'image', 'cpu', 'memory', 'links', 'portMappings', 'essential', 'entryPoint', 'command', 'environment'))
return self._make_request(
action='RegisterTaskDefinition',
verb='POST',
path='/', params=params)
def run_task(self, task_definition, cluster=None, overrides=None,
count=None):
"""
Start a task using random placement and the default Amazon ECS
scheduler. If you want to use your own scheduler or place a
task on a specific container instance, use `StartTask`
instead.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that you want to run your task on. If you do not
specify a cluster, the default cluster is assumed..
:type task_definition: string
:param task_definition: The `family` and `revision` (
`family:revision`) or full Amazon Resource Name (ARN) of the task
definition that you want to run.
:type overrides: dict
:param overrides:
:type count: integer
:param count: The number of instances of the specified task that you
would like to place on your cluster.
"""
params = {'taskDefinition': task_definition, }
if cluster is not None:
params['cluster'] = cluster
if overrides is not None:
params['overrides'] = overrides
if count is not None:
params['count'] = count
return self._make_request(
action='RunTask',
verb='POST',
path='/', params=params)
def start_task(self, task_definition, container_instances, cluster=None,
overrides=None):
"""
Starts a new task from the specified task definition on the
specified container instance or instances. If you want to use
the default Amazon ECS scheduler to place your task, use
`RunTask` instead.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that you want to start your task on. If you do not
specify a cluster, the default cluster is assumed..
:type task_definition: string
:param task_definition: The `family` and `revision` (
`family:revision`) or full Amazon Resource Name (ARN) of the task
definition that you want to start.
:type overrides: dict
:param overrides:
:type container_instances: list
:param container_instances: The container instance UUIDs or full Amazon
Resource Name (ARN) entries for the container instances on which
you would like to place your task.
"""
params = {'taskDefinition': task_definition, }
self.build_list_params(params,
container_instances,
'containerInstances.member')
if cluster is not None:
params['cluster'] = cluster
if overrides is not None:
params['overrides'] = overrides
return self._make_request(
action='StartTask',
verb='POST',
path='/', params=params)
def stop_task(self, task, cluster=None):
"""
Stops a running task.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that hosts the task you want to stop. If you do not
specify a cluster, the default cluster is assumed..
:type task: string
:param task: The task UUIDs or full Amazon Resource Name (ARN) entry of
the task you would like to stop.
"""
params = {'task': task, }
if cluster is not None:
params['cluster'] = cluster
return self._make_request(
action='StopTask',
verb='POST',
path='/', params=params)
def submit_container_state_change(self, cluster=None, task=None,
container_name=None, status=None,
exit_code=None, reason=None,
network_bindings=None):
"""
This action is only used by the Amazon EC2 Container Service
agent, and it is not intended for use outside of the agent.
Sent to acknowledge that a container changed states.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that hosts the container.
:type task: string
:param task: The task UUID or full Amazon Resource Name (ARN) of the
task that hosts the container.
:type container_name: string
:param container_name: The name of the container.
:type status: string
:param status: The status of the state change request.
:type exit_code: integer
:param exit_code: The exit code returned for the state change request.
:type reason: string
:param reason: The reason for the state change request.
:type network_bindings: list
:param network_bindings: The network bindings of the container.
"""
params = {}
if cluster is not None:
params['cluster'] = cluster
if task is not None:
params['task'] = task
if container_name is not None:
params['containerName'] = container_name
if status is not None:
params['status'] = status
if exit_code is not None:
params['exitCode'] = exit_code
if reason is not None:
params['reason'] = reason
if network_bindings is not None:
self.build_complex_list_params(
params, network_bindings,
'networkBindings.member',
('bindIP', 'containerPort', 'hostPort'))
return self._make_request(
action='SubmitContainerStateChange',
verb='POST',
path='/', params=params)
def submit_task_state_change(self, cluster=None, task=None, status=None,
reason=None):
"""
This action is only used by the Amazon EC2 Container Service
agent, and it is not intended for use outside of the agent.
Sent to acknowledge that a task changed states.
:type cluster: string
:param cluster: The short name or full Amazon Resource Name (ARN) of
the cluster that hosts the task.
:type task: string
:param task: The task UUID or full Amazon Resource Name (ARN) of the
task in the state change request.
:type status: string
:param status: The status of the state change request.
:type reason: string
:param reason: The reason for the state change request.
"""
params = {}
if cluster is not None:
params['cluster'] = cluster
if task is not None:
params['task'] = task
if status is not None:
params['status'] = status
if reason is not None:
params['reason'] = reason
return self._make_request(
action='SubmitTaskStateChange',
verb='POST',
path='/', params=params)
def _make_request(self, action, verb, path, params):
params['ContentType'] = 'JSON'
response = self.make_request(action=action, verb='POST',
path='/', params=params)
body = response.read().decode('utf-8')
boto.log.debug(body)
if response.status == 200:
return json.loads(body)
else:
json_body = json.loads(body)
fault_name = json_body.get('Error', {}).get('Code', None)
exception_class = self._faults.get(fault_name, self.ResponseError)
raise exception_class(response.status, response.reason,
body=json_body)
| bsd-3-clause |
sogno/stbgui | lib/python/Screens/PluginBrowser.py | 1 | 16924 | from Screen import Screen
from Screens.ParentalControlSetup import ProtectedScreen
from enigma import eConsoleAppContainer, eDVBDB
from Components.ActionMap import ActionMap, NumberActionMap
from Components.config import config, ConfigSubsection, ConfigText
from Components.PluginComponent import plugins
from Components.PluginList import *
from Components.Label import Label
from Components.Language import language
from Components.Harddisk import harddiskmanager
from Components.Sources.StaticText import StaticText
from Components import Ipkg
from Screens.MessageBox import MessageBox
from Screens.ChoiceBox import ChoiceBox
from Screens.Console import Console
from Plugins.Plugin import PluginDescriptor
from Tools.Directories import resolveFilename, SCOPE_PLUGINS, SCOPE_CURRENT_SKIN
from Tools.LoadPixmap import LoadPixmap
from time import time
import os
language.addCallback(plugins.reloadPlugins)
config.misc.pluginbrowser = ConfigSubsection()
config.misc.pluginbrowser.plugin_order = ConfigText(default="")
class PluginBrowserSummary(Screen):
def __init__(self, session, parent):
Screen.__init__(self, session, parent = parent)
self["entry"] = StaticText("")
self["desc"] = StaticText("")
self.onShow.append(self.addWatcher)
self.onHide.append(self.removeWatcher)
def addWatcher(self):
self.parent.onChangedEntry.append(self.selectionChanged)
self.parent.selectionChanged()
def removeWatcher(self):
self.parent.onChangedEntry.remove(self.selectionChanged)
def selectionChanged(self, name, desc):
self["entry"].text = name
self["desc"].text = desc
class PluginBrowser(Screen, ProtectedScreen):
def __init__(self, session):
Screen.__init__(self, session)
ProtectedScreen.__init__(self)
self.firsttime = True
self["key_red"] = self["red"] = Label(_("Remove plugins"))
self["key_green"] = self["green"] = Label(_("Download plugins"))
self.list = []
self["list"] = PluginList(self.list)
self["actions"] = ActionMap(["WizardActions","MenuActions"],
{
"ok": self.save,
"back": self.close,
"menu": self.exit,
})
self["PluginDownloadActions"] = ActionMap(["ColorActions"],
{
"red": self.delete,
"green": self.download
})
self["DirectionActions"] = ActionMap(["DirectionActions"],
{
"moveUp": self.moveUp,
"moveDown": self.moveDown
})
self["NumberActions"] = NumberActionMap(["NumberActions"],
{
"1": self.keyNumberGlobal,
"2": self.keyNumberGlobal,
"3": self.keyNumberGlobal,
"4": self.keyNumberGlobal,
"5": self.keyNumberGlobal,
"6": self.keyNumberGlobal,
"7": self.keyNumberGlobal,
"8": self.keyNumberGlobal,
"9": self.keyNumberGlobal,
"0": self.keyNumberGlobal
})
self.onFirstExecBegin.append(self.checkWarnings)
self.onShown.append(self.updateList)
self.onChangedEntry = []
self["list"].onSelectionChanged.append(self.selectionChanged)
self.onLayoutFinish.append(self.saveListsize)
def isProtected(self):
return config.ParentalControl.setuppinactive.value and (not config.ParentalControl.config_sections.main_menu.value or hasattr(self.session, 'infobar') and self.session.infobar is None) and config.ParentalControl.config_sections.plugin_browser.value
def exit(self):
self.close(True)
def saveListsize(self):
listsize = self["list"].instance.size()
self.listWidth = listsize.width()
self.listHeight = listsize.height()
def createSummary(self):
return PluginBrowserSummary
def selectionChanged(self):
item = self["list"].getCurrent()
if item:
p = item[0]
name = p.name
desc = p.description
else:
name = "-"
desc = ""
for cb in self.onChangedEntry:
cb(name, desc)
def checkWarnings(self):
if len(plugins.warnings):
text = _("Some plugins are not available:\n")
for (pluginname, error) in plugins.warnings:
text += _("%s (%s)\n") % (pluginname, error)
plugins.resetWarnings()
self.session.open(MessageBox, text = text, type = MessageBox.TYPE_WARNING)
def save(self):
self.run()
def run(self):
plugin = self["list"].l.getCurrentSelection()[0]
plugin(session=self.session)
def setDefaultList(self, answer):
if answer:
config.misc.pluginbrowser.plugin_order.value = ""
config.misc.pluginbrowser.plugin_order.save()
self.updateList()
def keyNumberGlobal(self, number):
if number == 0:
if len(self.list) > 0 and config.misc.pluginbrowser.plugin_order.value != "":
self.session.openWithCallback(self.setDefaultList, MessageBox, _("Sort plugins list to default?"), MessageBox.TYPE_YESNO)
else:
real_number = number - 1
if real_number < len(self.list):
self["list"].moveToIndex(real_number)
self.run()
def moveUp(self):
self.move(-1)
def moveDown(self):
self.move(1)
def move(self, direction):
if len(self.list) > 1:
currentIndex = self["list"].getSelectionIndex()
swapIndex = (currentIndex + direction) % len(self.list)
if currentIndex == 0 and swapIndex != 1:
self.list = self.list[1:] + [self.list[0]]
elif swapIndex == 0 and currentIndex != 1:
self.list = [self.list[-1]] + self.list[:-1]
else:
self.list[currentIndex], self.list[swapIndex] = self.list[swapIndex], self.list[currentIndex]
self["list"].l.setList(self.list)
if direction == 1:
self["list"].down()
else:
self["list"].up()
plugin_order = []
for x in self.list:
plugin_order.append(x[0].path[24:])
config.misc.pluginbrowser.plugin_order.value = ",".join(plugin_order)
config.misc.pluginbrowser.plugin_order.save()
def updateList(self):
self.list = []
pluginlist = plugins.getPlugins(PluginDescriptor.WHERE_PLUGINMENU)[:]
for x in config.misc.pluginbrowser.plugin_order.value.split(","):
plugin = list(plugin for plugin in pluginlist if plugin.path[24:] == x)
if plugin:
self.list.append(PluginEntryComponent(plugin[0], self.listWidth))
pluginlist.remove(plugin[0])
self.list = self.list + [PluginEntryComponent(plugin, self.listWidth) for plugin in pluginlist]
self["list"].l.setList(self.list)
def delete(self):
self.session.openWithCallback(self.PluginDownloadBrowserClosed, PluginDownloadBrowser, PluginDownloadBrowser.REMOVE)
def download(self):
self.session.openWithCallback(self.PluginDownloadBrowserClosed, PluginDownloadBrowser, PluginDownloadBrowser.DOWNLOAD, self.firsttime)
self.firsttime = False
def PluginDownloadBrowserClosed(self):
self.updateList()
self.checkWarnings()
def openExtensionmanager(self):
if fileExists(resolveFilename(SCOPE_PLUGINS, "SystemPlugins/SoftwareManager/plugin.py")):
try:
from Plugins.SystemPlugins.SoftwareManager.plugin import PluginManager
except ImportError:
self.session.open(MessageBox, _("The software management extension is not installed!\nPlease install it."), type = MessageBox.TYPE_INFO,timeout = 10 )
else:
self.session.openWithCallback(self.PluginDownloadBrowserClosed, PluginManager)
class PluginDownloadBrowser(Screen):
DOWNLOAD = 0
REMOVE = 1
PLUGIN_PREFIX = 'enigma2-plugin-'
lastDownloadDate = None
def __init__(self, session, type = 0, needupdate = True):
Screen.__init__(self, session)
self.type = type
self.needupdate = needupdate
self.container = eConsoleAppContainer()
self.container.appClosed.append(self.runFinished)
self.container.dataAvail.append(self.dataAvail)
self.onLayoutFinish.append(self.startRun)
self.onShown.append(self.setWindowTitle)
self.list = []
self["list"] = PluginList(self.list)
self.pluginlist = []
self.expanded = []
self.installedplugins = []
self.plugins_changed = False
self.reload_settings = False
self.check_settings = False
self.install_settings_name = ''
self.remove_settings_name = ''
if self.type == self.DOWNLOAD:
self["text"] = Label(_("Downloading plugin information. Please wait..."))
elif self.type == self.REMOVE:
self["text"] = Label(_("Getting plugin information. Please wait..."))
self.run = 0
self.remainingdata = ""
self["actions"] = ActionMap(["WizardActions"],
{
"ok": self.go,
"back": self.requestClose,
})
if os.path.isfile('/usr/bin/opkg'):
self.ipkg = '/usr/bin/opkg'
self.ipkg_install = self.ipkg + ' install --force-overwrite'
self.ipkg_remove = self.ipkg + ' remove --autoremove'
else:
self.ipkg = 'ipkg'
self.ipkg_install = 'ipkg install -force-defaults'
self.ipkg_remove = self.ipkg + ' remove'
def go(self):
sel = self["list"].l.getCurrentSelection()
if sel is None:
return
sel = sel[0]
if isinstance(sel, str): # category
if sel in self.expanded:
self.expanded.remove(sel)
else:
self.expanded.append(sel)
self.updateList()
else:
if self.type == self.DOWNLOAD:
self.session.openWithCallback(self.runInstall, MessageBox, _("Do you really want to download\nthe plugin \"%s\"?") % sel.name)
elif self.type == self.REMOVE:
self.session.openWithCallback(self.runInstall, MessageBox, _("Do you really want to remove\nthe plugin \"%s\"?") % sel.name)
def requestClose(self):
if self.plugins_changed:
plugins.readPluginList(resolveFilename(SCOPE_PLUGINS))
if self.reload_settings:
self["text"].setText(_("Reloading bouquets and services..."))
eDVBDB.getInstance().reloadBouquets()
eDVBDB.getInstance().reloadServicelist()
plugins.readPluginList(resolveFilename(SCOPE_PLUGINS))
self.container.appClosed.remove(self.runFinished)
self.container.dataAvail.remove(self.dataAvail)
self.close()
def resetPostInstall(self):
try:
del self.postInstallCall
except:
pass
def installDestinationCallback(self, result):
if result is not None:
dest = result[1]
if dest.startswith('/'):
# Custom install path, add it to the list too
dest = os.path.normpath(dest)
extra = '--add-dest %s:%s -d %s' % (dest,dest,dest)
Ipkg.opkgAddDestination(dest)
else:
extra = '-d ' + dest
self.doInstall(self.installFinished, self["list"].l.getCurrentSelection()[0].name + ' ' + extra)
else:
self.resetPostInstall()
def runInstall(self, val):
if val:
if self.type == self.DOWNLOAD:
if self["list"].l.getCurrentSelection()[0].name.startswith("picons-"):
supported_filesystems = frozenset(('ext4', 'ext3', 'ext2', 'reiser', 'reiser4', 'jffs2', 'ubifs', 'rootfs'))
candidates = []
import Components.Harddisk
mounts = Components.Harddisk.getProcMounts()
for partition in harddiskmanager.getMountedPartitions(False, mounts):
if partition.filesystem(mounts) in supported_filesystems:
candidates.append((partition.description, partition.mountpoint))
if candidates:
from Components.Renderer import Picon
self.postInstallCall = Picon.initPiconPaths
self.session.openWithCallback(self.installDestinationCallback, ChoiceBox, title=_("Install picons on"), list=candidates)
return
self.install_settings_name = self["list"].l.getCurrentSelection()[0].name
if self["list"].l.getCurrentSelection()[0].name.startswith('settings-'):
self.check_settings = True
self.startIpkgListInstalled(self.PLUGIN_PREFIX + 'settings-*')
else:
self.runSettingsInstall()
elif self.type == self.REMOVE:
self.doRemove(self.installFinished, self["list"].l.getCurrentSelection()[0].name)
def doRemove(self, callback, pkgname):
self.session.openWithCallback(callback, Console, cmdlist = [self.ipkg_remove + Ipkg.opkgExtraDestinations() + " " + self.PLUGIN_PREFIX + pkgname, "sync"], closeOnSuccess = True)
def doInstall(self, callback, pkgname):
self.session.openWithCallback(callback, Console, cmdlist = [self.ipkg_install + " " + self.PLUGIN_PREFIX + pkgname, "sync"], closeOnSuccess = True)
def runSettingsRemove(self, val):
if val:
self.doRemove(self.runSettingsInstall, self.remove_settings_name)
def runSettingsInstall(self):
self.doInstall(self.installFinished, self.install_settings_name)
def setWindowTitle(self):
if self.type == self.DOWNLOAD:
self.setTitle(_("Downloadable new plugins"))
elif self.type == self.REMOVE:
self.setTitle(_("Remove plugins"))
def startIpkgListInstalled(self, pkgname = PLUGIN_PREFIX + '*'):
self.container.execute(self.ipkg + Ipkg.opkgExtraDestinations() + " list_installed '%s'" % pkgname)
def startIpkgListAvailable(self):
self.container.execute(self.ipkg + Ipkg.opkgExtraDestinations() + " list '" + self.PLUGIN_PREFIX + "*'")
def startRun(self):
listsize = self["list"].instance.size()
self["list"].instance.hide()
self.listWidth = listsize.width()
self.listHeight = listsize.height()
if self.type == self.DOWNLOAD:
if self.needupdate and not PluginDownloadBrowser.lastDownloadDate or (time() - PluginDownloadBrowser.lastDownloadDate) > 3600:
# Only update from internet once per hour
self.container.execute(self.ipkg + " update")
PluginDownloadBrowser.lastDownloadDate = time()
else:
self.run = 1
self.startIpkgListInstalled()
elif self.type == self.REMOVE:
self.run = 1
self.startIpkgListInstalled()
def installFinished(self):
if hasattr(self, 'postInstallCall'):
try:
self.postInstallCall()
except Exception, ex:
print "[PluginBrowser] postInstallCall failed:", ex
self.resetPostInstall()
try:
os.unlink('/tmp/opkg.conf')
except:
pass
for plugin in self.pluginlist:
if plugin[3] == self["list"].l.getCurrentSelection()[0].name:
self.pluginlist.remove(plugin)
break
self.plugins_changed = True
if self["list"].l.getCurrentSelection()[0].name.startswith("settings-"):
self.reload_settings = True
self.expanded = []
self.updateList()
self["list"].moveToIndex(0)
def runFinished(self, retval):
if self.check_settings:
self.check_settings = False
self.runSettingsInstall()
return
self.remainingdata = ""
if self.run == 0:
self.run = 1
if self.type == self.DOWNLOAD:
self.startIpkgListInstalled()
elif self.run == 1 and self.type == self.DOWNLOAD:
self.run = 2
from Components import opkg
pluginlist = []
self.pluginlist = pluginlist
for plugin in opkg.enumPlugins(self.PLUGIN_PREFIX):
if plugin[0] not in self.installedplugins:
pluginlist.append(plugin + (plugin[0][15:],))
if pluginlist:
pluginlist.sort()
self.updateList()
self["list"].instance.show()
else:
self["text"].setText(_("No new plugins found"))
else:
if self.pluginlist:
self.updateList()
self["list"].instance.show()
else:
self["text"].setText(_("No new plugins found"))
def dataAvail(self, str):
#prepend any remaining data from the previous call
str = self.remainingdata + str
#split in lines
lines = str.split('\n')
#'str' should end with '\n', so when splitting, the last line should be empty. If this is not the case, we received an incomplete line
if len(lines[-1]):
#remember this data for next time
self.remainingdata = lines[-1]
lines = lines[0:-1]
else:
self.remainingdata = ""
if self.check_settings:
self.check_settings = False
self.remove_settings_name = str.split(' - ')[0].replace(self.PLUGIN_PREFIX, '')
self.session.openWithCallback(self.runSettingsRemove, MessageBox, _('You already have a channel list installed,\nwould you like to remove\n"%s"?') % self.remove_settings_name)
return
if self.run == 1:
for x in lines:
plugin = x.split(" - ", 2)
# 'opkg list_installed' only returns name + version, no description field
if len(plugin) >= 2:
if not plugin[0].endswith('-dev') and not plugin[0].endswith('-staticdev') and not plugin[0].endswith('-dbg') and not plugin[0].endswith('-doc') and not plugin[0].endswith('-src'):
if plugin[0] not in self.installedplugins:
if self.type == self.DOWNLOAD:
self.installedplugins.append(plugin[0])
else:
if len(plugin) == 2:
plugin.append('')
plugin.append(plugin[0][15:])
self.pluginlist.append(plugin)
def updateList(self):
list = []
expandableIcon = LoadPixmap(resolveFilename(SCOPE_CURRENT_SKIN, "skin_default/expandable-plugins.png"))
expandedIcon = LoadPixmap(resolveFilename(SCOPE_CURRENT_SKIN, "skin_default/expanded-plugins.png"))
verticallineIcon = LoadPixmap(resolveFilename(SCOPE_CURRENT_SKIN, "skin_default/verticalline-plugins.png"))
self.plugins = {}
for x in self.pluginlist:
split = x[3].split('-', 1)
if len(split) < 2:
continue
if not self.plugins.has_key(split[0]):
self.plugins[split[0]] = []
self.plugins[split[0]].append((PluginDescriptor(name = x[3], description = x[2], icon = verticallineIcon), split[1], x[1]))
for x in self.plugins.keys():
if x in self.expanded:
list.append(PluginCategoryComponent(x, expandedIcon, self.listWidth))
list.extend([PluginDownloadComponent(plugin[0], plugin[1], plugin[2], self.listWidth) for plugin in self.plugins[x]])
else:
list.append(PluginCategoryComponent(x, expandableIcon, self.listWidth))
self.list = list
self["list"].l.setList(list)
| gpl-2.0 |
batermj/algorithm-challenger | code-analysis/programming_anguage/python/source_codes/Python3.8.0/Python-3.8.0/Lib/encodings/iso8859_13.py | 272 | 13271 | """ Python Character Mapping Codec iso8859_13 generated from 'MAPPINGS/ISO8859/8859-13.TXT' with gencodec.py.
"""#"
import codecs
### Codec APIs
class Codec(codecs.Codec):
def encode(self,input,errors='strict'):
return codecs.charmap_encode(input,errors,encoding_table)
def decode(self,input,errors='strict'):
return codecs.charmap_decode(input,errors,decoding_table)
class IncrementalEncoder(codecs.IncrementalEncoder):
def encode(self, input, final=False):
return codecs.charmap_encode(input,self.errors,encoding_table)[0]
class IncrementalDecoder(codecs.IncrementalDecoder):
def decode(self, input, final=False):
return codecs.charmap_decode(input,self.errors,decoding_table)[0]
class StreamWriter(Codec,codecs.StreamWriter):
pass
class StreamReader(Codec,codecs.StreamReader):
pass
### encodings module API
def getregentry():
return codecs.CodecInfo(
name='iso8859-13',
encode=Codec().encode,
decode=Codec().decode,
incrementalencoder=IncrementalEncoder,
incrementaldecoder=IncrementalDecoder,
streamreader=StreamReader,
streamwriter=StreamWriter,
)
### Decoding Table
decoding_table = (
'\x00' # 0x00 -> NULL
'\x01' # 0x01 -> START OF HEADING
'\x02' # 0x02 -> START OF TEXT
'\x03' # 0x03 -> END OF TEXT
'\x04' # 0x04 -> END OF TRANSMISSION
'\x05' # 0x05 -> ENQUIRY
'\x06' # 0x06 -> ACKNOWLEDGE
'\x07' # 0x07 -> BELL
'\x08' # 0x08 -> BACKSPACE
'\t' # 0x09 -> HORIZONTAL TABULATION
'\n' # 0x0A -> LINE FEED
'\x0b' # 0x0B -> VERTICAL TABULATION
'\x0c' # 0x0C -> FORM FEED
'\r' # 0x0D -> CARRIAGE RETURN
'\x0e' # 0x0E -> SHIFT OUT
'\x0f' # 0x0F -> SHIFT IN
'\x10' # 0x10 -> DATA LINK ESCAPE
'\x11' # 0x11 -> DEVICE CONTROL ONE
'\x12' # 0x12 -> DEVICE CONTROL TWO
'\x13' # 0x13 -> DEVICE CONTROL THREE
'\x14' # 0x14 -> DEVICE CONTROL FOUR
'\x15' # 0x15 -> NEGATIVE ACKNOWLEDGE
'\x16' # 0x16 -> SYNCHRONOUS IDLE
'\x17' # 0x17 -> END OF TRANSMISSION BLOCK
'\x18' # 0x18 -> CANCEL
'\x19' # 0x19 -> END OF MEDIUM
'\x1a' # 0x1A -> SUBSTITUTE
'\x1b' # 0x1B -> ESCAPE
'\x1c' # 0x1C -> FILE SEPARATOR
'\x1d' # 0x1D -> GROUP SEPARATOR
'\x1e' # 0x1E -> RECORD SEPARATOR
'\x1f' # 0x1F -> UNIT SEPARATOR
' ' # 0x20 -> SPACE
'!' # 0x21 -> EXCLAMATION MARK
'"' # 0x22 -> QUOTATION MARK
'#' # 0x23 -> NUMBER SIGN
'$' # 0x24 -> DOLLAR SIGN
'%' # 0x25 -> PERCENT SIGN
'&' # 0x26 -> AMPERSAND
"'" # 0x27 -> APOSTROPHE
'(' # 0x28 -> LEFT PARENTHESIS
')' # 0x29 -> RIGHT PARENTHESIS
'*' # 0x2A -> ASTERISK
'+' # 0x2B -> PLUS SIGN
',' # 0x2C -> COMMA
'-' # 0x2D -> HYPHEN-MINUS
'.' # 0x2E -> FULL STOP
'/' # 0x2F -> SOLIDUS
'0' # 0x30 -> DIGIT ZERO
'1' # 0x31 -> DIGIT ONE
'2' # 0x32 -> DIGIT TWO
'3' # 0x33 -> DIGIT THREE
'4' # 0x34 -> DIGIT FOUR
'5' # 0x35 -> DIGIT FIVE
'6' # 0x36 -> DIGIT SIX
'7' # 0x37 -> DIGIT SEVEN
'8' # 0x38 -> DIGIT EIGHT
'9' # 0x39 -> DIGIT NINE
':' # 0x3A -> COLON
';' # 0x3B -> SEMICOLON
'<' # 0x3C -> LESS-THAN SIGN
'=' # 0x3D -> EQUALS SIGN
'>' # 0x3E -> GREATER-THAN SIGN
'?' # 0x3F -> QUESTION MARK
'@' # 0x40 -> COMMERCIAL AT
'A' # 0x41 -> LATIN CAPITAL LETTER A
'B' # 0x42 -> LATIN CAPITAL LETTER B
'C' # 0x43 -> LATIN CAPITAL LETTER C
'D' # 0x44 -> LATIN CAPITAL LETTER D
'E' # 0x45 -> LATIN CAPITAL LETTER E
'F' # 0x46 -> LATIN CAPITAL LETTER F
'G' # 0x47 -> LATIN CAPITAL LETTER G
'H' # 0x48 -> LATIN CAPITAL LETTER H
'I' # 0x49 -> LATIN CAPITAL LETTER I
'J' # 0x4A -> LATIN CAPITAL LETTER J
'K' # 0x4B -> LATIN CAPITAL LETTER K
'L' # 0x4C -> LATIN CAPITAL LETTER L
'M' # 0x4D -> LATIN CAPITAL LETTER M
'N' # 0x4E -> LATIN CAPITAL LETTER N
'O' # 0x4F -> LATIN CAPITAL LETTER O
'P' # 0x50 -> LATIN CAPITAL LETTER P
'Q' # 0x51 -> LATIN CAPITAL LETTER Q
'R' # 0x52 -> LATIN CAPITAL LETTER R
'S' # 0x53 -> LATIN CAPITAL LETTER S
'T' # 0x54 -> LATIN CAPITAL LETTER T
'U' # 0x55 -> LATIN CAPITAL LETTER U
'V' # 0x56 -> LATIN CAPITAL LETTER V
'W' # 0x57 -> LATIN CAPITAL LETTER W
'X' # 0x58 -> LATIN CAPITAL LETTER X
'Y' # 0x59 -> LATIN CAPITAL LETTER Y
'Z' # 0x5A -> LATIN CAPITAL LETTER Z
'[' # 0x5B -> LEFT SQUARE BRACKET
'\\' # 0x5C -> REVERSE SOLIDUS
']' # 0x5D -> RIGHT SQUARE BRACKET
'^' # 0x5E -> CIRCUMFLEX ACCENT
'_' # 0x5F -> LOW LINE
'`' # 0x60 -> GRAVE ACCENT
'a' # 0x61 -> LATIN SMALL LETTER A
'b' # 0x62 -> LATIN SMALL LETTER B
'c' # 0x63 -> LATIN SMALL LETTER C
'd' # 0x64 -> LATIN SMALL LETTER D
'e' # 0x65 -> LATIN SMALL LETTER E
'f' # 0x66 -> LATIN SMALL LETTER F
'g' # 0x67 -> LATIN SMALL LETTER G
'h' # 0x68 -> LATIN SMALL LETTER H
'i' # 0x69 -> LATIN SMALL LETTER I
'j' # 0x6A -> LATIN SMALL LETTER J
'k' # 0x6B -> LATIN SMALL LETTER K
'l' # 0x6C -> LATIN SMALL LETTER L
'm' # 0x6D -> LATIN SMALL LETTER M
'n' # 0x6E -> LATIN SMALL LETTER N
'o' # 0x6F -> LATIN SMALL LETTER O
'p' # 0x70 -> LATIN SMALL LETTER P
'q' # 0x71 -> LATIN SMALL LETTER Q
'r' # 0x72 -> LATIN SMALL LETTER R
's' # 0x73 -> LATIN SMALL LETTER S
't' # 0x74 -> LATIN SMALL LETTER T
'u' # 0x75 -> LATIN SMALL LETTER U
'v' # 0x76 -> LATIN SMALL LETTER V
'w' # 0x77 -> LATIN SMALL LETTER W
'x' # 0x78 -> LATIN SMALL LETTER X
'y' # 0x79 -> LATIN SMALL LETTER Y
'z' # 0x7A -> LATIN SMALL LETTER Z
'{' # 0x7B -> LEFT CURLY BRACKET
'|' # 0x7C -> VERTICAL LINE
'}' # 0x7D -> RIGHT CURLY BRACKET
'~' # 0x7E -> TILDE
'\x7f' # 0x7F -> DELETE
'\x80' # 0x80 -> <control>
'\x81' # 0x81 -> <control>
'\x82' # 0x82 -> <control>
'\x83' # 0x83 -> <control>
'\x84' # 0x84 -> <control>
'\x85' # 0x85 -> <control>
'\x86' # 0x86 -> <control>
'\x87' # 0x87 -> <control>
'\x88' # 0x88 -> <control>
'\x89' # 0x89 -> <control>
'\x8a' # 0x8A -> <control>
'\x8b' # 0x8B -> <control>
'\x8c' # 0x8C -> <control>
'\x8d' # 0x8D -> <control>
'\x8e' # 0x8E -> <control>
'\x8f' # 0x8F -> <control>
'\x90' # 0x90 -> <control>
'\x91' # 0x91 -> <control>
'\x92' # 0x92 -> <control>
'\x93' # 0x93 -> <control>
'\x94' # 0x94 -> <control>
'\x95' # 0x95 -> <control>
'\x96' # 0x96 -> <control>
'\x97' # 0x97 -> <control>
'\x98' # 0x98 -> <control>
'\x99' # 0x99 -> <control>
'\x9a' # 0x9A -> <control>
'\x9b' # 0x9B -> <control>
'\x9c' # 0x9C -> <control>
'\x9d' # 0x9D -> <control>
'\x9e' # 0x9E -> <control>
'\x9f' # 0x9F -> <control>
'\xa0' # 0xA0 -> NO-BREAK SPACE
'\u201d' # 0xA1 -> RIGHT DOUBLE QUOTATION MARK
'\xa2' # 0xA2 -> CENT SIGN
'\xa3' # 0xA3 -> POUND SIGN
'\xa4' # 0xA4 -> CURRENCY SIGN
'\u201e' # 0xA5 -> DOUBLE LOW-9 QUOTATION MARK
'\xa6' # 0xA6 -> BROKEN BAR
'\xa7' # 0xA7 -> SECTION SIGN
'\xd8' # 0xA8 -> LATIN CAPITAL LETTER O WITH STROKE
'\xa9' # 0xA9 -> COPYRIGHT SIGN
'\u0156' # 0xAA -> LATIN CAPITAL LETTER R WITH CEDILLA
'\xab' # 0xAB -> LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
'\xac' # 0xAC -> NOT SIGN
'\xad' # 0xAD -> SOFT HYPHEN
'\xae' # 0xAE -> REGISTERED SIGN
'\xc6' # 0xAF -> LATIN CAPITAL LETTER AE
'\xb0' # 0xB0 -> DEGREE SIGN
'\xb1' # 0xB1 -> PLUS-MINUS SIGN
'\xb2' # 0xB2 -> SUPERSCRIPT TWO
'\xb3' # 0xB3 -> SUPERSCRIPT THREE
'\u201c' # 0xB4 -> LEFT DOUBLE QUOTATION MARK
'\xb5' # 0xB5 -> MICRO SIGN
'\xb6' # 0xB6 -> PILCROW SIGN
'\xb7' # 0xB7 -> MIDDLE DOT
'\xf8' # 0xB8 -> LATIN SMALL LETTER O WITH STROKE
'\xb9' # 0xB9 -> SUPERSCRIPT ONE
'\u0157' # 0xBA -> LATIN SMALL LETTER R WITH CEDILLA
'\xbb' # 0xBB -> RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
'\xbc' # 0xBC -> VULGAR FRACTION ONE QUARTER
'\xbd' # 0xBD -> VULGAR FRACTION ONE HALF
'\xbe' # 0xBE -> VULGAR FRACTION THREE QUARTERS
'\xe6' # 0xBF -> LATIN SMALL LETTER AE
'\u0104' # 0xC0 -> LATIN CAPITAL LETTER A WITH OGONEK
'\u012e' # 0xC1 -> LATIN CAPITAL LETTER I WITH OGONEK
'\u0100' # 0xC2 -> LATIN CAPITAL LETTER A WITH MACRON
'\u0106' # 0xC3 -> LATIN CAPITAL LETTER C WITH ACUTE
'\xc4' # 0xC4 -> LATIN CAPITAL LETTER A WITH DIAERESIS
'\xc5' # 0xC5 -> LATIN CAPITAL LETTER A WITH RING ABOVE
'\u0118' # 0xC6 -> LATIN CAPITAL LETTER E WITH OGONEK
'\u0112' # 0xC7 -> LATIN CAPITAL LETTER E WITH MACRON
'\u010c' # 0xC8 -> LATIN CAPITAL LETTER C WITH CARON
'\xc9' # 0xC9 -> LATIN CAPITAL LETTER E WITH ACUTE
'\u0179' # 0xCA -> LATIN CAPITAL LETTER Z WITH ACUTE
'\u0116' # 0xCB -> LATIN CAPITAL LETTER E WITH DOT ABOVE
'\u0122' # 0xCC -> LATIN CAPITAL LETTER G WITH CEDILLA
'\u0136' # 0xCD -> LATIN CAPITAL LETTER K WITH CEDILLA
'\u012a' # 0xCE -> LATIN CAPITAL LETTER I WITH MACRON
'\u013b' # 0xCF -> LATIN CAPITAL LETTER L WITH CEDILLA
'\u0160' # 0xD0 -> LATIN CAPITAL LETTER S WITH CARON
'\u0143' # 0xD1 -> LATIN CAPITAL LETTER N WITH ACUTE
'\u0145' # 0xD2 -> LATIN CAPITAL LETTER N WITH CEDILLA
'\xd3' # 0xD3 -> LATIN CAPITAL LETTER O WITH ACUTE
'\u014c' # 0xD4 -> LATIN CAPITAL LETTER O WITH MACRON
'\xd5' # 0xD5 -> LATIN CAPITAL LETTER O WITH TILDE
'\xd6' # 0xD6 -> LATIN CAPITAL LETTER O WITH DIAERESIS
'\xd7' # 0xD7 -> MULTIPLICATION SIGN
'\u0172' # 0xD8 -> LATIN CAPITAL LETTER U WITH OGONEK
'\u0141' # 0xD9 -> LATIN CAPITAL LETTER L WITH STROKE
'\u015a' # 0xDA -> LATIN CAPITAL LETTER S WITH ACUTE
'\u016a' # 0xDB -> LATIN CAPITAL LETTER U WITH MACRON
'\xdc' # 0xDC -> LATIN CAPITAL LETTER U WITH DIAERESIS
'\u017b' # 0xDD -> LATIN CAPITAL LETTER Z WITH DOT ABOVE
'\u017d' # 0xDE -> LATIN CAPITAL LETTER Z WITH CARON
'\xdf' # 0xDF -> LATIN SMALL LETTER SHARP S (German)
'\u0105' # 0xE0 -> LATIN SMALL LETTER A WITH OGONEK
'\u012f' # 0xE1 -> LATIN SMALL LETTER I WITH OGONEK
'\u0101' # 0xE2 -> LATIN SMALL LETTER A WITH MACRON
'\u0107' # 0xE3 -> LATIN SMALL LETTER C WITH ACUTE
'\xe4' # 0xE4 -> LATIN SMALL LETTER A WITH DIAERESIS
'\xe5' # 0xE5 -> LATIN SMALL LETTER A WITH RING ABOVE
'\u0119' # 0xE6 -> LATIN SMALL LETTER E WITH OGONEK
'\u0113' # 0xE7 -> LATIN SMALL LETTER E WITH MACRON
'\u010d' # 0xE8 -> LATIN SMALL LETTER C WITH CARON
'\xe9' # 0xE9 -> LATIN SMALL LETTER E WITH ACUTE
'\u017a' # 0xEA -> LATIN SMALL LETTER Z WITH ACUTE
'\u0117' # 0xEB -> LATIN SMALL LETTER E WITH DOT ABOVE
'\u0123' # 0xEC -> LATIN SMALL LETTER G WITH CEDILLA
'\u0137' # 0xED -> LATIN SMALL LETTER K WITH CEDILLA
'\u012b' # 0xEE -> LATIN SMALL LETTER I WITH MACRON
'\u013c' # 0xEF -> LATIN SMALL LETTER L WITH CEDILLA
'\u0161' # 0xF0 -> LATIN SMALL LETTER S WITH CARON
'\u0144' # 0xF1 -> LATIN SMALL LETTER N WITH ACUTE
'\u0146' # 0xF2 -> LATIN SMALL LETTER N WITH CEDILLA
'\xf3' # 0xF3 -> LATIN SMALL LETTER O WITH ACUTE
'\u014d' # 0xF4 -> LATIN SMALL LETTER O WITH MACRON
'\xf5' # 0xF5 -> LATIN SMALL LETTER O WITH TILDE
'\xf6' # 0xF6 -> LATIN SMALL LETTER O WITH DIAERESIS
'\xf7' # 0xF7 -> DIVISION SIGN
'\u0173' # 0xF8 -> LATIN SMALL LETTER U WITH OGONEK
'\u0142' # 0xF9 -> LATIN SMALL LETTER L WITH STROKE
'\u015b' # 0xFA -> LATIN SMALL LETTER S WITH ACUTE
'\u016b' # 0xFB -> LATIN SMALL LETTER U WITH MACRON
'\xfc' # 0xFC -> LATIN SMALL LETTER U WITH DIAERESIS
'\u017c' # 0xFD -> LATIN SMALL LETTER Z WITH DOT ABOVE
'\u017e' # 0xFE -> LATIN SMALL LETTER Z WITH CARON
'\u2019' # 0xFF -> RIGHT SINGLE QUOTATION MARK
)
### Encoding table
encoding_table=codecs.charmap_build(decoding_table)
| apache-2.0 |
aplanas/rally | tests/unit/cli/test_manage.py | 9 | 1368 | # Copyright 2013: Mirantis Inc.
# All Rights Reserved.
#
# Licensed 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 sys
import mock
from rally.cli import manage
from tests.unit import test
class CmdManageTestCase(test.TestCase):
@mock.patch("rally.cli.manage.cliutils")
def test_main(self, mock_cliutils):
manage.main()
categories = {"db": manage.DBCommands}
mock_cliutils.run.assert_called_once_with(sys.argv, categories)
class DBCommandsTestCase(test.TestCase):
def setUp(self):
super(DBCommandsTestCase, self).setUp()
self.db_commands = manage.DBCommands()
@mock.patch("rally.cli.manage.db")
def test_recreate(self, mock_db):
self.db_commands.recreate()
calls = [mock.call.db_drop(), mock.call.db_create()]
self.assertEqual(calls, mock_db.mock_calls)
| apache-2.0 |
madscatt/zazmol | src/python/test_sasmol/test_file_io/test_intg_file_io_Files_write_dcd_frames.py | 2 | 10912 | '''
SASMOL: Copyright (C) 2011 Joseph E. Curtis, Ph.D.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
'''
from sasmol.test_sasmol.utilities import env
from unittest import main,skipIf
from mocker import Mocker, MockerTestCase
import sasmol.system as system
import numpy
import os
floattype=os.environ['SASMOL_FLOATTYPE']
pdbDataPath = os.path.join(os.path.dirname(os.path.realpath(__file__)),'..','data','pdb_common')+os.path.sep
dcdDataPath = os.path.join(os.path.dirname(os.path.realpath(__file__)),'..','data','dcd_common')+os.path.sep
moduleDataPath = os.path.join(os.path.dirname(os.path.realpath(__file__)),'..','data','sasmol','file_io')+os.path.sep
class Test_intg_file_io_Files_write_dcd(MockerTestCase):
def setUp(self):
self.o=system.Molecule(0)
self.prcsn = 3
def assert_list_almost_equal(self,a,b,places=5):
if (len(a)!=len(b)):
raise TypeError
else:
for i in range(len(a)):
if isinstance(a[i],(int,float,numpy.generic)):
if (numpy.isnan(a[i]) and numpy.isnan(b[i])): continue
self.assertAlmostEqual(a[i],b[i],places)
else:
self.assert_list_almost_equal(a[i],b[i],places)
def test_1ATM_1(self):
'''
test a dcd with 2 frames based on a 1-atom pdb and write the first frame
'''
#
pdbFile = pdbDataPath+'1ATM-1to2.pdb'
dcdFile = moduleDataPath+'test-results/1ATM-1to2-writedcdframes.dcd'
start = 0
end = 1
self.o.read_pdb(pdbFile)
self.o.write_dcd_frames(dcdFile,start,end)
o1 = system.Molecule(0)
o1.read_dcd(dcdFile)
result_coor = o1.coor()
sum_result_coor = sum(sum(sum(result_coor)))
print '\nresult_coor \n',result_coor,'\nsum of result_coor\n',sum_result_coor
os.remove(dcdFile)
#
expected_coor = numpy.array([[[76.944, 41.799, 41.652]]],floattype)
sum_expected_coor = 160.395
print '\nexpected_coor \n',expected_coor
#
self.assert_list_almost_equal(expected_coor, result_coor, self.prcsn)
self.assertAlmostEqual(sum_expected_coor, sum_result_coor, self.prcsn)
def test_1ATM_2(self):
'''
test a dcd with 2 frames based on a 1-atom pdb and write the second frame
'''
#
pdbFile = pdbDataPath+'1ATM-1to2.pdb'
dcdFile = moduleDataPath+'test-results/1ATM-1to2-writedcdframes.dcd'
start = 1
end = 2
self.o.read_pdb(pdbFile)
self.o.write_dcd_frames(dcdFile,start,end)
o1 = system.Molecule(0)
o1.read_dcd(dcdFile)
result_coor = o1.coor()
sum_result_coor = sum(sum(sum(result_coor)))
print '\nresult_coor \n',result_coor,'\nsum of result_coor\n',sum_result_coor
os.remove(dcdFile)
#
expected_coor = numpy.array([[[73.944, 38.799, 41.652]]],floattype)
sum_expected_coor = 154.395
print '\nexpected_coor \n',expected_coor
#
self.assert_list_almost_equal(expected_coor, result_coor, self.prcsn)
self.assertAlmostEqual(sum_expected_coor, sum_result_coor, self.prcsn)
def test_1ATM_3(self):
'''
test a dcd with 2 frames based on a 1-atom pdb and write all frames
'''
#
pdbFile = pdbDataPath+'1ATM-1to2.pdb'
dcdFile = moduleDataPath+'test-results/1ATM-1to2-writedcdframes.dcd'
start = 0
end = 2
self.o.read_pdb(pdbFile)
self.o.write_dcd_frames(dcdFile,start,end)
o1 = system.Molecule(0)
o1.read_dcd(dcdFile)
result_coor = o1.coor()
sum_result_coor = sum(sum(sum(result_coor)))
print '\nresult_coor \n',result_coor,'\nsum of result_coor\n',sum_result_coor
os.remove(dcdFile)
#
expected_coor = numpy.array([[[76.944, 41.799, 41.652]],[[73.944, 38.799, 41.652]]],floattype)
sum_expected_coor = 314.790
print '\nexpected_coor \n',expected_coor
#
self.assert_list_almost_equal(expected_coor, result_coor, self.prcsn)
self.assertAlmostEqual(sum_expected_coor, sum_result_coor, self.prcsn)
def test_2AAD(self):
'''
test a dcd with 3 frames based on a 2-aa pdb
'''
#
pdbFile = pdbDataPath+'2AAD-1to3.pdb'
dcdFile = moduleDataPath+'test-results/2AAD-1to3-writedcdframes.dcd'
start = 0
end = 3
self.o.read_pdb(pdbFile)
self.o.write_dcd_frames(dcdFile,start,end)
o1 = system.Molecule(0)
o1.read_dcd(dcdFile)
result_coor = o1.coor()
sum_result_coor = sum(sum(sum(result_coor)))
print '\nresult_coor \n',result_coor,'\nsum of result_coor\n',sum_result_coor
os.remove(dcdFile)
#
expected_coor = numpy.array([[[ 73.944, 41.799, 41.652], [ 74.229, 42.563, 40.456], [ 75.667, 43.093, 40.463], [ 76.264, 43.279, 39.401], [ 73.210, 43.734, 40.336], [ 71.856, 43.168, 39.926], [ 73.677, 44.782, 39.354], [ 70.721, 44.177, 39.946], [ 76.231, 43.330, 41.647], [ 77.592, 43.852, 41.730], [ 78.617, 42.820, 42.184], [ 79.712, 43.169, 42.656], [ 77.671, 45.097, 42.648], [ 77.054, 44.816, 43.910], [ 76.970, 46.273, 42.000]],\
[[ -73.944, 41.799, 41.652], [ -74.229, 42.563, 40.456], [ -75.667, 43.093, 40.463], [ -76.264, 43.279, 39.401], [ -73.210, 43.734, 40.336], [ -71.856, 43.168, 39.926], [ -73.677, 44.782, 39.354], [ -70.721, 44.177, 39.946], [ -76.231, 43.330, 41.647], [ -77.592, 43.852, 41.730], [ -78.617, 42.820, 42.184], [ -79.712, 43.169, 42.656], [ -77.671, 45.097, 42.648], [ -77.054, 44.816, 43.910], [ -76.970, 46.273, 42.000]],\
[[ 73.944, -41.799, 41.652], [ 74.229, -42.563, 40.456], [ 75.667, -43.093, 40.463], [ 76.264, -43.279, 39.401], [ 73.210, -43.734, 40.336], [ 71.856, -43.168, 39.926], [ 73.677, -44.782, 39.354], [ 70.721, -44.177, 39.946], [ 76.231, -43.330, 41.647], [ 77.592, -43.852, 41.730], [ 78.617, -42.820, 42.184], [ 79.712, -43.169, 42.656], [ 77.671, -45.097, 42.648], [ 77.054, -44.816, 43.910], [ 76.970, -46.273, 42.000]]],floattype)
sum_expected_coor = 3644.294
print '\nexpected_coor \n',expected_coor
#
self.assert_list_almost_equal(expected_coor, result_coor, self.prcsn)
self.assertAlmostEqual(sum_expected_coor, sum_result_coor, self.prcsn)
def test_rna(self):
'''
test a dcd with 1 frame based on a rna molecule
'''
#
pdbFile = pdbDataPath+'rna.pdb'
dcdFile = moduleDataPath+'test-results/rna-writedcdframes.dcd'
start = 0
end = 1
self.o.read_pdb(pdbFile)
self.o.write_dcd_frames(dcdFile,start,end)
o1 = system.Molecule(0)
o1.read_dcd(dcdFile)
result_coor = o1.coor()
sum_result_coor = sum(sum(sum(result_coor)))
print '\nresult_coor \n',result_coor,'\nsum of result_coor\n',sum_result_coor
os.remove(dcdFile)
#
self.assertEqual(len(result_coor),1)
self.assertEqual(len(result_coor[0]),10632)
expected_sample_coor = numpy.array([-35.960, 48.536, 72.994],floattype)
sum_expected_coor = 59505.827
self.assert_list_almost_equal(expected_sample_coor,result_coor[0][10631],self.prcsn)
self.assertAlmostEqual(sum_result_coor, sum_expected_coor, self.prcsn)
def test_rna_frame1to10(self):
'''
test a dcd with 10 frames based on a rna molecule
'''
#
pdbFile = pdbDataPath+'rna-1to10.pdb'
dcdFile = moduleDataPath+'test-results/rna-1to10-writedcdframes.dcd'
start = 0
end = 10
self.o.read_pdb(pdbFile)
self.o.write_dcd_frames(dcdFile,start,end)
o1 = system.Molecule(0)
o1.read_dcd(dcdFile)
result_coor = o1.coor()
sum_result_coor = sum(sum(sum(result_coor)))
print '\nresult_coor \n',result_coor,'\nsum of result_coor\n',sum_result_coor
os.remove(dcdFile)
#
self.assertEqual(len(result_coor),10)
self.assertEqual(len(result_coor[9]),10632)
expected_sample_coor = numpy.array([-6.392, 14.348, 20.914],floattype)
sum_expected_coor = -430804.378
self.assert_list_almost_equal(expected_sample_coor,result_coor[9][10631], self.prcsn)
self.assertAlmostEqual(sum_result_coor, sum_expected_coor, self.prcsn)
def test_1CRN(self):
'''
test a dcd from a small protein of crambin
'''
#
pdbFile = pdbDataPath+'1CRN.pdb'
dcdFile = moduleDataPath+'test-results/1CRN-writedcdframes.dcd'
start = 0
end = 1
self.o.read_pdb(pdbFile)
self.o.write_dcd_frames(dcdFile,start,end)
o1 = system.Molecule(0)
o1.read_dcd(dcdFile)
result_coor = o1.coor()
sum_result_coor = sum(sum(sum(result_coor)))
print '\nresult_coor \n',result_coor,'\nsum of result_coor\n',sum_result_coor
os.remove(dcdFile)
#
self.assertEqual(len(result_coor[0]),327)
expected_sample_coor = numpy.array([9.555, 2.856, 3.730],floattype)
sum_expected_coor = 8509.587
self.assert_list_almost_equal(expected_sample_coor,result_coor[0][100], self.prcsn)
self.assertAlmostEqual(sum_result_coor, sum_expected_coor, self.prcsn)
@skipIf(os.environ['SASMOL_LARGETEST']=='n',"I am not testing large files")
def test_1KP8(self):
'''
test a dcd from a protein complex of greol
'''
#
pdbFile = pdbDataPath+'1KP8.pdb'
dcdFile = moduleDataPath+'test-results/1KP8-writedcdframes.dcd'
start = 0
end = 1
self.o.read_pdb(pdbFile)
self.o.write_dcd_frames(dcdFile,start,end)
o1 = system.Molecule(0)
o1.read_dcd(dcdFile)
result_coor = o1.coor()
sum_result_coor = sum(sum(sum(result_coor)))
print '\nresult_coor \n',result_coor,'\nsum of result_coor\n',sum_result_coor
os.remove(dcdFile)
#
self.assertEqual(len(result_coor[0]),57085)
expected_sample_coor = numpy.array([104.484, 26.915, 12.538],floattype)
sum_expected_coor = 6269170.260
self.assert_list_almost_equal(expected_sample_coor,result_coor[0][100], self.prcsn)
self.assertAlmostEqual(sum_result_coor, sum_expected_coor, self.prcsn)
def tearDown(self):
pass
if __name__ == '__main__':
main()
| gpl-3.0 |
stdweird/aquilon | lib/python2.6/aquilon/worker/commands/del_intervention.py | 2 | 1458 | # -*- cpy-indent-level: 4; indent-tabs-mode: nil -*-
# ex: set expandtab softtabstop=4 shiftwidth=4:
#
# Copyright (C) 2008,2009,2010,2011,2012,2013 Contributor
#
# Licensed 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.
from aquilon.aqdb.model import Intervention
from aquilon.worker.broker import BrokerCommand, validate_basic
from aquilon.worker.dbwrappers.resources import (del_resource,
get_resource_holder)
class CommandDelIntervention(BrokerCommand):
required_parameters = ["intervention"]
def render(self, session, logger, hostname, cluster,
intervention, **arguments):
validate_basic("intervention", intervention)
holder = get_resource_holder(session, hostname, cluster)
dbapp = Intervention.get_unique(session, name=intervention,
holder=holder, compel=True)
del_resource(session, logger, dbapp)
return
| apache-2.0 |
shashwatsehgal/ToLop | lib/requests/compat.py | 71 | 1595 | # -*- coding: utf-8 -*-
"""
requests.compat
~~~~~~~~~~~~~~~
This module handles import compatibility issues between Python 2 and
Python 3.
"""
import chardet
import sys
# -------
# Pythons
# -------
# Syntax sugar.
_ver = sys.version_info
#: Python 2.x?
is_py2 = (_ver[0] == 2)
#: Python 3.x?
is_py3 = (_ver[0] == 3)
try:
import simplejson as json
except ImportError:
import json
# ---------
# Specifics
# ---------
if is_py2:
from urllib import (
quote, unquote, quote_plus, unquote_plus, urlencode, getproxies,
proxy_bypass, proxy_bypass_environment, getproxies_environment)
from urlparse import urlparse, urlunparse, urljoin, urlsplit, urldefrag
from urllib2 import parse_http_list
import cookielib
from Cookie import Morsel
from StringIO import StringIO
from urllib3.packages.ordered_dict import OrderedDict
builtin_str = str
bytes = str
str = unicode
basestring = basestring
numeric_types = (int, long, float)
integer_types = (int, long)
elif is_py3:
from urllib.parse import urlparse, urlunparse, urljoin, urlsplit, urlencode, quote, unquote, quote_plus, unquote_plus, urldefrag
from urllib.request import parse_http_list, getproxies, proxy_bypass, proxy_bypass_environment, getproxies_environment
from http import cookiejar as cookielib
from http.cookies import Morsel
from io import StringIO
from collections import OrderedDict
builtin_str = str
str = str
bytes = bytes
basestring = (str, bytes)
numeric_types = (int, float)
integer_types = (int,)
| apache-2.0 |
tuxfux-hlp-notes/python-batches | archieves/batch-64/09-modules/myenv/lib/python2.7/site-packages/django/contrib/sites/migrations/0001_initial.py | 276 | 1096 | # -*- coding: utf-8 -*-
from __future__ import unicode_literals
import django.contrib.sites.models
from django.contrib.sites.models import _simple_domain_name_validator
from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = []
operations = [
migrations.CreateModel(
name='Site',
fields=[
('id', models.AutoField(verbose_name='ID', serialize=False, auto_created=True, primary_key=True)),
('domain', models.CharField(max_length=100, verbose_name='domain name', validators=[_simple_domain_name_validator])),
('name', models.CharField(max_length=50, verbose_name='display name')),
],
options={
'ordering': ('domain',),
'db_table': 'django_site',
'verbose_name': 'site',
'verbose_name_plural': 'sites',
},
bases=(models.Model,),
managers=[
('objects', django.contrib.sites.models.SiteManager()),
],
),
]
| gpl-3.0 |
CPBridge/fetal_heart_analysis | scripts/utilities/test_argparse.py | 1 | 4426 | import argparse as ap
# This is intended to replicate the functionality of the argument parser in
# test.cpp
test_arg_parser = ap.ArgumentParser()
test_arg_parser.add_argument('--pause','-u', help="pause the video until a key press after each frame")
test_arg_parser.add_argument('--display_hidden','-H', help="display hidden detections with a white circle")
test_arg_parser.add_argument('--displaymode','-d', type=int, default=1, help="0 no display, 1 detection only, 2 posterior superimposed, 3 ground truth, 4 posterior only")
test_arg_parser.add_argument('--record','-c', default="none", help="record an output video with the given filename")
test_arg_parser.add_argument('--videofile','-v', help="video to process")
test_arg_parser.add_argument('--modelfile','-m', default="modelout", help="root name for model definition files")
test_arg_parser.add_argument('--radius','-r', type=float, help="radius at which to search for the objects")
test_arg_parser.add_argument('--mask','-k', help="image file containing mask of the ultrasound fan area")
test_arg_parser.add_argument('--n_trees','-n', type=int, default=-1, help="number of trees in the forest to use (if -ve all trained trees used)")
test_arg_parser.add_argument('--n_tree_levels','-l', type=int, default=-1, help="number of levels in the forest to use (if -ve all trained levels used)")
test_arg_parser.add_argument('--n_trees_phase','-N', type=int, default=-1, help="number of trees in the phase forest to use (if -ve all trained trees used)")
test_arg_parser.add_argument('--n_tree_levels_phase','-L', type=int, default=-1, help="number of levels in the phase forest to use (if -ve all trained levels used)")
test_arg_parser.add_argument('--n_trees_subs','-S', type=int, default=-1, help="number of trees in the substructure forest to use (if -ve all trained trees used)")
test_arg_parser.add_argument('--n_tree_levels_subs','-T', type=int, default=-1, help="number of levels in the substructure forest to use (if -ve all trained levels used)")
test_arg_parser.add_argument('--n_particles','-Q', type=int, default=1000, help="number of particles for the particle flitering")
test_arg_parser.add_argument('--threshold','-t', type=float,default=0.0, help="detection threshold (range 0 1)")
test_arg_parser.add_argument('--problem_type','-p', type=int, default=0, help="0 class, 1 phase, 2 ori, 3 full, 4 substructure, 5 subs+phase")
test_arg_parser.add_argument('--output','-o', help="output detections to this results file")
test_arg_parser.add_argument('--filter','-f', action='store_true',help="filter detections temporally using a particle filter")
test_arg_parser.add_argument('--use_ground_truth_position','-P', action='store_true', help="give orientation and phase estimates for the ground truth location rather than predicted location")
test_arg_parser.add_argument('--ri_feature_method','-R', help="method to use for calculating rotation invariant features (default auto)")
test_arg_parser.add_argument('--ri_coupling_method','-C', help="method to use for coupling within invariant features (default auto)")
test_arg_parser.add_argument('--spatial_feature_memoisation','-M', help="use spatial memoisation within feature extractors")
test_arg_parser.add_argument('--structure_distribution_temperature','-X', type=float,default=-1.0, help="smooth the node distributions of the structure forests using this temperature (higher -> smoother)")
test_arg_parser.add_argument('--filterfile','-z', nargs='*', help="particle filter definition files (list all in order)")
test_arg_parser.add_argument('--groundtruthtrackfile','-g', help="track file to read for ground truth" )
test_arg_parser.add_argument('--groundtruthsubsfile','-i', help="track file to read for substructures ground truth" )
test_arg_parser.add_argument('--groundtruthabdfile','-j', help="track file to read for abdomen ground truth" )
test_arg_parser.add_argument('--pad_border_fraction','-b', type=float,default=0.0, help="fraction of the image width and height that are added to each side to define the limits of the Hough space")
test_arg_parser.add_argument('--pixel_skip','-q', type=int, default=1, help="stride of pixels at which to evaluate the hough Forest forest")
test_arg_parser.add_argument('--motion_tracking','-x', help="Use motion estimate to track abdominal movement ")
test_arg_parser.add_argument('--scale','-s', type=float, help="scale factor to apply before processing");
| gpl-3.0 |
raajitr/django_hangman | env/lib/python2.7/site-packages/rest_framework/authtoken/models.py | 17 | 1307 | import binascii
import os
from django.conf import settings
from django.db import models
from django.utils.encoding import python_2_unicode_compatible
from django.utils.translation import ugettext_lazy as _
@python_2_unicode_compatible
class Token(models.Model):
"""
The default authorization token model.
"""
key = models.CharField(_("Key"), max_length=40, primary_key=True)
user = models.OneToOneField(
settings.AUTH_USER_MODEL, related_name='auth_token',
on_delete=models.CASCADE, verbose_name=_("User")
)
created = models.DateTimeField(_("Created"), auto_now_add=True)
class Meta:
# Work around for a bug in Django:
# https://code.djangoproject.com/ticket/19422
#
# Also see corresponding ticket:
# https://github.com/tomchristie/django-rest-framework/issues/705
abstract = 'rest_framework.authtoken' not in settings.INSTALLED_APPS
verbose_name = _("Token")
verbose_name_plural = _("Tokens")
def save(self, *args, **kwargs):
if not self.key:
self.key = self.generate_key()
return super(Token, self).save(*args, **kwargs)
def generate_key(self):
return binascii.hexlify(os.urandom(20)).decode()
def __str__(self):
return self.key
| mit |
Mte90/remo | remo/dashboard/tests/test_views.py | 3 | 9978 | from datetime import timedelta
from django.conf import settings
from django.contrib.contenttypes.models import ContentType
from django.core import mail
from django.core.urlresolvers import reverse
from django.test.client import Client
from django.utils.timezone import now
import mock
from nose.tools import eq_, ok_
from remo.base.templatetags.helpers import urlparams
from remo.base.tests import RemoTestCase
from remo.dashboard.models import ActionItem
from remo.events.tests import EventFactory
from remo.profiles.tests import FunctionalAreaFactory, UserFactory
from remo.remozilla.models import Bug
from remo.remozilla.tests import BugFactory
from remo.reports import ACTIVITY_EVENT_CREATE
from remo.reports.tests import ActivityFactory, NGReportFactory
class ViewsTest(RemoTestCase):
"""Test views."""
def setUp(self):
self.settings_data = {'receive_email_on_add_comment': True}
self.user_edit_settings_url = reverse('edit_settings')
self.failed_url = urlparams(settings.LOGIN_REDIRECT_URL_FAILURE, bid_login_failed=1)
def test_view_dashboard_page(self):
"""Get dashboard page."""
c = Client()
# Get as anonymous user.
response = c.get(reverse('dashboard'), follow=True)
eq_(response.status_code, 200)
self.assertJinja2TemplateUsed(response, 'main.jinja')
# Get as logged in rep.
rep = UserFactory.create(groups=['Rep'])
with self.login(rep) as client:
response = client.get(reverse('dashboard'))
eq_(response.status_code, 200)
self.assertJinja2TemplateUsed(response, 'dashboard_reps.jinja')
# Get as logged in mentor.
mentor = UserFactory.create(groups=['Mentor'])
with self.login(mentor) as client:
response = client.get(reverse('dashboard'))
eq_(response.status_code, 200)
self.assertJinja2TemplateUsed(response, 'dashboard_reps.jinja')
# Get as logged in counselor.
councelor = UserFactory.create(groups=['Council'])
with self.login(councelor) as client:
response = client.get(reverse('dashboard'))
eq_(response.status_code, 200)
self.assertJinja2TemplateUsed(response, 'dashboard_reps.jinja')
@mock.patch('remo.dashboard.views.messages.success')
def test_email_my_mentees_mentor_with_send_True(self, faked_message):
"""Email mentees when mentor and checkbox is checked."""
mentor = UserFactory.create(groups=['Mentor'])
rep = UserFactory.create(groups=['Rep'], userprofile__mentor=mentor)
data = {'%s' % (rep.id): 'True',
'subject': 'This is subject',
'body': ('This is my body\n',
'Multiline of course')}
with self.login(mentor) as client:
response = client.post(reverse('email_mentees'), data, follow=True)
self.assertJinja2TemplateUsed(response, 'dashboard_reps.jinja')
ok_(faked_message.called)
eq_(faked_message.call_args[0][1], 'Email sent successfully.')
eq_(len(mail.outbox), 1)
eq_(len(mail.outbox[0].to), 1)
eq_(len(mail.outbox[0].cc), 1)
@mock.patch('remo.dashboard.views.messages.error')
def test_email_my_mentees_mentor_with_send_False(self, faked_message):
"""Email mentees when mentor and checkbox is not checked."""
mentor = UserFactory.create(groups=['Mentor'])
rep = UserFactory.create(groups=['Rep'], userprofile__mentor=mentor)
data = {'%s' % (rep.id): 'False',
'subject': 'This is subject',
'body': ('This is my body\n',
'Multiline of course')}
with self.login(mentor) as client:
response = client.post(reverse('email_mentees'), data, follow=True)
self.assertJinja2TemplateUsed(response, 'dashboard_reps.jinja')
ok_(faked_message.called)
eq_(faked_message.call_args[0][1],
'Email not sent. Please select at least one recipient.')
eq_(len(mail.outbox), 0)
@mock.patch('remo.dashboard.views.messages.error')
def test_email_my_mentees_rep(self, faked_message):
"""Email mentees when rep.
Must fail since Rep doesn't have mentees.
"""
rep = UserFactory.create(groups=['Rep'])
data = {'subject': 'This is subject',
'body': ('This is my body',
'Multiline ofcourse')}
with self.login(rep) as client:
response = client.post(reverse('email_mentees'), data, follow=True)
self.assertJinja2TemplateUsed(response, 'main.jinja')
ok_(faked_message.called)
eq_(faked_message.call_args[0][1], 'Permission denied.')
eq_(len(mail.outbox), 0)
@mock.patch('remo.dashboard.views.messages.success')
def test_email_reps_as_mozillian(self, faked_message):
"""Email all the reps associated with a functional area."""
mozillian = UserFactory.create(groups=['Mozillians'])
area = FunctionalAreaFactory.create()
UserFactory.create(groups=['Rep'],
userprofile__functional_areas=[area])
data = {'subject': 'This is subject',
'body': 'This is my body\n Multiline of course',
'functional_area': area.id}
with self.login(mozillian) as client:
response = client.post(reverse('dashboard'), data, follow=True)
ok_(faked_message.called)
eq_(faked_message.call_args[0][1], 'Email sent successfully.')
eq_(len(mail.outbox), 1)
self.assertJinja2TemplateUsed(response, 'dashboard_mozillians.jinja')
class StatsDashboardTest(RemoTestCase):
"""Test stats dashboard."""
def setUp(self):
ActivityFactory.create(name=ACTIVITY_EVENT_CREATE)
def test_base(self):
response = Client().get(reverse('stats_dashboard'))
eq_(response.status_code, 200)
self.assertJinja2TemplateUsed(response, 'stats_dashboard.jinja')
def test_overview(self):
UserFactory.create_batch(10, groups=['Rep'])
NGReportFactory.create_batch(12)
# Past events
EventFactory.create_batch(5)
# Current and future events
EventFactory.create_batch(10, start=now() + timedelta(days=3),
end=now() + timedelta(days=4))
response = Client().get(reverse('stats_dashboard'))
eq_(response.status_code, 200)
self.assertJinja2TemplateUsed(response, 'stats_dashboard.jinja')
eq_(response.context['reps'], 10)
eq_(response.context['past_events'], 5)
eq_(response.context['future_events'], 10)
eq_(response.context['activities'], 27)
def test_inactive(self):
reps = UserFactory.create_batch(12, groups=['Rep'])
active = timedelta(days=5)
inactive_low = timedelta(weeks=5)
inactive_high = timedelta(weeks=9)
active_reps = reps[:5]
inactive_low_reps = reps[5:9]
inactive_high_reps = reps[9:]
for user in active_reps:
# Activities in future and past 4 weeks
NGReportFactory.create(user=user, report_date=now().date() - active)
NGReportFactory.create(user=user, report_date=now().date() + active)
# Activities in future and past 4+ weeks
NGReportFactory.create(user=user, report_date=now().date() - inactive_low)
NGReportFactory.create(user=user, report_date=now().date() + inactive_low)
# Activities in future and past 8+ weeks
NGReportFactory.create(user=user, report_date=now().date() - inactive_high)
NGReportFactory.create(user=user, report_date=now().date() + inactive_high)
for user in inactive_low_reps:
# Activities in future and past 4+ weeks
NGReportFactory.create(user=user, report_date=now().date() - inactive_low)
NGReportFactory.create(user=user, report_date=now().date() + inactive_low)
# Activities in future and past 8+ weeks
NGReportFactory.create(user=user, report_date=now().date() - inactive_high)
NGReportFactory.create(user=user, report_date=now().date() + inactive_high)
for user in inactive_high_reps:
# Activities in future and past 8+ weeks
NGReportFactory.create(user=user, report_date=now().date() - inactive_high)
NGReportFactory.create(user=user, report_date=now().date() + inactive_high)
response = Client().get(reverse('stats_dashboard'))
eq_(response.status_code, 200)
self.assertJinja2TemplateUsed(response, 'stats_dashboard.jinja')
eq_(response.context['active_users'], 5)
eq_(response.context['inactive_low_users'], 4)
eq_(response.context['inactive_high_users'], 3)
class ListActionItemsTests(RemoTestCase):
"""Tests related to action items listing."""
def test_list(self):
model = ContentType.objects.get_for_model(Bug)
items = ActionItem.objects.filter(content_type=model)
ok_(not items)
whiteboard = '[waiting receipts]'
user = UserFactory.create(groups=['Rep'])
bug = BugFactory.create(whiteboard=whiteboard, assigned_to=user)
item = ActionItem.objects.get(content_type=model, object_id=bug.id)
with self.login(user) as client:
response = client.get(reverse('list_action_items'), user=user)
self.assertJinja2TemplateUsed(response, 'list_action_items.jinja')
eq_(response.context['pageheader'], 'My Action Items')
eq_(response.status_code, 200)
eq_(set(response.context['objects'].object_list), set([item]))
class KPIDashboardTest(RemoTestCase):
"""Test dashboard KPIs."""
def test_base(self):
response = Client().get(reverse('kpi'))
eq_(response.status_code, 200)
self.assertJinja2TemplateUsed(response, 'kpi.jinja')
| bsd-3-clause |
d0ugal/readthedocs.org | readthedocs/vcs_support/utils.py | 17 | 3450 | import logging
import os
import time
import stat
log = logging.getLogger(__name__)
class LockTimeout(Exception):
pass
class Lock(object):
"""
A simple file based lock with timeout
On entering the context, it will try to aquire the lock. If timeout passes,
it just gets the lock anyway.
If we're in the same thread as the one holding this lock, ignore the lock.
"""
def __init__(self, project, version, timeout=5, polling_interval=0.1):
self.name = project.slug
self.fpath = os.path.join(project.doc_path, '%s__rtdlock' % version.slug)
self.timeout = timeout
self.polling_interval = polling_interval
def __enter__(self):
start = time.time()
while os.path.exists(self.fpath):
lock_age = time.time() - os.stat(self.fpath)[stat.ST_MTIME]
if lock_age > self.timeout:
log.info("Lock (%s): Force unlock, old lockfile" %
self.name)
os.remove(self.fpath)
break
log.info("Lock (%s): Locked, waiting.." % self.name)
time.sleep(self.polling_interval)
timesince = time.time() - start
if timesince > self.timeout:
log.info("Lock (%s): Force unlock, timeout reached" %
self.name)
os.remove(self.fpath)
break
log.info(("%s still locked after %.2f seconds; retry for %.2f"
" seconds") % (self.name, timesince, self.timeout))
open(self.fpath, 'w').close()
log.info("Lock (%s): Lock aquired" % self.name)
def __exit__(self, exc, value, tb):
try:
log.info("Lock (%s): Releasing" % self.name)
os.remove(self.fpath)
except:
log.error("Lock (%s): Failed to release, ignoring..." % self.name,
exc_info=True)
class NonBlockingLock(object):
"""
Instead of waiting for a lock, depending on the lock file age, either
acquire it immediately or throw LockTimeout
:param project: Project being built
:param version: Version to build
:param max_lock_age: If file lock is older than this, forcibly acquire.
None means never force
"""
def __init__(self, project, version, max_lock_age=None):
self.fpath = os.path.join(project.doc_path, '%s__rtdlock' % version.slug)
self.max_lock_age = max_lock_age
self.name = project.slug
def __enter__(self):
path_exists = os.path.exists(self.fpath)
if path_exists and self.max_lock_age is not None:
lock_age = time.time() - os.stat(self.fpath)[stat.ST_MTIME]
if lock_age > self.max_lock_age:
log.info("Lock (%s): Force unlock, old lockfile" %
self.name)
os.remove(self.fpath)
else:
raise LockTimeout("Lock (%s): Lock still active" % self.name)
elif path_exists:
raise LockTimeout("Lock (%s): Lock still active" % self.name)
open(self.fpath, 'w').close()
return self
def __exit__(self, exc_type, exc_val, exc_tb):
try:
log.info("Lock (%s): Releasing" % self.name)
os.remove(self.fpath)
except (IOError, OSError):
log.error("Lock (%s): Failed to release, ignoring..." % self.name,
exc_info=True)
| mit |
misdoro/python-ase | ase/calculators/siesta.py | 2 | 31261 | from __future__ import print_function
"""This module defines an ASE interface to SIESTA.
http://www.uam.es/departamentos/ciencias/fismateriac/siesta
"""
import os
from os.path import join, isfile, islink, getmtime
from cmath import exp
import array
import numpy as np
from ase.data import chemical_symbols
from ase.units import Rydberg, fs
from ase.io.siesta import read_rho, read_fdf, read_struct
from ase.io.cube import read_cube_data
class Siesta:
"""Class for doing SIESTA calculations.
The default parameters are very close to those that the SIESTA
Fortran code would use. These are the exceptions::
calc = Siesta(label='siesta', xc='LDA', pulay=5, mix=0.1)
Use the set_fdf method to set extra FDF parameters::
calc.set_fdf('PAO.EnergyShift', 0.01 * Rydberg)
"""
def __init__(self, label='siesta', xc='LDA', kpts=None, nbands=None,
width=None, meshcutoff=None, charge=None,
pulay=5, mix=0.1, maxiter=120,
basis=None, ghosts=[],
write_fdf=True):
"""Construct SIESTA-calculator object.
Parameters
==========
label: str
Prefix to use for filenames (label.fdf, label.txt, ...).
Default is 'siesta'.
xc: str
Exchange-correlation functional. Must be one of LDA, PBE,
revPBE, RPBE.
kpts: list of three int
Monkhost-Pack sampling.
nbands: int
Number of bands.
width: float
Fermi-distribution width in eV.
meshcutoff: float
Cutoff energy in eV for grid.
charge: float
Total charge of the system.
pulay: int
Number of old densities to use for Pulay mixing.
mix: float
Mixing parameter between zero and one for density mixing.
write_fdf: bool
Use write_fdf=False to use your own fdf-file.
Examples
========
Use default values:
>>> h = Atoms('H', calculator=Siesta())
>>> h.center(vacuum=3.0)
>>> e = h.get_potential_energy()
"""
self.name = 'Siesta'
self.label = label#################### != out
self.xc = xc
self.kpts = kpts
self.nbands = nbands
self.width = width
self.meshcutoff = meshcutoff
self.charge = charge
self.pulay = pulay
self.mix = mix
self.maxiter = maxiter
self.basis = basis
self.ghosts = ghosts
self.write_fdf_file = write_fdf
self.converged = False
self.fdf = {}
self.e_fermi = None
def update(self, atoms):
if (not self.converged or
len(self.numbers) != len(atoms) or
(self.numbers != atoms.get_atomic_numbers()).any()):
self.initialize(atoms)
self.calculate(atoms)
elif ((self.positions != atoms.get_positions()).any() or
(self.pbc != atoms.get_pbc()).any() or
(self.cell != atoms.get_cell()).any()):
self.calculate(atoms)
def initialize(self, atoms):
self.numbers = atoms.get_atomic_numbers().copy()
self.species = []
for a, Z in enumerate(self.numbers):
if a in self.ghosts:
Z = -Z
if Z not in self.species:
self.species.append(Z)
if 'SIESTA_PP_PATH' in os.environ:
pppaths = os.environ['SIESTA_PP_PATH'].split(':')
else:
pppaths = []
for Z in self.species:
symbol = chemical_symbols[abs(Z)]
name = symbol + '.vps'
name1 = symbol + '.psf'
found = False
for path in pppaths:
filename = join(path, name)
filename1 = join(path, name1)
if isfile(filename) or islink(filename):
found = True
if path != '.':
if islink(name) or isfile(name):
os.remove(name)
os.symlink(filename, name)
elif isfile(filename1) or islink(filename1):
found = True
if path != '.':
if islink(name1) or isfile(name1):
os.remove(name1)
os.symlink(filename1, name1)
if not found:
raise RuntimeError('No pseudopotential for %s!' % symbol)
self.converged = False
def get_potential_energy(self, atoms, force_consistent=False):
self.update(atoms)
if force_consistent:
return self.efree
else:
# Energy extrapolated to zero Kelvin:
return (self.etotal + self.efree) / 2
def get_forces(self, atoms):
self.update(atoms)
return self.forces.copy()
def get_stress(self, atoms):
self.update(atoms)
return self.stress.copy()
def get_dipole_moment(self, atoms):
"""Returns total dipole moment of the system."""
self.update(atoms)
return self.dipole
def read_dipole(self):
dipolemoment = np.zeros([1, 3])
for line in open(self.label + '.txt', 'r'):
if line.rfind('Electric dipole (Debye)') > -1:
dipolemoment = np.array([float(f) for f in line.split()[5:8]])
#debye to e*Ang (the units of VASP)
dipolemoment = dipolemoment*0.2081943482534
return dipolemoment
def get_pseudo_density(self, spin=None, pad=True):
"""Return pseudo-density array.
If *spin* is not given, then the total density is returned.
Otherwise, the spin up or down density is returned (spin=0 or 1).
"""
filename = self.label + '.RHO'
if not isfile(filename):
raise RuntimeError('Could not find rho-file (make sure to add fdf-option '
'"SaveRho=True" to your calculation)')
rho = read_rho(filename)
if spin is None:
return rho.sum(axis=3)
elif rho.shape[3] != 2:
raise RuntimeError('Explicit spin-value requested. '
'Only total density is available.')
elif spin == 0 or spin == 1:
return rho[:, :, :, spin]
else:
raise RuntimeError('Invalid spin-value requested. '
'Expected 0 or 1, got %s' % spin)
def get_pseudo_wave_function(self, band=0, kpt=0, spin=None):
"""Return pseudo-wave-function array.
The method is limited to the gamma point, and is implemented
as a wrapper to denchar (a tool shipped with siesta);
denchar must be available in the command path.
When retrieving a p_w_f from a non-spin-polarized calculation,
spin must be None (default), and for spin-polarized
calculations, spin must be set to either 0 (up) or 1 (down).
As long as the necessary files are present and named
correctly, old p_w_fs can be read as long as the
calculator label is set. E.g.
>>> c = Siesta(label='name_of_old_calculation')
>>> pwf = c.get_pseudo_wave_function()
The broadcast and pad options are not implemented.
"""
# Not implemented: kpt=0, broadcast=True, pad=True
# kpoint must be Gamma
assert kpt == 0, \
"siesta.get_pseudo_wave_function is unfortunately limited " \
"to the gamma point only. kpt must be 0."
# In denchar, band numbering starts from 1
assert isinstance(band, int) and band >= 0
band = band+1
if spin is None:
spin_name = ""
elif spin == 0:
spin_name = ".UP"
elif spin == 1:
spin_name = ".DOWN"
label = self.label
# If <label>.WF<band>.cube already exist and is newer than <label>.fdf,
# just return it
fn_wf = label+('.WF%i%s.cube'%(band,spin_name))
fn_fdf = label+'.fdf'
if isfile(fn_wf) and isfile(fn_fdf) and (getmtime(fn_wf) > getmtime(fn_fdf)):
x, _ = read_cube_data(fn_wf)
return x
if not isfile(fn_fdf):
raise RuntimeError('Could not find the fdf-file. It is required as '
'part of the input for denchar.')
fdf_mtime = getmtime(fn_fdf)
for suf in ['.WFS', '.PLD', '.DM', '.DIM']:
if not isfile(label+suf):
raise RuntimeError('Could not find file "%s%s" which is required '
'when extracting wave functions '
'(make sure the fdf options "WriteDenchar" is '
'True, and WaveFuncKpoints is [0.0 0.0 0.0]")' %
(label, suf))
if not getmtime(label+suf) > fdf_mtime:
# This should be handled in a better way, e.g. by implementing
# a "calculation_required() and calculate()"
raise RuntimeError('The calculation is not up to date.')
# Simply read the old fdf-file and pick some meta info from there.
# However, strictly it's not always neccesary
fdf = read_fdf(fn_fdf)
if 'latticeconstant' in fdf:
const = float(fdf['latticeconstant'][0])
unit = fdf['latticeconstant'][1]
else:
const = 1.0
unit = 'Ang'
if 'latticevectors' in fdf:
cell = np.array(fdf['latticevectors'], dtype='d')
else:
raise RuntimeError('Failed to find the lattice vectors in the fdf-file.')
if 'spinpolarized' in fdf and \
fdf['spinpolarized'][0].lower() in ['yes', 'true', '.true.', 'T', '']:
if spin is None:
raise RuntimeError('The calculation was spin polarized, pick either '
'spin=0 or 1.')
else:
if not spin is None:
raise RuntimeError('The calculation was not spin polarized, '
'spin argument must be None.')
denc_fdf = open(fn_fdf).readlines()
denc_fdf.append('Denchar.TypeOfRun 3D\n')
denc_fdf.append('Denchar.PlotWaveFunctions T\n')
for dim, dir in zip(cell.transpose(), ['X', 'Y', 'Z']):
# Naive square box limits to denchar
denc_fdf.append('Denchar.Min%s %f %s\n' % (dir, const*dim.min(), unit))
denc_fdf.append('Denchar.Max%s %f %s\n' % (dir, const*dim.max(), unit))
# denchar rewinds stdin and fails if stdin is a pipe
denc_fdf_file = open(label+'.denchar.fdf', 'w')
denc_fdf_file.write(''.join(denc_fdf))
denc_fdf_file.close()
try:
from subprocess import Popen, PIPE
p = Popen('denchar', shell=True, stdin=open(label+'.denchar.fdf'),
stdout=PIPE, stderr=PIPE, close_fds=True)
exitcode = p.wait()
except ImportError:
raise RuntimeError('get_pseudo_wave_function implemented only with subprocess.')
if exitcode == 0:
if not isfile(fn_wf):
raise RuntimeError('Could not find the requested file (%s)'%fn_wf)
x, _ = read_cube_data(fn_wf)
return x
elif exitcode == 127:
raise RuntimeError('No denchar executable found. Make sure it is in the path.')
else:
import sys
print(''.join(p.stderr.readlines()), file=sys.stderr)
raise RuntimeError('Execution of denchar failed!')
def calculate(self, atoms):
self.positions = atoms.get_positions().copy()
self.cell = atoms.get_cell().copy()
self.pbc = atoms.get_pbc().copy()
if self.write_fdf_file:
self.write_fdf(atoms)
siesta = os.environ['SIESTA_SCRIPT']
locals = {'label': self.label}
exec(compile(open(siesta).read(), siesta, 'exec'), {}, locals)
exitcode = locals['exitcode']
if exitcode != 0:
raise RuntimeError(('Siesta exited with exit code: %d. ' +
'Check %s.txt for more information.') %
(exitcode, self.label))
self.dipole = self.read_dipole()
self.read()
atoms_structout = read_struct('%s.STRUCT_OUT' % self.label)
atoms.cell = atoms_structout.cell
atoms.positions = atoms_structout.positions
self.converged = True
def set_fdf(self, key, value):
"""Set FDF parameter."""
self.fdf[key] = value
def write_fdf(self, atoms):
"""Write input parameters to fdf-file."""
fh = open(self.label + '.fdf', 'w')
fdf = {
'SystemLabel': self.label,
'AtomicCoordinatesFormat': 'Ang',
'LatticeConstant': 1.0,
'NumberOfAtoms': len(atoms),
'MeshCutoff': self.meshcutoff,
'NetCharge': self.charge,
'ElectronicTemperature': self.width,
'NumberOfEigenStates': self.nbands,
'DM.UseSaveDM': self.converged,
'PAO.BasisSize': self.basis,
'SolutionMethod': 'diagon',
'DM.NumberPulay': self.pulay,
'DM.MixingWeight': self.mix,
'MaxSCFIterations': self.maxiter
}
if self.xc != 'LDA':
fdf['xc.functional'] = 'GGA'
fdf['xc.authors'] = self.xc
magmoms = atoms.get_initial_magnetic_moments()
if magmoms.any():
fdf['SpinPolarized'] = True
fh.write('%block InitSpin\n')
for n, M in enumerate(magmoms):
if M != 0:
fh.write('%d %.14f\n' % (n + 1, M))
fh.write('%endblock InitSpin\n')
fdf['Number_of_species'] = len(self.species)
fdf.update(self.fdf)
for key, value in fdf.items():
if value is None:
continue
if isinstance(value, list):
fh.write('%%block %s\n' % key)
for line in value:
fh.write(line + '\n')
fh.write('%%endblock %s\n' % key)
else:
unit = keys_with_units.get(fdfify(key))
if unit is None:
fh.write('%s %s\n' % (key, value))
else:
if 'fs**2' in unit:
value /= fs**2
elif 'fs' in unit:
value /= fs
fh.write('%s %f %s\n' % (key, value, unit))
fh.write('%block LatticeVectors\n')
for v in self.cell:
fh.write('%.14f %.14f %.14f\n' % tuple(v))
fh.write('%endblock LatticeVectors\n')
fh.write('%block Chemical_Species_label\n')
for n, Z in enumerate(self.species):
fh.write('%d %s %s\n' % (n + 1, Z, chemical_symbols[abs(Z)]))
fh.write('%endblock Chemical_Species_label\n')
fh.write('%block AtomicCoordinatesAndAtomicSpecies\n')
a = 0
for pos, Z in zip(self.positions, self.numbers):
if a in self.ghosts:
Z = -Z
a += 1
fh.write('%.14f %.14f %.14f' % tuple(pos))
fh.write(' %d\n' % (self.species.index(Z) + 1))
fh.write('%endblock AtomicCoordinatesAndAtomicSpecies\n')
if self.kpts is not None:
fh.write('%block kgrid_Monkhorst_Pack\n')
for i in range(3):
for j in range(3):
if i == j:
fh.write('%d ' % self.kpts[i])
else:
fh.write('0 ')
fh.write('%.1f\n' % (((self.kpts[i] + 1) % 2) * 0.5))
fh.write('%endblock kgrid_Monkhorst_Pack\n')
fh.close()
def read(self):
"""Read results from SIESTA's text-output file."""
text = open(self.label + '.txt', 'r').read().lower()
assert 'error' not in text
lines = iter(text.split('\n'))
# Get the number of grid points used:
for line in lines:
if line.startswith('initmesh: mesh ='):
self.grid = [int(word) for word in line.split()[3:8:2]]
break
# Stress (fixed so it's compatible with a MD run from siesta):
for line in lines:
if line.startswith('siesta: stress tensor '):
stress = np.empty((3, 3))
for i in range(3):
tmp = lines.next().split()
if len(tmp) == 4:
stress[i] = [float(word) for word in tmp[1:]]
else:
stress[i] = [float(word) for word in tmp]
self.stress = np.array(
[stress[0, 0], stress[1, 1], stress[2, 2],
stress[1, 2], stress[0, 2], stress[0, 1]])
break
else:
raise RuntimeError
text = open(self.label + '.txt', 'r').read().lower()
lines = iter(text.split('\n'))
# Energy (again a fix to make it compatible with a MD run from siesta):
counter = 0
for line in lines:
if line.startswith('siesta: etot =') and counter == 0:
counter += 1
elif line.startswith('siesta: etot ='):
self.etotal = float(line.split()[-1])
self.efree = float(lines.next().split()[-1])
break
else:
raise RuntimeError
# Forces (changed so forces smaller than -999eV/A can be fetched):
lines = open(self.label + '.FA', 'r').readlines()
assert int(lines[0]) == len(self.numbers)
assert len(lines) == len(self.numbers) + 1
lines = lines[1:]
self.forces = np.zeros((len(lines), 3))
for i in range(len(lines)):
self.forces[i, 0] = float(lines[i][6:18].strip())
self.forces[i, 1] = float(lines[i][18:30].strip())
self.forces[i, 2] = float(lines[i][30:42].strip())
def read_eig(self):
if self.e_fermi is not None:
return
assert os.access(self.label + '.EIG', os.F_OK)
assert os.access(self.label + '.KP', os.F_OK)
# Read k point weights
text = open(self.label + '.KP', 'r').read()
lines = text.split('\n')
n_kpts = int(lines[0].strip())
self.weights = np.zeros((n_kpts,))
for i in range(n_kpts):
l = lines[i + 1].split()
self.weights[i] = float(l[4])
# Read eigenvalues and fermi-level
text = open(self.label+'.EIG','r').read()
lines = text.split('\n')
self.e_fermi = float(lines[0].split()[0])
tmp = lines[1].split()
self.n_bands = int(tmp[0])
n_spin_bands = int(tmp[1])
self.spin_pol = n_spin_bands == 2
lines = lines[2:-1]
lines_per_kpt = (self.n_bands * n_spin_bands / 10 +
int((self.n_bands * n_spin_bands) % 10 != 0))
self.eig = dict()
for i in range(len(self.weights)):
tmp = lines[i * lines_per_kpt:(i + 1) * lines_per_kpt]
v = [float(v) for v in tmp[0].split()[1:]]
for l in tmp[1:]:
v.extend([float(t) for t in l.split()])
if self.spin_pol:
self.eig[(i, 0)] = np.array(v[0:self.n_bands])
self.eig[(i, 1)] = np.array(v[self.n_bands:])
else:
self.eig[(i, 0)] = np.array(v)
def get_k_point_weights(self):
self.read_eig()
return self.weights
def get_fermi_level(self):
self.read_eig()
return self.e_fermi
def get_eigenvalues(self, kpt=0, spin=0):
self.read_eig()
return self.eig[(kpt, spin)]
def get_number_of_spins(self):
self.read_eig()
if self.spin_pol:
return 2
else:
return 1
def read_hs(self, filename, is_gamma_only=False, magnus=False):
"""Read the Hamiltonian and overlap matrix from a Siesta
calculation in sparse format.
Parameters
==========
filename: str
The filename should be on the form jobname.HS
is_gamma_only: {False, True), optional
Is it a gamma point calculation?
magnus: bool
The fileformat was changed by Magnus in Siesta at some
point around version 2.xxx.
Use mangus=False, to use the old file format.
Note
====
Data read in is put in self._dat.
Examples
========
>>> calc = Siesta()
>>> calc.read_hs('jobname.HS')
>>> print calc._dat.fermi_level
>>> print 'Number of orbitals: %i' % calc._dat.nuotot
"""
assert not magnus, 'Not implemented; changes by Magnus to file io'
assert not is_gamma_only, 'Not implemented. Only works for k-points.'
class Dummy:
pass
self._dat = dat = Dummy()
# Try to read supercell and atom data from a jobname.XV file
filename_xv = filename[:-2] + 'XV'
#assert isfile(filename_xv), 'Missing jobname.XV file'
if isfile(filename_xv):
print('Reading supercell and atom data from ' + filename_xv)
fd = open(filename_xv, 'r')
dat.cell = np.zeros((3, 3)) # Supercell
for a_vec in dat.cell:
a_vec[:] = np.array(fd.readline().split()[:3], float)
dat.rcell = 2 * np.pi * np.linalg.inv(dat.cell.T)
dat.natoms = int(fd.readline().split()[0])
dat.symbols = []
dat.pos_ac = np.zeros((dat.natoms, 3))
for a in range(dat.natoms):
line = fd.readline().split()
dat.symbols.append(chemical_symbols[int(line[1])])
dat.pos_ac[a, :] = [float(line[i]) for i in range(2, 2 + 3)]
# Read in the jobname.HS file
fileobj = file(filename, 'rb')
fileobj.seek(0)
dat.fermi_level = float(open(filename[:-3] + '.EIG', 'r').readline())
dat.is_gammay_only = is_gamma_only
dat.nuotot, dat.ns, dat.mnh = getrecord(fileobj, 'l')
nuotot, ns, mnh = dat.nuotot, dat.ns, dat.mnh
print('Number of orbitals found: %i' % nuotot)
dat.numh = numh = np.array([getrecord(fileobj, 'l')
for i in range(nuotot)], 'l')
dat.maxval = max(numh)
dat.listhptr = listhptr = np.zeros(nuotot, 'l')
listhptr[0] = 0
for oi in range(1, nuotot):
listhptr[oi] = listhptr[oi - 1] + numh[oi - 1]
dat.listh = listh = np.zeros(mnh, 'l')
print('Reading sparse info')
for oi in range(nuotot):
for mi in range(numh[oi]):
listh[listhptr[oi] + mi] = getrecord(fileobj, 'l')
dat.nuotot_sc = max(listh)
dat.h_sparse = h_sparse = np.zeros((mnh, ns), float)
dat.s_sparse = s_sparse = np.zeros(mnh, float)
print('Reading H')
for si in range(ns):
for oi in range(nuotot):
for mi in range(numh[oi]):
h_sparse[listhptr[oi] + mi, si] = getrecord(fileobj, 'd')
print('Reading S')
for oi in range(nuotot):
for mi in range(numh[oi]):
s_sparse[listhptr[oi] + mi] = getrecord(fileobj, 'd')
dat.qtot, dat.temperature = getrecord(fileobj, 'd')
if not is_gamma_only:
print('Reading X')
dat.xij_sparse = xij_sparse = np.zeros([3, mnh], float)
for oi in range(nuotot):
for mi in range(numh[oi]):
xij_sparse[:, listhptr[oi] + mi] = getrecord(fileobj, 'd')
fileobj.close()
def get_hs(self, kpt=(0, 0, 0), spin=0, remove_pbc=None, kpt_scaled=True):
"""Hamiltonian and overlap matrices for an arbitrary k-point.
The default values corresponds to the Gamma point for
spin 0 and periodic boundary conditions.
Parameters
==========
kpt : {(0, 0, 0), (3,) array_like}, optional
k-point in scaled or absolute coordinates.
For the latter the units should be Bohr^-1.
spin : {0, 1}, optional
Spin index
remove_pbc : {None, ({'x', 'y', 'z'}, basis)}, optional
Use remove_pbc to truncate h and s along a cartesian
axis.
basis: {str, dict}
The basis specification as either a string or a dictionary.
kpt_scaled : {True, bool}, optional
Use kpt_scaled=False if `kpt` is in absolute units (Bohr^-1).
Note
====
read_hs should be called before get_hs gets called.
Examples
========
>>> calc = Siesta()
>>> calc.read_hs('jobname.HS')
>>> h, s = calc.get_hs((0.0, 0.375, 0.375))
>>> h -= s * calc._dat.fermi_level # fermi level is now at 0.0
>>> basis = 'szp'
>>> h, s = calc.get_hs((0.0, 0.375, 0.375), remove_pbc=('x', basis))
>>> basis = {'Au:'sz}', 'C':'dzp', None:'szp'}
>>> h, s = calc.get_hs((0.0, 0.375, 0.375), remove_pbc=('x', basis))
"""
if not hasattr(self, '_dat'):# XXX Crude check if data is avail.
print('Please read in data first by calling the method read_hs.')
return None, None
dot = np.dot
dat = self._dat
kpt_c = np.array(kpt, float)
if kpt_scaled:
kpt_c = dot(kpt_c, dat.rcell)
h_MM = np.zeros((dat.nuotot, dat.nuotot), complex)
s_MM = np.zeros((dat.nuotot, dat.nuotot), complex)
h_sparse, s_sparse = dat.h_sparse, dat.s_sparse
x_sparse = dat.xij_sparse
numh, listhptr, listh = dat.numh, dat.listhptr, dat.listh
indxuo = np.mod(np.arange(dat.nuotot_sc), dat.nuotot)
for iuo in range(dat.nuotot):
for j in range(numh[iuo]):
ind = listhptr[iuo] + j
jo = listh[ind] - 1
juo = indxuo[jo]
kx = dot(kpt_c, x_sparse[:, ind])
phasef = exp(1.0j * kx)
h_MM[iuo, juo] += phasef * h_sparse[ind, spin]
s_MM[iuo, juo] += phasef * s_sparse[ind]
if remove_pbc is not None:
direction, basis = remove_pbc
centers_ic = get_bf_centers(dat.symbols, dat.pos_ac, basis)
d = 'xyz'.index(direction)
cutoff = dat.cell[d, d] * 0.5
truncate_along_axis(h_MM, s_MM, direction, centers_ic, cutoff)
h_MM *= complex(Rydberg)
return h_MM, s_MM
def getrecord(fileobj, dtype):
"""Used to read in binary files.
"""
typetosize = {'l':4, 'f':4, 'd':8}# XXX np.int, np.float32, np.float64
assert dtype in typetosize # XXX
size = typetosize[dtype]
record = array.array('l')
trunk = array.array(dtype)
record.fromfile(fileobj, 1)
nofelements = int(record[-1]) / size
trunk.fromfile(fileobj, nofelements)
record.fromfile(fileobj, 1)
data = np.array(trunk, dtype=dtype)
if len(data)==1:
data = data[0]
return data
def truncate_along_axis(h, s, direction, centers_ic, cutoff):
"""Truncate h and s such along a cartesian axis.
Parameters:
h: (N, N) ndarray
Hamiltonian matrix.
s: (N, N) ndarray
Overlap matrix.
direction: {'x', 'y', 'z'}
Truncate allong a cartesian axis.
centers_ic: (N, 3) ndarray
Centers of the basis functions.
cutoff: float
The (direction-axis projected) cutoff distance.
"""
dtype = h.dtype
ni = len(centers_ic)
d = 'xyz'.index(direction)
pos_i = centers_ic[:, d]
for i in range(ni):
dpos_i = abs(pos_i - pos_i[i])
mask_i = (dpos_i < cutoff).astype(dtype)
h[i, :] *= mask_i
h[:, i] *= mask_i
s[i, :] *= mask_i
s[:, i] *= mask_i
def get_nao(symbol, basis):
"""Number of basis functions.
Parameters
==========
symbol: str
The chemical symbol.
basis: str
Basis function type.
"""
ls = valence_config[symbol]
nao = 0
zeta = {'s':1, 'd':2, 't':3, 'q':4}
nzeta = zeta[basis[0]]
is_pol = 'p' in basis
for l in ls:
nao += (2 * l + 1) * nzeta
if is_pol:
l_pol = None
l = -1
while l_pol is None:
l += 1
if not l in ls:
l_pol = l
nao += 2 * l_pol + 1
return nao
def get_bf_centers(symbols, positions, basis):
"""Centers of basis functions.
Parameters
==========
symbols: str, (N, ) array_like
chemical symbol for each atom.
positions: float, (N, 3) array_like
Positions of the atoms.
basis: {str, dict}
Basis set specification as either a string or a dictionary
Examples
========
>>> symbols = ['O', 'H']
>>> positions = [(0, 0, 0), (0, 0, 1)]
>>> basis = 'sz'
>>> print get_bf_centers(symbols, positions, basis)
[[0 0 0]
[0 0 0]
[0 0 0]
[0 0 0]
[0 0 1]]
>>> basis = {'H':'dz', None:'sz'}
>>> print get_bf_centers(symbols, positions, basis)
[[0 0 0]
[0 0 0]
[0 0 0]
[0 0 0]
[0 0 1]
[0 0 1]]
"""
centers_ic = []
dict_basis = False
if isinstance(basis, dict):
dict_basis = True
for symbol, pos in zip(symbols, positions):
if dict_basis:
if symbol not in basis:
bas = basis[None]
else:
bas = basis[symbol]
else:
bas = basis
for i in range(get_nao(symbol, bas)):
centers_ic.append(pos)
return np.asarray(centers_ic)
def fdfify(key):
return key.lower().replace('_', '').replace('.', '').replace('-', '')
valence_config = {
'H': (0,),
'C': (0, 1),
'N': (0, 1),
'O': (0, 1),
'S': (0, 1),
'Li': (0,),
'Na': (0,),
'Ni': (0, 2),
'Cu': (0, 2),
'Pd': (0, 2),
'Ag': (0, 2),
'Pt': (0, 2),
'Au': (0, 2)}
keys_with_units = {
'paoenergyshift': 'eV',
'zmunitslength': 'Bohr',
'zmunitsangle': 'rad',
'zmforcetollength': 'eV/Ang',
'zmforcetolangle': 'eV/rad',
'zmmaxdispllength': 'Ang',
'zmmaxdisplangle': 'rad',
'meshcutoff': 'eV',
'dmenergytolerance': 'eV',
'electronictemperature': 'eV',
'oneta': 'eV',
'onetaalpha': 'eV',
'onetabeta': 'eV',
'onrclwf': 'Ang',
'onchemicalpotentialrc': 'Ang',
'onchemicalpotentialtemperature': 'eV',
'mdmaxcgdispl': 'Ang',
'mdmaxforcetol': 'eV/Ang',
'mdmaxstresstol': 'eV/Ang**3',
'mdlengthtimestep': 'fs',
'mdinitialtemperature': 'eV',
'mdtargettemperature': 'eV',
'mdtargetpressure': 'eV/Ang**3',
'mdnosemass': 'eV*fs**2',
'mdparrinellorahmanmass': 'eV*fs**2',
'mdtaurelax': 'fs',
'mdbulkmodulus': 'eV/Ang**3',
'mdfcdispl': 'Ang',
'warningminimumatomicdistance': 'Ang',
'rcspatial': 'Ang',
'kgridcutoff': 'Ang',
'latticeconstant': 'Ang'}
| gpl-2.0 |
quantopian/zipline | zipline/examples/buy_and_hold.py | 1 | 1568 | #!/usr/bin/env python
#
# Copyright 2015 Quantopian, Inc.
#
# Licensed 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.
from zipline.api import order, symbol
from zipline.finance import commission, slippage
stocks = ['AAPL', 'MSFT']
def initialize(context):
context.has_ordered = False
context.stocks = stocks
# Explicitly set the commission/slippage to the "old" value until we can
# rebuild example data.
# github.com/quantopian/zipline/blob/master/tests/resources/
# rebuild_example_data#L105
context.set_commission(commission.PerShare(cost=.0075, min_trade_cost=1.0))
context.set_slippage(slippage.VolumeShareSlippage())
def handle_data(context, data):
if not context.has_ordered:
for stock in context.stocks:
order(symbol(stock), 100)
context.has_ordered = True
def _test_args():
"""Extra arguments to use when zipline's automated tests run this example.
"""
import pandas as pd
return {
'start': pd.Timestamp('2008', tz='utc'),
'end': pd.Timestamp('2013', tz='utc'),
}
| apache-2.0 |
PythonProgramming/pygame-tutorial-series | part7.py | 2 | 2665 | import pygame
import time
import random
pygame.init()
display_width = 800
display_height = 600
black = (0,0,0)
white = (255,255,255)
red = (255,0,0)
car_width = 73
gameDisplay = pygame.display.set_mode((display_width,display_height))
pygame.display.set_caption('A bit Racey')
clock = pygame.time.Clock()
carImg = pygame.image.load('racecar.png')
def things(thingx, thingy, thingw, thingh, color):
pygame.draw.rect(gameDisplay, color, [thingx, thingy, thingw, thingh])
def car(x,y):
gameDisplay.blit(carImg,(x,y))
def text_objects(text, font):
textSurface = font.render(text, True, black)
return textSurface, textSurface.get_rect()
def message_display(text):
largeText = pygame.font.Font('freesansbold.ttf',115)
TextSurf, TextRect = text_objects(text, largeText)
TextRect.center = ((display_width/2),(display_height/2))
gameDisplay.blit(TextSurf, TextRect)
pygame.display.update()
time.sleep(2)
game_loop()
def crash():
message_display('You Crashed')
def game_loop():
x = (display_width * 0.45)
y = (display_height * 0.8)
x_change = 0
thing_startx = random.randrange(0, display_width)
thing_starty = -600
thing_speed = 7
thing_width = 100
thing_height = 100
gameExit = False
while not gameExit:
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
quit()
if event.type == pygame.KEYDOWN:
if event.key == pygame.K_LEFT:
x_change = -5
if event.key == pygame.K_RIGHT:
x_change = 5
if event.type == pygame.KEYUP:
if event.key == pygame.K_LEFT or event.key == pygame.K_RIGHT:
x_change = 0
x += x_change
gameDisplay.fill(white)
# things(thingx, thingy, thingw, thingh, color)
things(thing_startx, thing_starty, thing_width, thing_height, black)
thing_starty += thing_speed
car(x,y)
if x > display_width - car_width or x < 0:
crash()
if thing_starty > display_height:
thing_starty = 0 - thing_height
thing_startx = random.randrange(0,display_width)
if y < thing_starty+thing_height:
print('y crossover')
if x > thing_startx and x < thing_startx + thing_width or x+car_width > thing_startx and x + car_width < thing_startx+thing_width:
print('x crossover')
crash()
pygame.display.update()
clock.tick(60)
game_loop()
pygame.quit()
quit()
| mit |
apixandru/intellij-community | python/lib/Lib/decimal.py | 74 | 183326 | # Copyright (c) 2004 Python Software Foundation.
# All rights reserved.
# Written by Eric Price <eprice at tjhsst.edu>
# and Facundo Batista <facundo at taniquetil.com.ar>
# and Raymond Hettinger <python at rcn.com>
# and Aahz <aahz at pobox.com>
# and Tim Peters
# This module is currently Py2.3 compatible and should be kept that way
# unless a major compelling advantage arises. IOW, 2.3 compatibility is
# strongly preferred, but not guaranteed.
# Also, this module should be kept in sync with the latest updates of
# the IBM specification as it evolves. Those updates will be treated
# as bug fixes (deviation from the spec is a compatibility, usability
# bug) and will be backported. At this point the spec is stabilizing
# and the updates are becoming fewer, smaller, and less significant.
"""
This is a Py2.3 implementation of decimal floating point arithmetic based on
the General Decimal Arithmetic Specification:
www2.hursley.ibm.com/decimal/decarith.html
and IEEE standard 854-1987:
www.cs.berkeley.edu/~ejr/projects/754/private/drafts/854-1987/dir.html
Decimal floating point has finite precision with arbitrarily large bounds.
The purpose of this module is to support arithmetic using familiar
"schoolhouse" rules and to avoid some of the tricky representation
issues associated with binary floating point. The package is especially
useful for financial applications or for contexts where users have
expectations that are at odds with binary floating point (for instance,
in binary floating point, 1.00 % 0.1 gives 0.09999999999999995 instead
of the expected Decimal("0.00") returned by decimal floating point).
Here are some examples of using the decimal module:
>>> from decimal import *
>>> setcontext(ExtendedContext)
>>> Decimal(0)
Decimal("0")
>>> Decimal("1")
Decimal("1")
>>> Decimal("-.0123")
Decimal("-0.0123")
>>> Decimal(123456)
Decimal("123456")
>>> Decimal("123.45e12345678901234567890")
Decimal("1.2345E+12345678901234567892")
>>> Decimal("1.33") + Decimal("1.27")
Decimal("2.60")
>>> Decimal("12.34") + Decimal("3.87") - Decimal("18.41")
Decimal("-2.20")
>>> dig = Decimal(1)
>>> print dig / Decimal(3)
0.333333333
>>> getcontext().prec = 18
>>> print dig / Decimal(3)
0.333333333333333333
>>> print dig.sqrt()
1
>>> print Decimal(3).sqrt()
1.73205080756887729
>>> print Decimal(3) ** 123
4.85192780976896427E+58
>>> inf = Decimal(1) / Decimal(0)
>>> print inf
Infinity
>>> neginf = Decimal(-1) / Decimal(0)
>>> print neginf
-Infinity
>>> print neginf + inf
NaN
>>> print neginf * inf
-Infinity
>>> print dig / 0
Infinity
>>> getcontext().traps[DivisionByZero] = 1
>>> print dig / 0
Traceback (most recent call last):
...
...
...
DivisionByZero: x / 0
>>> c = Context()
>>> c.traps[InvalidOperation] = 0
>>> print c.flags[InvalidOperation]
0
>>> c.divide(Decimal(0), Decimal(0))
Decimal("NaN")
>>> c.traps[InvalidOperation] = 1
>>> print c.flags[InvalidOperation]
1
>>> c.flags[InvalidOperation] = 0
>>> print c.flags[InvalidOperation]
0
>>> print c.divide(Decimal(0), Decimal(0))
Traceback (most recent call last):
...
...
...
InvalidOperation: 0 / 0
>>> print c.flags[InvalidOperation]
1
>>> c.flags[InvalidOperation] = 0
>>> c.traps[InvalidOperation] = 0
>>> print c.divide(Decimal(0), Decimal(0))
NaN
>>> print c.flags[InvalidOperation]
1
>>>
"""
__all__ = [
# Two major classes
'Decimal', 'Context',
# Contexts
'DefaultContext', 'BasicContext', 'ExtendedContext',
# Exceptions
'DecimalException', 'Clamped', 'InvalidOperation', 'DivisionByZero',
'Inexact', 'Rounded', 'Subnormal', 'Overflow', 'Underflow',
# Constants for use in setting up contexts
'ROUND_DOWN', 'ROUND_HALF_UP', 'ROUND_HALF_EVEN', 'ROUND_CEILING',
'ROUND_FLOOR', 'ROUND_UP', 'ROUND_HALF_DOWN', 'ROUND_05UP',
# Functions for manipulating contexts
'setcontext', 'getcontext', 'localcontext'
]
import copy as _copy
# Rounding
ROUND_DOWN = 'ROUND_DOWN'
ROUND_HALF_UP = 'ROUND_HALF_UP'
ROUND_HALF_EVEN = 'ROUND_HALF_EVEN'
ROUND_CEILING = 'ROUND_CEILING'
ROUND_FLOOR = 'ROUND_FLOOR'
ROUND_UP = 'ROUND_UP'
ROUND_HALF_DOWN = 'ROUND_HALF_DOWN'
ROUND_05UP = 'ROUND_05UP'
# Errors
class DecimalException(ArithmeticError):
"""Base exception class.
Used exceptions derive from this.
If an exception derives from another exception besides this (such as
Underflow (Inexact, Rounded, Subnormal) that indicates that it is only
called if the others are present. This isn't actually used for
anything, though.
handle -- Called when context._raise_error is called and the
trap_enabler is set. First argument is self, second is the
context. More arguments can be given, those being after
the explanation in _raise_error (For example,
context._raise_error(NewError, '(-x)!', self._sign) would
call NewError().handle(context, self._sign).)
To define a new exception, it should be sufficient to have it derive
from DecimalException.
"""
def handle(self, context, *args):
pass
class Clamped(DecimalException):
"""Exponent of a 0 changed to fit bounds.
This occurs and signals clamped if the exponent of a result has been
altered in order to fit the constraints of a specific concrete
representation. This may occur when the exponent of a zero result would
be outside the bounds of a representation, or when a large normal
number would have an encoded exponent that cannot be represented. In
this latter case, the exponent is reduced to fit and the corresponding
number of zero digits are appended to the coefficient ("fold-down").
"""
class InvalidOperation(DecimalException):
"""An invalid operation was performed.
Various bad things cause this:
Something creates a signaling NaN
-INF + INF
0 * (+-)INF
(+-)INF / (+-)INF
x % 0
(+-)INF % x
x._rescale( non-integer )
sqrt(-x) , x > 0
0 ** 0
x ** (non-integer)
x ** (+-)INF
An operand is invalid
The result of the operation after these is a quiet positive NaN,
except when the cause is a signaling NaN, in which case the result is
also a quiet NaN, but with the original sign, and an optional
diagnostic information.
"""
def handle(self, context, *args):
if args:
ans = _dec_from_triple(args[0]._sign, args[0]._int, 'n', True)
return ans._fix_nan(context)
return NaN
class ConversionSyntax(InvalidOperation):
"""Trying to convert badly formed string.
This occurs and signals invalid-operation if an string is being
converted to a number and it does not conform to the numeric string
syntax. The result is [0,qNaN].
"""
def handle(self, context, *args):
return NaN
class DivisionByZero(DecimalException, ZeroDivisionError):
"""Division by 0.
This occurs and signals division-by-zero if division of a finite number
by zero was attempted (during a divide-integer or divide operation, or a
power operation with negative right-hand operand), and the dividend was
not zero.
The result of the operation is [sign,inf], where sign is the exclusive
or of the signs of the operands for divide, or is 1 for an odd power of
-0, for power.
"""
def handle(self, context, sign, *args):
return Infsign[sign]
class DivisionImpossible(InvalidOperation):
"""Cannot perform the division adequately.
This occurs and signals invalid-operation if the integer result of a
divide-integer or remainder operation had too many digits (would be
longer than precision). The result is [0,qNaN].
"""
def handle(self, context, *args):
return NaN
class DivisionUndefined(InvalidOperation, ZeroDivisionError):
"""Undefined result of division.
This occurs and signals invalid-operation if division by zero was
attempted (during a divide-integer, divide, or remainder operation), and
the dividend is also zero. The result is [0,qNaN].
"""
def handle(self, context, *args):
return NaN
class Inexact(DecimalException):
"""Had to round, losing information.
This occurs and signals inexact whenever the result of an operation is
not exact (that is, it needed to be rounded and any discarded digits
were non-zero), or if an overflow or underflow condition occurs. The
result in all cases is unchanged.
The inexact signal may be tested (or trapped) to determine if a given
operation (or sequence of operations) was inexact.
"""
class InvalidContext(InvalidOperation):
"""Invalid context. Unknown rounding, for example.
This occurs and signals invalid-operation if an invalid context was
detected during an operation. This can occur if contexts are not checked
on creation and either the precision exceeds the capability of the
underlying concrete representation or an unknown or unsupported rounding
was specified. These aspects of the context need only be checked when
the values are required to be used. The result is [0,qNaN].
"""
def handle(self, context, *args):
return NaN
class Rounded(DecimalException):
"""Number got rounded (not necessarily changed during rounding).
This occurs and signals rounded whenever the result of an operation is
rounded (that is, some zero or non-zero digits were discarded from the
coefficient), or if an overflow or underflow condition occurs. The
result in all cases is unchanged.
The rounded signal may be tested (or trapped) to determine if a given
operation (or sequence of operations) caused a loss of precision.
"""
class Subnormal(DecimalException):
"""Exponent < Emin before rounding.
This occurs and signals subnormal whenever the result of a conversion or
operation is subnormal (that is, its adjusted exponent is less than
Emin, before any rounding). The result in all cases is unchanged.
The subnormal signal may be tested (or trapped) to determine if a given
or operation (or sequence of operations) yielded a subnormal result.
"""
class Overflow(Inexact, Rounded):
"""Numerical overflow.
This occurs and signals overflow if the adjusted exponent of a result
(from a conversion or from an operation that is not an attempt to divide
by zero), after rounding, would be greater than the largest value that
can be handled by the implementation (the value Emax).
The result depends on the rounding mode:
For round-half-up and round-half-even (and for round-half-down and
round-up, if implemented), the result of the operation is [sign,inf],
where sign is the sign of the intermediate result. For round-down, the
result is the largest finite number that can be represented in the
current precision, with the sign of the intermediate result. For
round-ceiling, the result is the same as for round-down if the sign of
the intermediate result is 1, or is [0,inf] otherwise. For round-floor,
the result is the same as for round-down if the sign of the intermediate
result is 0, or is [1,inf] otherwise. In all cases, Inexact and Rounded
will also be raised.
"""
def handle(self, context, sign, *args):
if context.rounding in (ROUND_HALF_UP, ROUND_HALF_EVEN,
ROUND_HALF_DOWN, ROUND_UP):
return Infsign[sign]
if sign == 0:
if context.rounding == ROUND_CEILING:
return Infsign[sign]
return _dec_from_triple(sign, '9'*context.prec,
context.Emax-context.prec+1)
if sign == 1:
if context.rounding == ROUND_FLOOR:
return Infsign[sign]
return _dec_from_triple(sign, '9'*context.prec,
context.Emax-context.prec+1)
class Underflow(Inexact, Rounded, Subnormal):
"""Numerical underflow with result rounded to 0.
This occurs and signals underflow if a result is inexact and the
adjusted exponent of the result would be smaller (more negative) than
the smallest value that can be handled by the implementation (the value
Emin). That is, the result is both inexact and subnormal.
The result after an underflow will be a subnormal number rounded, if
necessary, so that its exponent is not less than Etiny. This may result
in 0 with the sign of the intermediate result and an exponent of Etiny.
In all cases, Inexact, Rounded, and Subnormal will also be raised.
"""
# List of public traps and flags
_signals = [Clamped, DivisionByZero, Inexact, Overflow, Rounded,
Underflow, InvalidOperation, Subnormal]
# Map conditions (per the spec) to signals
_condition_map = {ConversionSyntax:InvalidOperation,
DivisionImpossible:InvalidOperation,
DivisionUndefined:InvalidOperation,
InvalidContext:InvalidOperation}
##### Context Functions ##################################################
# The getcontext() and setcontext() function manage access to a thread-local
# current context. Py2.4 offers direct support for thread locals. If that
# is not available, use threading.currentThread() which is slower but will
# work for older Pythons. If threads are not part of the build, create a
# mock threading object with threading.local() returning the module namespace.
try:
import threading
except ImportError:
# Python was compiled without threads; create a mock object instead
import sys
class MockThreading(object):
def local(self, sys=sys):
return sys.modules[__name__]
threading = MockThreading()
del sys, MockThreading
try:
threading.local
except AttributeError:
# To fix reloading, force it to create a new context
# Old contexts have different exceptions in their dicts, making problems.
if hasattr(threading.currentThread(), '__decimal_context__'):
del threading.currentThread().__decimal_context__
def setcontext(context):
"""Set this thread's context to context."""
if context in (DefaultContext, BasicContext, ExtendedContext):
context = context.copy()
context.clear_flags()
threading.currentThread().__decimal_context__ = context
def getcontext():
"""Returns this thread's context.
If this thread does not yet have a context, returns
a new context and sets this thread's context.
New contexts are copies of DefaultContext.
"""
try:
return threading.currentThread().__decimal_context__
except AttributeError:
context = Context()
threading.currentThread().__decimal_context__ = context
return context
else:
local = threading.local()
if hasattr(local, '__decimal_context__'):
del local.__decimal_context__
def getcontext(_local=local):
"""Returns this thread's context.
If this thread does not yet have a context, returns
a new context and sets this thread's context.
New contexts are copies of DefaultContext.
"""
try:
return _local.__decimal_context__
except AttributeError:
context = Context()
_local.__decimal_context__ = context
return context
def setcontext(context, _local=local):
"""Set this thread's context to context."""
if context in (DefaultContext, BasicContext, ExtendedContext):
context = context.copy()
context.clear_flags()
_local.__decimal_context__ = context
del threading, local # Don't contaminate the namespace
def localcontext(ctx=None):
"""Return a context manager for a copy of the supplied context
Uses a copy of the current context if no context is specified
The returned context manager creates a local decimal context
in a with statement:
def sin(x):
with localcontext() as ctx:
ctx.prec += 2
# Rest of sin calculation algorithm
# uses a precision 2 greater than normal
return +s # Convert result to normal precision
def sin(x):
with localcontext(ExtendedContext):
# Rest of sin calculation algorithm
# uses the Extended Context from the
# General Decimal Arithmetic Specification
return +s # Convert result to normal context
"""
# The string below can't be included in the docstring until Python 2.6
# as the doctest module doesn't understand __future__ statements
"""
>>> from __future__ import with_statement
>>> print getcontext().prec
28
>>> with localcontext():
... ctx = getcontext()
... ctx.prec += 2
... print ctx.prec
...
30
>>> with localcontext(ExtendedContext):
... print getcontext().prec
...
9
>>> print getcontext().prec
28
"""
if ctx is None: ctx = getcontext()
return _ContextManager(ctx)
##### Decimal class #######################################################
class Decimal(object):
"""Floating point class for decimal arithmetic."""
__slots__ = ('_exp','_int','_sign', '_is_special')
# Generally, the value of the Decimal instance is given by
# (-1)**_sign * _int * 10**_exp
# Special values are signified by _is_special == True
# We're immutable, so use __new__ not __init__
def __new__(cls, value="0", context=None):
"""Create a decimal point instance.
>>> Decimal('3.14') # string input
Decimal("3.14")
>>> Decimal((0, (3, 1, 4), -2)) # tuple (sign, digit_tuple, exponent)
Decimal("3.14")
>>> Decimal(314) # int or long
Decimal("314")
>>> Decimal(Decimal(314)) # another decimal instance
Decimal("314")
"""
# Note that the coefficient, self._int, is actually stored as
# a string rather than as a tuple of digits. This speeds up
# the "digits to integer" and "integer to digits" conversions
# that are used in almost every arithmetic operation on
# Decimals. This is an internal detail: the as_tuple function
# and the Decimal constructor still deal with tuples of
# digits.
self = object.__new__(cls)
# From a string
# REs insist on real strings, so we can too.
if isinstance(value, basestring):
m = _parser(value)
if m is None:
if context is None:
context = getcontext()
return context._raise_error(ConversionSyntax,
"Invalid literal for Decimal: %r" % value)
if m.group('sign') == "-":
self._sign = 1
else:
self._sign = 0
intpart = m.group('int')
if intpart is not None:
# finite number
fracpart = m.group('frac')
exp = int(m.group('exp') or '0')
if fracpart is not None:
self._int = str((intpart+fracpart).lstrip('0') or '0')
self._exp = exp - len(fracpart)
else:
self._int = str(intpart.lstrip('0') or '0')
self._exp = exp
self._is_special = False
else:
diag = m.group('diag')
if diag is not None:
# NaN
self._int = str(diag.lstrip('0'))
if m.group('signal'):
self._exp = 'N'
else:
self._exp = 'n'
else:
# infinity
self._int = '0'
self._exp = 'F'
self._is_special = True
return self
# From an integer
if isinstance(value, (int,long)):
if value >= 0:
self._sign = 0
else:
self._sign = 1
self._exp = 0
self._int = str(abs(value))
self._is_special = False
return self
# From another decimal
if isinstance(value, Decimal):
self._exp = value._exp
self._sign = value._sign
self._int = value._int
self._is_special = value._is_special
return self
# From an internal working value
if isinstance(value, _WorkRep):
self._sign = value.sign
self._int = str(value.int)
self._exp = int(value.exp)
self._is_special = False
return self
# tuple/list conversion (possibly from as_tuple())
if isinstance(value, (list,tuple)):
if len(value) != 3:
raise ValueError('Invalid tuple size in creation of Decimal '
'from list or tuple. The list or tuple '
'should have exactly three elements.')
# process sign. The isinstance test rejects floats
if not (isinstance(value[0], (int, long)) and value[0] in (0,1)):
raise ValueError("Invalid sign. The first value in the tuple "
"should be an integer; either 0 for a "
"positive number or 1 for a negative number.")
self._sign = value[0]
if value[2] == 'F':
# infinity: value[1] is ignored
self._int = '0'
self._exp = value[2]
self._is_special = True
else:
# process and validate the digits in value[1]
digits = []
for digit in value[1]:
if isinstance(digit, (int, long)) and 0 <= digit <= 9:
# skip leading zeros
if digits or digit != 0:
digits.append(digit)
else:
raise ValueError("The second value in the tuple must "
"be composed of integers in the range "
"0 through 9.")
if value[2] in ('n', 'N'):
# NaN: digits form the diagnostic
self._int = ''.join(map(str, digits))
self._exp = value[2]
self._is_special = True
elif isinstance(value[2], (int, long)):
# finite number: digits give the coefficient
self._int = ''.join(map(str, digits or [0]))
self._exp = value[2]
self._is_special = False
else:
raise ValueError("The third value in the tuple must "
"be an integer, or one of the "
"strings 'F', 'n', 'N'.")
return self
if isinstance(value, float):
raise TypeError("Cannot convert float to Decimal. " +
"First convert the float to a string")
raise TypeError("Cannot convert %r to Decimal" % value)
def _isnan(self):
"""Returns whether the number is not actually one.
0 if a number
1 if NaN
2 if sNaN
"""
if self._is_special:
exp = self._exp
if exp == 'n':
return 1
elif exp == 'N':
return 2
return 0
def _isinfinity(self):
"""Returns whether the number is infinite
0 if finite or not a number
1 if +INF
-1 if -INF
"""
if self._exp == 'F':
if self._sign:
return -1
return 1
return 0
def _check_nans(self, other=None, context=None):
"""Returns whether the number is not actually one.
if self, other are sNaN, signal
if self, other are NaN return nan
return 0
Done before operations.
"""
self_is_nan = self._isnan()
if other is None:
other_is_nan = False
else:
other_is_nan = other._isnan()
if self_is_nan or other_is_nan:
if context is None:
context = getcontext()
if self_is_nan == 2:
return context._raise_error(InvalidOperation, 'sNaN',
self)
if other_is_nan == 2:
return context._raise_error(InvalidOperation, 'sNaN',
other)
if self_is_nan:
return self._fix_nan(context)
return other._fix_nan(context)
return 0
def __nonzero__(self):
"""Return True if self is nonzero; otherwise return False.
NaNs and infinities are considered nonzero.
"""
return self._is_special or self._int != '0'
def __cmp__(self, other):
other = _convert_other(other)
if other is NotImplemented:
# Never return NotImplemented
return 1
if self._is_special or other._is_special:
# check for nans, without raising on a signaling nan
if self._isnan() or other._isnan():
return 1 # Comparison involving NaN's always reports self > other
# INF = INF
return cmp(self._isinfinity(), other._isinfinity())
# check for zeros; note that cmp(0, -0) should return 0
if not self:
if not other:
return 0
else:
return -((-1)**other._sign)
if not other:
return (-1)**self._sign
# If different signs, neg one is less
if other._sign < self._sign:
return -1
if self._sign < other._sign:
return 1
self_adjusted = self.adjusted()
other_adjusted = other.adjusted()
if self_adjusted == other_adjusted:
self_padded = self._int + '0'*(self._exp - other._exp)
other_padded = other._int + '0'*(other._exp - self._exp)
return cmp(self_padded, other_padded) * (-1)**self._sign
elif self_adjusted > other_adjusted:
return (-1)**self._sign
else: # self_adjusted < other_adjusted
return -((-1)**self._sign)
def __eq__(self, other):
if not isinstance(other, (Decimal, int, long)):
return NotImplemented
return self.__cmp__(other) == 0
def __ne__(self, other):
if not isinstance(other, (Decimal, int, long)):
return NotImplemented
return self.__cmp__(other) != 0
def compare(self, other, context=None):
"""Compares one to another.
-1 => a < b
0 => a = b
1 => a > b
NaN => one is NaN
Like __cmp__, but returns Decimal instances.
"""
other = _convert_other(other, raiseit=True)
# Compare(NaN, NaN) = NaN
if (self._is_special or other and other._is_special):
ans = self._check_nans(other, context)
if ans:
return ans
return Decimal(self.__cmp__(other))
def __hash__(self):
"""x.__hash__() <==> hash(x)"""
# Decimal integers must hash the same as the ints
#
# The hash of a nonspecial noninteger Decimal must depend only
# on the value of that Decimal, and not on its representation.
# For example: hash(Decimal("100E-1")) == hash(Decimal("10")).
if self._is_special:
if self._isnan():
raise TypeError('Cannot hash a NaN value.')
return hash(str(self))
if not self:
return 0
if self._isinteger():
op = _WorkRep(self.to_integral_value())
return hash((-1)**op.sign*op.int*10**op.exp)
# The value of a nonzero nonspecial Decimal instance is
# faithfully represented by the triple consisting of its sign,
# its adjusted exponent, and its coefficient with trailing
# zeros removed.
return hash((self._sign,
self._exp+len(self._int),
self._int.rstrip('0')))
def as_tuple(self):
"""Represents the number as a triple tuple.
To show the internals exactly as they are.
"""
return (self._sign, tuple(map(int, self._int)), self._exp)
def __repr__(self):
"""Represents the number as an instance of Decimal."""
# Invariant: eval(repr(d)) == d
return 'Decimal("%s")' % str(self)
def __str__(self, eng=False, context=None):
"""Return string representation of the number in scientific notation.
Captures all of the information in the underlying representation.
"""
sign = ['', '-'][self._sign]
if self._is_special:
if self._exp == 'F':
return sign + 'Infinity'
elif self._exp == 'n':
return sign + 'NaN' + self._int
else: # self._exp == 'N'
return sign + 'sNaN' + self._int
# number of digits of self._int to left of decimal point
leftdigits = self._exp + len(self._int)
# dotplace is number of digits of self._int to the left of the
# decimal point in the mantissa of the output string (that is,
# after adjusting the exponent)
if self._exp <= 0 and leftdigits > -6:
# no exponent required
dotplace = leftdigits
elif not eng:
# usual scientific notation: 1 digit on left of the point
dotplace = 1
elif self._int == '0':
# engineering notation, zero
dotplace = (leftdigits + 1) % 3 - 1
else:
# engineering notation, nonzero
dotplace = (leftdigits - 1) % 3 + 1
if dotplace <= 0:
intpart = '0'
fracpart = '.' + '0'*(-dotplace) + self._int
elif dotplace >= len(self._int):
intpart = self._int+'0'*(dotplace-len(self._int))
fracpart = ''
else:
intpart = self._int[:dotplace]
fracpart = '.' + self._int[dotplace:]
if leftdigits == dotplace:
exp = ''
else:
if context is None:
context = getcontext()
exp = ['e', 'E'][context.capitals] + "%+d" % (leftdigits-dotplace)
return sign + intpart + fracpart + exp
def to_eng_string(self, context=None):
"""Convert to engineering-type string.
Engineering notation has an exponent which is a multiple of 3, so there
are up to 3 digits left of the decimal place.
Same rules for when in exponential and when as a value as in __str__.
"""
return self.__str__(eng=True, context=context)
def __neg__(self, context=None):
"""Returns a copy with the sign switched.
Rounds, if it has reason.
"""
if self._is_special:
ans = self._check_nans(context=context)
if ans:
return ans
if not self:
# -Decimal('0') is Decimal('0'), not Decimal('-0')
ans = self.copy_abs()
else:
ans = self.copy_negate()
if context is None:
context = getcontext()
return ans._fix(context)
def __pos__(self, context=None):
"""Returns a copy, unless it is a sNaN.
Rounds the number (if more then precision digits)
"""
if self._is_special:
ans = self._check_nans(context=context)
if ans:
return ans
if not self:
# + (-0) = 0
ans = self.copy_abs()
else:
ans = Decimal(self)
if context is None:
context = getcontext()
return ans._fix(context)
def __abs__(self, round=True, context=None):
"""Returns the absolute value of self.
If the keyword argument 'round' is false, do not round. The
expression self.__abs__(round=False) is equivalent to
self.copy_abs().
"""
if not round:
return self.copy_abs()
if self._is_special:
ans = self._check_nans(context=context)
if ans:
return ans
if self._sign:
ans = self.__neg__(context=context)
else:
ans = self.__pos__(context=context)
return ans
def __add__(self, other, context=None):
"""Returns self + other.
-INF + INF (or the reverse) cause InvalidOperation errors.
"""
other = _convert_other(other)
if other is NotImplemented:
return other
if context is None:
context = getcontext()
if self._is_special or other._is_special:
ans = self._check_nans(other, context)
if ans:
return ans
if self._isinfinity():
# If both INF, same sign => same as both, opposite => error.
if self._sign != other._sign and other._isinfinity():
return context._raise_error(InvalidOperation, '-INF + INF')
return Decimal(self)
if other._isinfinity():
return Decimal(other) # Can't both be infinity here
exp = min(self._exp, other._exp)
negativezero = 0
if context.rounding == ROUND_FLOOR and self._sign != other._sign:
# If the answer is 0, the sign should be negative, in this case.
negativezero = 1
if not self and not other:
sign = min(self._sign, other._sign)
if negativezero:
sign = 1
ans = _dec_from_triple(sign, '0', exp)
ans = ans._fix(context)
return ans
if not self:
exp = max(exp, other._exp - context.prec-1)
ans = other._rescale(exp, context.rounding)
ans = ans._fix(context)
return ans
if not other:
exp = max(exp, self._exp - context.prec-1)
ans = self._rescale(exp, context.rounding)
ans = ans._fix(context)
return ans
op1 = _WorkRep(self)
op2 = _WorkRep(other)
op1, op2 = _normalize(op1, op2, context.prec)
result = _WorkRep()
if op1.sign != op2.sign:
# Equal and opposite
if op1.int == op2.int:
ans = _dec_from_triple(negativezero, '0', exp)
ans = ans._fix(context)
return ans
if op1.int < op2.int:
op1, op2 = op2, op1
# OK, now abs(op1) > abs(op2)
if op1.sign == 1:
result.sign = 1
op1.sign, op2.sign = op2.sign, op1.sign
else:
result.sign = 0
# So we know the sign, and op1 > 0.
elif op1.sign == 1:
result.sign = 1
op1.sign, op2.sign = (0, 0)
else:
result.sign = 0
# Now, op1 > abs(op2) > 0
if op2.sign == 0:
result.int = op1.int + op2.int
else:
result.int = op1.int - op2.int
result.exp = op1.exp
ans = Decimal(result)
ans = ans._fix(context)
return ans
__radd__ = __add__
def __sub__(self, other, context=None):
"""Return self - other"""
other = _convert_other(other)
if other is NotImplemented:
return other
if self._is_special or other._is_special:
ans = self._check_nans(other, context=context)
if ans:
return ans
# self - other is computed as self + other.copy_negate()
return self.__add__(other.copy_negate(), context=context)
def __rsub__(self, other, context=None):
"""Return other - self"""
other = _convert_other(other)
if other is NotImplemented:
return other
return other.__sub__(self, context=context)
def __mul__(self, other, context=None):
"""Return self * other.
(+-) INF * 0 (or its reverse) raise InvalidOperation.
"""
other = _convert_other(other)
if other is NotImplemented:
return other
if context is None:
context = getcontext()
resultsign = self._sign ^ other._sign
if self._is_special or other._is_special:
ans = self._check_nans(other, context)
if ans:
return ans
if self._isinfinity():
if not other:
return context._raise_error(InvalidOperation, '(+-)INF * 0')
return Infsign[resultsign]
if other._isinfinity():
if not self:
return context._raise_error(InvalidOperation, '0 * (+-)INF')
return Infsign[resultsign]
resultexp = self._exp + other._exp
# Special case for multiplying by zero
if not self or not other:
ans = _dec_from_triple(resultsign, '0', resultexp)
# Fixing in case the exponent is out of bounds
ans = ans._fix(context)
return ans
# Special case for multiplying by power of 10
if self._int == '1':
ans = _dec_from_triple(resultsign, other._int, resultexp)
ans = ans._fix(context)
return ans
if other._int == '1':
ans = _dec_from_triple(resultsign, self._int, resultexp)
ans = ans._fix(context)
return ans
op1 = _WorkRep(self)
op2 = _WorkRep(other)
ans = _dec_from_triple(resultsign, str(op1.int * op2.int), resultexp)
ans = ans._fix(context)
return ans
__rmul__ = __mul__
def __div__(self, other, context=None):
"""Return self / other."""
other = _convert_other(other)
if other is NotImplemented:
return NotImplemented
if context is None:
context = getcontext()
sign = self._sign ^ other._sign
if self._is_special or other._is_special:
ans = self._check_nans(other, context)
if ans:
return ans
if self._isinfinity() and other._isinfinity():
return context._raise_error(InvalidOperation, '(+-)INF/(+-)INF')
if self._isinfinity():
return Infsign[sign]
if other._isinfinity():
context._raise_error(Clamped, 'Division by infinity')
return _dec_from_triple(sign, '0', context.Etiny())
# Special cases for zeroes
if not other:
if not self:
return context._raise_error(DivisionUndefined, '0 / 0')
return context._raise_error(DivisionByZero, 'x / 0', sign)
if not self:
exp = self._exp - other._exp
coeff = 0
else:
# OK, so neither = 0, INF or NaN
shift = len(other._int) - len(self._int) + context.prec + 1
exp = self._exp - other._exp - shift
op1 = _WorkRep(self)
op2 = _WorkRep(other)
if shift >= 0:
coeff, remainder = divmod(op1.int * 10**shift, op2.int)
else:
coeff, remainder = divmod(op1.int, op2.int * 10**-shift)
if remainder:
# result is not exact; adjust to ensure correct rounding
if coeff % 5 == 0:
coeff += 1
else:
# result is exact; get as close to ideal exponent as possible
ideal_exp = self._exp - other._exp
while exp < ideal_exp and coeff % 10 == 0:
coeff //= 10
exp += 1
ans = _dec_from_triple(sign, str(coeff), exp)
return ans._fix(context)
__truediv__ = __div__
def _divide(self, other, context):
"""Return (self // other, self % other), to context.prec precision.
Assumes that neither self nor other is a NaN, that self is not
infinite and that other is nonzero.
"""
sign = self._sign ^ other._sign
if other._isinfinity():
ideal_exp = self._exp
else:
ideal_exp = min(self._exp, other._exp)
expdiff = self.adjusted() - other.adjusted()
if not self or other._isinfinity() or expdiff <= -2:
return (_dec_from_triple(sign, '0', 0),
self._rescale(ideal_exp, context.rounding))
if expdiff <= context.prec:
op1 = _WorkRep(self)
op2 = _WorkRep(other)
if op1.exp >= op2.exp:
op1.int *= 10**(op1.exp - op2.exp)
else:
op2.int *= 10**(op2.exp - op1.exp)
q, r = divmod(op1.int, op2.int)
if q < 10**context.prec:
return (_dec_from_triple(sign, str(q), 0),
_dec_from_triple(self._sign, str(r), ideal_exp))
# Here the quotient is too large to be representable
ans = context._raise_error(DivisionImpossible,
'quotient too large in //, % or divmod')
return ans, ans
def __rdiv__(self, other, context=None):
"""Swaps self/other and returns __div__."""
other = _convert_other(other)
if other is NotImplemented:
return other
return other.__div__(self, context=context)
__rtruediv__ = __rdiv__
def __divmod__(self, other, context=None):
"""
Return (self // other, self % other)
"""
other = _convert_other(other)
if other is NotImplemented:
return other
if context is None:
context = getcontext()
ans = self._check_nans(other, context)
if ans:
return (ans, ans)
sign = self._sign ^ other._sign
if self._isinfinity():
if other._isinfinity():
ans = context._raise_error(InvalidOperation, 'divmod(INF, INF)')
return ans, ans
else:
return (Infsign[sign],
context._raise_error(InvalidOperation, 'INF % x'))
if not other:
if not self:
ans = context._raise_error(DivisionUndefined, 'divmod(0, 0)')
return ans, ans
else:
return (context._raise_error(DivisionByZero, 'x // 0', sign),
context._raise_error(InvalidOperation, 'x % 0'))
quotient, remainder = self._divide(other, context)
remainder = remainder._fix(context)
return quotient, remainder
def __rdivmod__(self, other, context=None):
"""Swaps self/other and returns __divmod__."""
other = _convert_other(other)
if other is NotImplemented:
return other
return other.__divmod__(self, context=context)
def __mod__(self, other, context=None):
"""
self % other
"""
other = _convert_other(other)
if other is NotImplemented:
return other
if context is None:
context = getcontext()
ans = self._check_nans(other, context)
if ans:
return ans
if self._isinfinity():
return context._raise_error(InvalidOperation, 'INF % x')
elif not other:
if self:
return context._raise_error(InvalidOperation, 'x % 0')
else:
return context._raise_error(DivisionUndefined, '0 % 0')
remainder = self._divide(other, context)[1]
remainder = remainder._fix(context)
return remainder
def __rmod__(self, other, context=None):
"""Swaps self/other and returns __mod__."""
other = _convert_other(other)
if other is NotImplemented:
return other
return other.__mod__(self, context=context)
def remainder_near(self, other, context=None):
"""
Remainder nearest to 0- abs(remainder-near) <= other/2
"""
if context is None:
context = getcontext()
other = _convert_other(other, raiseit=True)
ans = self._check_nans(other, context)
if ans:
return ans
# self == +/-infinity -> InvalidOperation
if self._isinfinity():
return context._raise_error(InvalidOperation,
'remainder_near(infinity, x)')
# other == 0 -> either InvalidOperation or DivisionUndefined
if not other:
if self:
return context._raise_error(InvalidOperation,
'remainder_near(x, 0)')
else:
return context._raise_error(DivisionUndefined,
'remainder_near(0, 0)')
# other = +/-infinity -> remainder = self
if other._isinfinity():
ans = Decimal(self)
return ans._fix(context)
# self = 0 -> remainder = self, with ideal exponent
ideal_exponent = min(self._exp, other._exp)
if not self:
ans = _dec_from_triple(self._sign, '0', ideal_exponent)
return ans._fix(context)
# catch most cases of large or small quotient
expdiff = self.adjusted() - other.adjusted()
if expdiff >= context.prec + 1:
# expdiff >= prec+1 => abs(self/other) > 10**prec
return context._raise_error(DivisionImpossible)
if expdiff <= -2:
# expdiff <= -2 => abs(self/other) < 0.1
ans = self._rescale(ideal_exponent, context.rounding)
return ans._fix(context)
# adjust both arguments to have the same exponent, then divide
op1 = _WorkRep(self)
op2 = _WorkRep(other)
if op1.exp >= op2.exp:
op1.int *= 10**(op1.exp - op2.exp)
else:
op2.int *= 10**(op2.exp - op1.exp)
q, r = divmod(op1.int, op2.int)
# remainder is r*10**ideal_exponent; other is +/-op2.int *
# 10**ideal_exponent. Apply correction to ensure that
# abs(remainder) <= abs(other)/2
if 2*r + (q&1) > op2.int:
r -= op2.int
q += 1
if q >= 10**context.prec:
return context._raise_error(DivisionImpossible)
# result has same sign as self unless r is negative
sign = self._sign
if r < 0:
sign = 1-sign
r = -r
ans = _dec_from_triple(sign, str(r), ideal_exponent)
return ans._fix(context)
def __floordiv__(self, other, context=None):
"""self // other"""
other = _convert_other(other)
if other is NotImplemented:
return other
if context is None:
context = getcontext()
ans = self._check_nans(other, context)
if ans:
return ans
if self._isinfinity():
if other._isinfinity():
return context._raise_error(InvalidOperation, 'INF // INF')
else:
return Infsign[self._sign ^ other._sign]
if not other:
if self:
return context._raise_error(DivisionByZero, 'x // 0',
self._sign ^ other._sign)
else:
return context._raise_error(DivisionUndefined, '0 // 0')
return self._divide(other, context)[0]
def __rfloordiv__(self, other, context=None):
"""Swaps self/other and returns __floordiv__."""
other = _convert_other(other)
if other is NotImplemented:
return other
return other.__floordiv__(self, context=context)
def __float__(self):
"""Float representation."""
return float(str(self))
def __int__(self):
"""Converts self to an int, truncating if necessary."""
if self._is_special:
if self._isnan():
context = getcontext()
return context._raise_error(InvalidContext)
elif self._isinfinity():
raise OverflowError("Cannot convert infinity to long")
s = (-1)**self._sign
if self._exp >= 0:
return s*int(self._int)*10**self._exp
else:
return s*int(self._int[:self._exp] or '0')
def __long__(self):
"""Converts to a long.
Equivalent to long(int(self))
"""
return long(self.__int__())
def _fix_nan(self, context):
"""Decapitate the payload of a NaN to fit the context"""
payload = self._int
# maximum length of payload is precision if _clamp=0,
# precision-1 if _clamp=1.
max_payload_len = context.prec - context._clamp
if len(payload) > max_payload_len:
payload = payload[len(payload)-max_payload_len:].lstrip('0')
return _dec_from_triple(self._sign, payload, self._exp, True)
return Decimal(self)
def _fix(self, context):
"""Round if it is necessary to keep self within prec precision.
Rounds and fixes the exponent. Does not raise on a sNaN.
Arguments:
self - Decimal instance
context - context used.
"""
if self._is_special:
if self._isnan():
# decapitate payload if necessary
return self._fix_nan(context)
else:
# self is +/-Infinity; return unaltered
return Decimal(self)
# if self is zero then exponent should be between Etiny and
# Emax if _clamp==0, and between Etiny and Etop if _clamp==1.
Etiny = context.Etiny()
Etop = context.Etop()
if not self:
exp_max = [context.Emax, Etop][context._clamp]
new_exp = min(max(self._exp, Etiny), exp_max)
if new_exp != self._exp:
context._raise_error(Clamped)
return _dec_from_triple(self._sign, '0', new_exp)
else:
return Decimal(self)
# exp_min is the smallest allowable exponent of the result,
# equal to max(self.adjusted()-context.prec+1, Etiny)
exp_min = len(self._int) + self._exp - context.prec
if exp_min > Etop:
# overflow: exp_min > Etop iff self.adjusted() > Emax
context._raise_error(Inexact)
context._raise_error(Rounded)
return context._raise_error(Overflow, 'above Emax', self._sign)
self_is_subnormal = exp_min < Etiny
if self_is_subnormal:
context._raise_error(Subnormal)
exp_min = Etiny
# round if self has too many digits
if self._exp < exp_min:
context._raise_error(Rounded)
digits = len(self._int) + self._exp - exp_min
if digits < 0:
self = _dec_from_triple(self._sign, '1', exp_min-1)
digits = 0
this_function = getattr(self, self._pick_rounding_function[context.rounding])
changed = this_function(digits)
coeff = self._int[:digits] or '0'
if changed == 1:
coeff = str(int(coeff)+1)
ans = _dec_from_triple(self._sign, coeff, exp_min)
if changed:
context._raise_error(Inexact)
if self_is_subnormal:
context._raise_error(Underflow)
if not ans:
# raise Clamped on underflow to 0
context._raise_error(Clamped)
elif len(ans._int) == context.prec+1:
# we get here only if rescaling rounds the
# cofficient up to exactly 10**context.prec
if ans._exp < Etop:
ans = _dec_from_triple(ans._sign,
ans._int[:-1], ans._exp+1)
else:
# Inexact and Rounded have already been raised
ans = context._raise_error(Overflow, 'above Emax',
self._sign)
return ans
# fold down if _clamp == 1 and self has too few digits
if context._clamp == 1 and self._exp > Etop:
context._raise_error(Clamped)
self_padded = self._int + '0'*(self._exp - Etop)
return _dec_from_triple(self._sign, self_padded, Etop)
# here self was representable to begin with; return unchanged
return Decimal(self)
_pick_rounding_function = {}
# for each of the rounding functions below:
# self is a finite, nonzero Decimal
# prec is an integer satisfying 0 <= prec < len(self._int)
#
# each function returns either -1, 0, or 1, as follows:
# 1 indicates that self should be rounded up (away from zero)
# 0 indicates that self should be truncated, and that all the
# digits to be truncated are zeros (so the value is unchanged)
# -1 indicates that there are nonzero digits to be truncated
def _round_down(self, prec):
"""Also known as round-towards-0, truncate."""
if _all_zeros(self._int, prec):
return 0
else:
return -1
def _round_up(self, prec):
"""Rounds away from 0."""
return -self._round_down(prec)
def _round_half_up(self, prec):
"""Rounds 5 up (away from 0)"""
if self._int[prec] in '56789':
return 1
elif _all_zeros(self._int, prec):
return 0
else:
return -1
def _round_half_down(self, prec):
"""Round 5 down"""
if _exact_half(self._int, prec):
return -1
else:
return self._round_half_up(prec)
def _round_half_even(self, prec):
"""Round 5 to even, rest to nearest."""
if _exact_half(self._int, prec) and \
(prec == 0 or self._int[prec-1] in '02468'):
return -1
else:
return self._round_half_up(prec)
def _round_ceiling(self, prec):
"""Rounds up (not away from 0 if negative.)"""
if self._sign:
return self._round_down(prec)
else:
return -self._round_down(prec)
def _round_floor(self, prec):
"""Rounds down (not towards 0 if negative)"""
if not self._sign:
return self._round_down(prec)
else:
return -self._round_down(prec)
def _round_05up(self, prec):
"""Round down unless digit prec-1 is 0 or 5."""
if prec and self._int[prec-1] not in '05':
return self._round_down(prec)
else:
return -self._round_down(prec)
def fma(self, other, third, context=None):
"""Fused multiply-add.
Returns self*other+third with no rounding of the intermediate
product self*other.
self and other are multiplied together, with no rounding of
the result. The third operand is then added to the result,
and a single final rounding is performed.
"""
other = _convert_other(other, raiseit=True)
# compute product; raise InvalidOperation if either operand is
# a signaling NaN or if the product is zero times infinity.
if self._is_special or other._is_special:
if context is None:
context = getcontext()
if self._exp == 'N':
return context._raise_error(InvalidOperation, 'sNaN', self)
if other._exp == 'N':
return context._raise_error(InvalidOperation, 'sNaN', other)
if self._exp == 'n':
product = self
elif other._exp == 'n':
product = other
elif self._exp == 'F':
if not other:
return context._raise_error(InvalidOperation,
'INF * 0 in fma')
product = Infsign[self._sign ^ other._sign]
elif other._exp == 'F':
if not self:
return context._raise_error(InvalidOperation,
'0 * INF in fma')
product = Infsign[self._sign ^ other._sign]
else:
product = _dec_from_triple(self._sign ^ other._sign,
str(int(self._int) * int(other._int)),
self._exp + other._exp)
third = _convert_other(third, raiseit=True)
return product.__add__(third, context)
def _power_modulo(self, other, modulo, context=None):
"""Three argument version of __pow__"""
# if can't convert other and modulo to Decimal, raise
# TypeError; there's no point returning NotImplemented (no
# equivalent of __rpow__ for three argument pow)
other = _convert_other(other, raiseit=True)
modulo = _convert_other(modulo, raiseit=True)
if context is None:
context = getcontext()
# deal with NaNs: if there are any sNaNs then first one wins,
# (i.e. behaviour for NaNs is identical to that of fma)
self_is_nan = self._isnan()
other_is_nan = other._isnan()
modulo_is_nan = modulo._isnan()
if self_is_nan or other_is_nan or modulo_is_nan:
if self_is_nan == 2:
return context._raise_error(InvalidOperation, 'sNaN',
self)
if other_is_nan == 2:
return context._raise_error(InvalidOperation, 'sNaN',
other)
if modulo_is_nan == 2:
return context._raise_error(InvalidOperation, 'sNaN',
modulo)
if self_is_nan:
return self._fix_nan(context)
if other_is_nan:
return other._fix_nan(context)
return modulo._fix_nan(context)
# check inputs: we apply same restrictions as Python's pow()
if not (self._isinteger() and
other._isinteger() and
modulo._isinteger()):
return context._raise_error(InvalidOperation,
'pow() 3rd argument not allowed '
'unless all arguments are integers')
if other < 0:
return context._raise_error(InvalidOperation,
'pow() 2nd argument cannot be '
'negative when 3rd argument specified')
if not modulo:
return context._raise_error(InvalidOperation,
'pow() 3rd argument cannot be 0')
# additional restriction for decimal: the modulus must be less
# than 10**prec in absolute value
if modulo.adjusted() >= context.prec:
return context._raise_error(InvalidOperation,
'insufficient precision: pow() 3rd '
'argument must not have more than '
'precision digits')
# define 0**0 == NaN, for consistency with two-argument pow
# (even though it hurts!)
if not other and not self:
return context._raise_error(InvalidOperation,
'at least one of pow() 1st argument '
'and 2nd argument must be nonzero ;'
'0**0 is not defined')
# compute sign of result
if other._iseven():
sign = 0
else:
sign = self._sign
# convert modulo to a Python integer, and self and other to
# Decimal integers (i.e. force their exponents to be >= 0)
modulo = abs(int(modulo))
base = _WorkRep(self.to_integral_value())
exponent = _WorkRep(other.to_integral_value())
# compute result using integer pow()
base = (base.int % modulo * pow(10, base.exp, modulo)) % modulo
for i in xrange(exponent.exp):
base = pow(base, 10, modulo)
base = pow(base, exponent.int, modulo)
return _dec_from_triple(sign, str(base), 0)
def _power_exact(self, other, p):
"""Attempt to compute self**other exactly.
Given Decimals self and other and an integer p, attempt to
compute an exact result for the power self**other, with p
digits of precision. Return None if self**other is not
exactly representable in p digits.
Assumes that elimination of special cases has already been
performed: self and other must both be nonspecial; self must
be positive and not numerically equal to 1; other must be
nonzero. For efficiency, other._exp should not be too large,
so that 10**abs(other._exp) is a feasible calculation."""
# In the comments below, we write x for the value of self and
# y for the value of other. Write x = xc*10**xe and y =
# yc*10**ye.
# The main purpose of this method is to identify the *failure*
# of x**y to be exactly representable with as little effort as
# possible. So we look for cheap and easy tests that
# eliminate the possibility of x**y being exact. Only if all
# these tests are passed do we go on to actually compute x**y.
# Here's the main idea. First normalize both x and y. We
# express y as a rational m/n, with m and n relatively prime
# and n>0. Then for x**y to be exactly representable (at
# *any* precision), xc must be the nth power of a positive
# integer and xe must be divisible by n. If m is negative
# then additionally xc must be a power of either 2 or 5, hence
# a power of 2**n or 5**n.
#
# There's a limit to how small |y| can be: if y=m/n as above
# then:
#
# (1) if xc != 1 then for the result to be representable we
# need xc**(1/n) >= 2, and hence also xc**|y| >= 2. So
# if |y| <= 1/nbits(xc) then xc < 2**nbits(xc) <=
# 2**(1/|y|), hence xc**|y| < 2 and the result is not
# representable.
#
# (2) if xe != 0, |xe|*(1/n) >= 1, so |xe|*|y| >= 1. Hence if
# |y| < 1/|xe| then the result is not representable.
#
# Note that since x is not equal to 1, at least one of (1) and
# (2) must apply. Now |y| < 1/nbits(xc) iff |yc|*nbits(xc) <
# 10**-ye iff len(str(|yc|*nbits(xc)) <= -ye.
#
# There's also a limit to how large y can be, at least if it's
# positive: the normalized result will have coefficient xc**y,
# so if it's representable then xc**y < 10**p, and y <
# p/log10(xc). Hence if y*log10(xc) >= p then the result is
# not exactly representable.
# if len(str(abs(yc*xe)) <= -ye then abs(yc*xe) < 10**-ye,
# so |y| < 1/xe and the result is not representable.
# Similarly, len(str(abs(yc)*xc_bits)) <= -ye implies |y|
# < 1/nbits(xc).
x = _WorkRep(self)
xc, xe = x.int, x.exp
while xc % 10 == 0:
xc //= 10
xe += 1
y = _WorkRep(other)
yc, ye = y.int, y.exp
while yc % 10 == 0:
yc //= 10
ye += 1
# case where xc == 1: result is 10**(xe*y), with xe*y
# required to be an integer
if xc == 1:
if ye >= 0:
exponent = xe*yc*10**ye
else:
exponent, remainder = divmod(xe*yc, 10**-ye)
if remainder:
return None
if y.sign == 1:
exponent = -exponent
# if other is a nonnegative integer, use ideal exponent
if other._isinteger() and other._sign == 0:
ideal_exponent = self._exp*int(other)
zeros = min(exponent-ideal_exponent, p-1)
else:
zeros = 0
return _dec_from_triple(0, '1' + '0'*zeros, exponent-zeros)
# case where y is negative: xc must be either a power
# of 2 or a power of 5.
if y.sign == 1:
last_digit = xc % 10
if last_digit in (2,4,6,8):
# quick test for power of 2
if xc & -xc != xc:
return None
# now xc is a power of 2; e is its exponent
e = _nbits(xc)-1
# find e*y and xe*y; both must be integers
if ye >= 0:
y_as_int = yc*10**ye
e = e*y_as_int
xe = xe*y_as_int
else:
ten_pow = 10**-ye
e, remainder = divmod(e*yc, ten_pow)
if remainder:
return None
xe, remainder = divmod(xe*yc, ten_pow)
if remainder:
return None
if e*65 >= p*93: # 93/65 > log(10)/log(5)
return None
xc = 5**e
elif last_digit == 5:
# e >= log_5(xc) if xc is a power of 5; we have
# equality all the way up to xc=5**2658
e = _nbits(xc)*28//65
xc, remainder = divmod(5**e, xc)
if remainder:
return None
while xc % 5 == 0:
xc //= 5
e -= 1
if ye >= 0:
y_as_integer = yc*10**ye
e = e*y_as_integer
xe = xe*y_as_integer
else:
ten_pow = 10**-ye
e, remainder = divmod(e*yc, ten_pow)
if remainder:
return None
xe, remainder = divmod(xe*yc, ten_pow)
if remainder:
return None
if e*3 >= p*10: # 10/3 > log(10)/log(2)
return None
xc = 2**e
else:
return None
if xc >= 10**p:
return None
xe = -e-xe
return _dec_from_triple(0, str(xc), xe)
# now y is positive; find m and n such that y = m/n
if ye >= 0:
m, n = yc*10**ye, 1
else:
if xe != 0 and len(str(abs(yc*xe))) <= -ye:
return None
xc_bits = _nbits(xc)
if xc != 1 and len(str(abs(yc)*xc_bits)) <= -ye:
return None
m, n = yc, 10**(-ye)
while m % 2 == n % 2 == 0:
m //= 2
n //= 2
while m % 5 == n % 5 == 0:
m //= 5
n //= 5
# compute nth root of xc*10**xe
if n > 1:
# if 1 < xc < 2**n then xc isn't an nth power
if xc != 1 and xc_bits <= n:
return None
xe, rem = divmod(xe, n)
if rem != 0:
return None
# compute nth root of xc using Newton's method
a = 1L << -(-_nbits(xc)//n) # initial estimate
while True:
q, r = divmod(xc, a**(n-1))
if a <= q:
break
else:
a = (a*(n-1) + q)//n
if not (a == q and r == 0):
return None
xc = a
# now xc*10**xe is the nth root of the original xc*10**xe
# compute mth power of xc*10**xe
# if m > p*100//_log10_lb(xc) then m > p/log10(xc), hence xc**m >
# 10**p and the result is not representable.
if xc > 1 and m > p*100//_log10_lb(xc):
return None
xc = xc**m
xe *= m
if xc > 10**p:
return None
# by this point the result *is* exactly representable
# adjust the exponent to get as close as possible to the ideal
# exponent, if necessary
str_xc = str(xc)
if other._isinteger() and other._sign == 0:
ideal_exponent = self._exp*int(other)
zeros = min(xe-ideal_exponent, p-len(str_xc))
else:
zeros = 0
return _dec_from_triple(0, str_xc+'0'*zeros, xe-zeros)
def __pow__(self, other, modulo=None, context=None):
"""Return self ** other [ % modulo].
With two arguments, compute self**other.
With three arguments, compute (self**other) % modulo. For the
three argument form, the following restrictions on the
arguments hold:
- all three arguments must be integral
- other must be nonnegative
- either self or other (or both) must be nonzero
- modulo must be nonzero and must have at most p digits,
where p is the context precision.
If any of these restrictions is violated the InvalidOperation
flag is raised.
The result of pow(self, other, modulo) is identical to the
result that would be obtained by computing (self**other) %
modulo with unbounded precision, but is computed more
efficiently. It is always exact.
"""
if modulo is not None:
return self._power_modulo(other, modulo, context)
other = _convert_other(other)
if other is NotImplemented:
return other
if context is None:
context = getcontext()
# either argument is a NaN => result is NaN
ans = self._check_nans(other, context)
if ans:
return ans
# 0**0 = NaN (!), x**0 = 1 for nonzero x (including +/-Infinity)
if not other:
if not self:
return context._raise_error(InvalidOperation, '0 ** 0')
else:
return Dec_p1
# result has sign 1 iff self._sign is 1 and other is an odd integer
result_sign = 0
if self._sign == 1:
if other._isinteger():
if not other._iseven():
result_sign = 1
else:
# -ve**noninteger = NaN
# (-0)**noninteger = 0**noninteger
if self:
return context._raise_error(InvalidOperation,
'x ** y with x negative and y not an integer')
# negate self, without doing any unwanted rounding
self = self.copy_negate()
# 0**(+ve or Inf)= 0; 0**(-ve or -Inf) = Infinity
if not self:
if other._sign == 0:
return _dec_from_triple(result_sign, '0', 0)
else:
return Infsign[result_sign]
# Inf**(+ve or Inf) = Inf; Inf**(-ve or -Inf) = 0
if self._isinfinity():
if other._sign == 0:
return Infsign[result_sign]
else:
return _dec_from_triple(result_sign, '0', 0)
# 1**other = 1, but the choice of exponent and the flags
# depend on the exponent of self, and on whether other is a
# positive integer, a negative integer, or neither
if self == Dec_p1:
if other._isinteger():
# exp = max(self._exp*max(int(other), 0),
# 1-context.prec) but evaluating int(other) directly
# is dangerous until we know other is small (other
# could be 1e999999999)
if other._sign == 1:
multiplier = 0
elif other > context.prec:
multiplier = context.prec
else:
multiplier = int(other)
exp = self._exp * multiplier
if exp < 1-context.prec:
exp = 1-context.prec
context._raise_error(Rounded)
else:
context._raise_error(Inexact)
context._raise_error(Rounded)
exp = 1-context.prec
return _dec_from_triple(result_sign, '1'+'0'*-exp, exp)
# compute adjusted exponent of self
self_adj = self.adjusted()
# self ** infinity is infinity if self > 1, 0 if self < 1
# self ** -infinity is infinity if self < 1, 0 if self > 1
if other._isinfinity():
if (other._sign == 0) == (self_adj < 0):
return _dec_from_triple(result_sign, '0', 0)
else:
return Infsign[result_sign]
# from here on, the result always goes through the call
# to _fix at the end of this function.
ans = None
# crude test to catch cases of extreme overflow/underflow. If
# log10(self)*other >= 10**bound and bound >= len(str(Emax))
# then 10**bound >= 10**len(str(Emax)) >= Emax+1 and hence
# self**other >= 10**(Emax+1), so overflow occurs. The test
# for underflow is similar.
bound = self._log10_exp_bound() + other.adjusted()
if (self_adj >= 0) == (other._sign == 0):
# self > 1 and other +ve, or self < 1 and other -ve
# possibility of overflow
if bound >= len(str(context.Emax)):
ans = _dec_from_triple(result_sign, '1', context.Emax+1)
else:
# self > 1 and other -ve, or self < 1 and other +ve
# possibility of underflow to 0
Etiny = context.Etiny()
if bound >= len(str(-Etiny)):
ans = _dec_from_triple(result_sign, '1', Etiny-1)
# try for an exact result with precision +1
if ans is None:
ans = self._power_exact(other, context.prec + 1)
if ans is not None and result_sign == 1:
ans = _dec_from_triple(1, ans._int, ans._exp)
# usual case: inexact result, x**y computed directly as exp(y*log(x))
if ans is None:
p = context.prec
x = _WorkRep(self)
xc, xe = x.int, x.exp
y = _WorkRep(other)
yc, ye = y.int, y.exp
if y.sign == 1:
yc = -yc
# compute correctly rounded result: start with precision +3,
# then increase precision until result is unambiguously roundable
extra = 3
while True:
coeff, exp = _dpower(xc, xe, yc, ye, p+extra)
if coeff % (5*10**(len(str(coeff))-p-1)):
break
extra += 3
ans = _dec_from_triple(result_sign, str(coeff), exp)
# the specification says that for non-integer other we need to
# raise Inexact, even when the result is actually exact. In
# the same way, we need to raise Underflow here if the result
# is subnormal. (The call to _fix will take care of raising
# Rounded and Subnormal, as usual.)
if not other._isinteger():
context._raise_error(Inexact)
# pad with zeros up to length context.prec+1 if necessary
if len(ans._int) <= context.prec:
expdiff = context.prec+1 - len(ans._int)
ans = _dec_from_triple(ans._sign, ans._int+'0'*expdiff,
ans._exp-expdiff)
if ans.adjusted() < context.Emin:
context._raise_error(Underflow)
# unlike exp, ln and log10, the power function respects the
# rounding mode; no need to use ROUND_HALF_EVEN here
ans = ans._fix(context)
return ans
def __rpow__(self, other, context=None):
"""Swaps self/other and returns __pow__."""
other = _convert_other(other)
if other is NotImplemented:
return other
return other.__pow__(self, context=context)
def normalize(self, context=None):
"""Normalize- strip trailing 0s, change anything equal to 0 to 0e0"""
if context is None:
context = getcontext()
if self._is_special:
ans = self._check_nans(context=context)
if ans:
return ans
dup = self._fix(context)
if dup._isinfinity():
return dup
if not dup:
return _dec_from_triple(dup._sign, '0', 0)
exp_max = [context.Emax, context.Etop()][context._clamp]
end = len(dup._int)
exp = dup._exp
while dup._int[end-1] == '0' and exp < exp_max:
exp += 1
end -= 1
return _dec_from_triple(dup._sign, dup._int[:end], exp)
def quantize(self, exp, rounding=None, context=None, watchexp=True):
"""Quantize self so its exponent is the same as that of exp.
Similar to self._rescale(exp._exp) but with error checking.
"""
exp = _convert_other(exp, raiseit=True)
if context is None:
context = getcontext()
if rounding is None:
rounding = context.rounding
if self._is_special or exp._is_special:
ans = self._check_nans(exp, context)
if ans:
return ans
if exp._isinfinity() or self._isinfinity():
if exp._isinfinity() and self._isinfinity():
return Decimal(self) # if both are inf, it is OK
return context._raise_error(InvalidOperation,
'quantize with one INF')
# if we're not watching exponents, do a simple rescale
if not watchexp:
ans = self._rescale(exp._exp, rounding)
# raise Inexact and Rounded where appropriate
if ans._exp > self._exp:
context._raise_error(Rounded)
if ans != self:
context._raise_error(Inexact)
return ans
# exp._exp should be between Etiny and Emax
if not (context.Etiny() <= exp._exp <= context.Emax):
return context._raise_error(InvalidOperation,
'target exponent out of bounds in quantize')
if not self:
ans = _dec_from_triple(self._sign, '0', exp._exp)
return ans._fix(context)
self_adjusted = self.adjusted()
if self_adjusted > context.Emax:
return context._raise_error(InvalidOperation,
'exponent of quantize result too large for current context')
if self_adjusted - exp._exp + 1 > context.prec:
return context._raise_error(InvalidOperation,
'quantize result has too many digits for current context')
ans = self._rescale(exp._exp, rounding)
if ans.adjusted() > context.Emax:
return context._raise_error(InvalidOperation,
'exponent of quantize result too large for current context')
if len(ans._int) > context.prec:
return context._raise_error(InvalidOperation,
'quantize result has too many digits for current context')
# raise appropriate flags
if ans._exp > self._exp:
context._raise_error(Rounded)
if ans != self:
context._raise_error(Inexact)
if ans and ans.adjusted() < context.Emin:
context._raise_error(Subnormal)
# call to fix takes care of any necessary folddown
ans = ans._fix(context)
return ans
def same_quantum(self, other):
"""Return True if self and other have the same exponent; otherwise
return False.
If either operand is a special value, the following rules are used:
* return True if both operands are infinities
* return True if both operands are NaNs
* otherwise, return False.
"""
other = _convert_other(other, raiseit=True)
if self._is_special or other._is_special:
return (self.is_nan() and other.is_nan() or
self.is_infinite() and other.is_infinite())
return self._exp == other._exp
def _rescale(self, exp, rounding):
"""Rescale self so that the exponent is exp, either by padding with zeros
or by truncating digits, using the given rounding mode.
Specials are returned without change. This operation is
quiet: it raises no flags, and uses no information from the
context.
exp = exp to scale to (an integer)
rounding = rounding mode
"""
if self._is_special:
return Decimal(self)
if not self:
return _dec_from_triple(self._sign, '0', exp)
if self._exp >= exp:
# pad answer with zeros if necessary
return _dec_from_triple(self._sign,
self._int + '0'*(self._exp - exp), exp)
# too many digits; round and lose data. If self.adjusted() <
# exp-1, replace self by 10**(exp-1) before rounding
digits = len(self._int) + self._exp - exp
if digits < 0:
self = _dec_from_triple(self._sign, '1', exp-1)
digits = 0
this_function = getattr(self, self._pick_rounding_function[rounding])
changed = this_function(digits)
coeff = self._int[:digits] or '0'
if changed == 1:
coeff = str(int(coeff)+1)
return _dec_from_triple(self._sign, coeff, exp)
def to_integral_exact(self, rounding=None, context=None):
"""Rounds to a nearby integer.
If no rounding mode is specified, take the rounding mode from
the context. This method raises the Rounded and Inexact flags
when appropriate.
See also: to_integral_value, which does exactly the same as
this method except that it doesn't raise Inexact or Rounded.
"""
if self._is_special:
ans = self._check_nans(context=context)
if ans:
return ans
return Decimal(self)
if self._exp >= 0:
return Decimal(self)
if not self:
return _dec_from_triple(self._sign, '0', 0)
if context is None:
context = getcontext()
if rounding is None:
rounding = context.rounding
context._raise_error(Rounded)
ans = self._rescale(0, rounding)
if ans != self:
context._raise_error(Inexact)
return ans
def to_integral_value(self, rounding=None, context=None):
"""Rounds to the nearest integer, without raising inexact, rounded."""
if context is None:
context = getcontext()
if rounding is None:
rounding = context.rounding
if self._is_special:
ans = self._check_nans(context=context)
if ans:
return ans
return Decimal(self)
if self._exp >= 0:
return Decimal(self)
else:
return self._rescale(0, rounding)
# the method name changed, but we provide also the old one, for compatibility
to_integral = to_integral_value
def sqrt(self, context=None):
"""Return the square root of self."""
if context is None:
context = getcontext()
if self._is_special:
ans = self._check_nans(context=context)
if ans:
return ans
if self._isinfinity() and self._sign == 0:
return Decimal(self)
if not self:
# exponent = self._exp // 2. sqrt(-0) = -0
ans = _dec_from_triple(self._sign, '0', self._exp // 2)
return ans._fix(context)
if self._sign == 1:
return context._raise_error(InvalidOperation, 'sqrt(-x), x > 0')
# At this point self represents a positive number. Let p be
# the desired precision and express self in the form c*100**e
# with c a positive real number and e an integer, c and e
# being chosen so that 100**(p-1) <= c < 100**p. Then the
# (exact) square root of self is sqrt(c)*10**e, and 10**(p-1)
# <= sqrt(c) < 10**p, so the closest representable Decimal at
# precision p is n*10**e where n = round_half_even(sqrt(c)),
# the closest integer to sqrt(c) with the even integer chosen
# in the case of a tie.
#
# To ensure correct rounding in all cases, we use the
# following trick: we compute the square root to an extra
# place (precision p+1 instead of precision p), rounding down.
# Then, if the result is inexact and its last digit is 0 or 5,
# we increase the last digit to 1 or 6 respectively; if it's
# exact we leave the last digit alone. Now the final round to
# p places (or fewer in the case of underflow) will round
# correctly and raise the appropriate flags.
# use an extra digit of precision
prec = context.prec+1
# write argument in the form c*100**e where e = self._exp//2
# is the 'ideal' exponent, to be used if the square root is
# exactly representable. l is the number of 'digits' of c in
# base 100, so that 100**(l-1) <= c < 100**l.
op = _WorkRep(self)
e = op.exp >> 1
if op.exp & 1:
c = op.int * 10
l = (len(self._int) >> 1) + 1
else:
c = op.int
l = len(self._int)+1 >> 1
# rescale so that c has exactly prec base 100 'digits'
shift = prec-l
if shift >= 0:
c *= 100**shift
exact = True
else:
c, remainder = divmod(c, 100**-shift)
exact = not remainder
e -= shift
# find n = floor(sqrt(c)) using Newton's method
n = 10**prec
while True:
q = c//n
if n <= q:
break
else:
n = n + q >> 1
exact = exact and n*n == c
if exact:
# result is exact; rescale to use ideal exponent e
if shift >= 0:
# assert n % 10**shift == 0
n //= 10**shift
else:
n *= 10**-shift
e += shift
else:
# result is not exact; fix last digit as described above
if n % 5 == 0:
n += 1
ans = _dec_from_triple(0, str(n), e)
# round, and fit to current context
context = context._shallow_copy()
rounding = context._set_rounding(ROUND_HALF_EVEN)
ans = ans._fix(context)
context.rounding = rounding
return ans
def max(self, other, context=None):
"""Returns the larger value.
Like max(self, other) except if one is not a number, returns
NaN (and signals if one is sNaN). Also rounds.
"""
other = _convert_other(other, raiseit=True)
if context is None:
context = getcontext()
if self._is_special or other._is_special:
# If one operand is a quiet NaN and the other is number, then the
# number is always returned
sn = self._isnan()
on = other._isnan()
if sn or on:
if on == 1 and sn == 0:
return self._fix(context)
if sn == 1 and on == 0:
return other._fix(context)
return self._check_nans(other, context)
c = self.__cmp__(other)
if c == 0:
# If both operands are finite and equal in numerical value
# then an ordering is applied:
#
# If the signs differ then max returns the operand with the
# positive sign and min returns the operand with the negative sign
#
# If the signs are the same then the exponent is used to select
# the result. This is exactly the ordering used in compare_total.
c = self.compare_total(other)
if c == -1:
ans = other
else:
ans = self
return ans._fix(context)
def min(self, other, context=None):
"""Returns the smaller value.
Like min(self, other) except if one is not a number, returns
NaN (and signals if one is sNaN). Also rounds.
"""
other = _convert_other(other, raiseit=True)
if context is None:
context = getcontext()
if self._is_special or other._is_special:
# If one operand is a quiet NaN and the other is number, then the
# number is always returned
sn = self._isnan()
on = other._isnan()
if sn or on:
if on == 1 and sn == 0:
return self._fix(context)
if sn == 1 and on == 0:
return other._fix(context)
return self._check_nans(other, context)
c = self.__cmp__(other)
if c == 0:
c = self.compare_total(other)
if c == -1:
ans = self
else:
ans = other
return ans._fix(context)
def _isinteger(self):
"""Returns whether self is an integer"""
if self._is_special:
return False
if self._exp >= 0:
return True
rest = self._int[self._exp:]
return rest == '0'*len(rest)
def _iseven(self):
"""Returns True if self is even. Assumes self is an integer."""
if not self or self._exp > 0:
return True
return self._int[-1+self._exp] in '02468'
def adjusted(self):
"""Return the adjusted exponent of self"""
try:
return self._exp + len(self._int) - 1
# If NaN or Infinity, self._exp is string
except TypeError:
return 0
def canonical(self, context=None):
"""Returns the same Decimal object.
As we do not have different encodings for the same number, the
received object already is in its canonical form.
"""
return self
def compare_signal(self, other, context=None):
"""Compares self to the other operand numerically.
It's pretty much like compare(), but all NaNs signal, with signaling
NaNs taking precedence over quiet NaNs.
"""
if context is None:
context = getcontext()
self_is_nan = self._isnan()
other_is_nan = other._isnan()
if self_is_nan == 2:
return context._raise_error(InvalidOperation, 'sNaN',
self)
if other_is_nan == 2:
return context._raise_error(InvalidOperation, 'sNaN',
other)
if self_is_nan:
return context._raise_error(InvalidOperation, 'NaN in compare_signal',
self)
if other_is_nan:
return context._raise_error(InvalidOperation, 'NaN in compare_signal',
other)
return self.compare(other, context=context)
def compare_total(self, other):
"""Compares self to other using the abstract representations.
This is not like the standard compare, which use their numerical
value. Note that a total ordering is defined for all possible abstract
representations.
"""
# if one is negative and the other is positive, it's easy
if self._sign and not other._sign:
return Dec_n1
if not self._sign and other._sign:
return Dec_p1
sign = self._sign
# let's handle both NaN types
self_nan = self._isnan()
other_nan = other._isnan()
if self_nan or other_nan:
if self_nan == other_nan:
if self._int < other._int:
if sign:
return Dec_p1
else:
return Dec_n1
if self._int > other._int:
if sign:
return Dec_n1
else:
return Dec_p1
return Dec_0
if sign:
if self_nan == 1:
return Dec_n1
if other_nan == 1:
return Dec_p1
if self_nan == 2:
return Dec_n1
if other_nan == 2:
return Dec_p1
else:
if self_nan == 1:
return Dec_p1
if other_nan == 1:
return Dec_n1
if self_nan == 2:
return Dec_p1
if other_nan == 2:
return Dec_n1
if self < other:
return Dec_n1
if self > other:
return Dec_p1
if self._exp < other._exp:
if sign:
return Dec_p1
else:
return Dec_n1
if self._exp > other._exp:
if sign:
return Dec_n1
else:
return Dec_p1
return Dec_0
def compare_total_mag(self, other):
"""Compares self to other using abstract repr., ignoring sign.
Like compare_total, but with operand's sign ignored and assumed to be 0.
"""
s = self.copy_abs()
o = other.copy_abs()
return s.compare_total(o)
def copy_abs(self):
"""Returns a copy with the sign set to 0. """
return _dec_from_triple(0, self._int, self._exp, self._is_special)
def copy_negate(self):
"""Returns a copy with the sign inverted."""
if self._sign:
return _dec_from_triple(0, self._int, self._exp, self._is_special)
else:
return _dec_from_triple(1, self._int, self._exp, self._is_special)
def copy_sign(self, other):
"""Returns self with the sign of other."""
return _dec_from_triple(other._sign, self._int,
self._exp, self._is_special)
def exp(self, context=None):
"""Returns e ** self."""
if context is None:
context = getcontext()
# exp(NaN) = NaN
ans = self._check_nans(context=context)
if ans:
return ans
# exp(-Infinity) = 0
if self._isinfinity() == -1:
return Dec_0
# exp(0) = 1
if not self:
return Dec_p1
# exp(Infinity) = Infinity
if self._isinfinity() == 1:
return Decimal(self)
# the result is now guaranteed to be inexact (the true
# mathematical result is transcendental). There's no need to
# raise Rounded and Inexact here---they'll always be raised as
# a result of the call to _fix.
p = context.prec
adj = self.adjusted()
# we only need to do any computation for quite a small range
# of adjusted exponents---for example, -29 <= adj <= 10 for
# the default context. For smaller exponent the result is
# indistinguishable from 1 at the given precision, while for
# larger exponent the result either overflows or underflows.
if self._sign == 0 and adj > len(str((context.Emax+1)*3)):
# overflow
ans = _dec_from_triple(0, '1', context.Emax+1)
elif self._sign == 1 and adj > len(str((-context.Etiny()+1)*3)):
# underflow to 0
ans = _dec_from_triple(0, '1', context.Etiny()-1)
elif self._sign == 0 and adj < -p:
# p+1 digits; final round will raise correct flags
ans = _dec_from_triple(0, '1' + '0'*(p-1) + '1', -p)
elif self._sign == 1 and adj < -p-1:
# p+1 digits; final round will raise correct flags
ans = _dec_from_triple(0, '9'*(p+1), -p-1)
# general case
else:
op = _WorkRep(self)
c, e = op.int, op.exp
if op.sign == 1:
c = -c
# compute correctly rounded result: increase precision by
# 3 digits at a time until we get an unambiguously
# roundable result
extra = 3
while True:
coeff, exp = _dexp(c, e, p+extra)
if coeff % (5*10**(len(str(coeff))-p-1)):
break
extra += 3
ans = _dec_from_triple(0, str(coeff), exp)
# at this stage, ans should round correctly with *any*
# rounding mode, not just with ROUND_HALF_EVEN
context = context._shallow_copy()
rounding = context._set_rounding(ROUND_HALF_EVEN)
ans = ans._fix(context)
context.rounding = rounding
return ans
def is_canonical(self):
"""Return True if self is canonical; otherwise return False.
Currently, the encoding of a Decimal instance is always
canonical, so this method returns True for any Decimal.
"""
return True
def is_finite(self):
"""Return True if self is finite; otherwise return False.
A Decimal instance is considered finite if it is neither
infinite nor a NaN.
"""
return not self._is_special
def is_infinite(self):
"""Return True if self is infinite; otherwise return False."""
return self._exp == 'F'
def is_nan(self):
"""Return True if self is a qNaN or sNaN; otherwise return False."""
return self._exp in ('n', 'N')
def is_normal(self, context=None):
"""Return True if self is a normal number; otherwise return False."""
if self._is_special or not self:
return False
if context is None:
context = getcontext()
return context.Emin <= self.adjusted() <= context.Emax
def is_qnan(self):
"""Return True if self is a quiet NaN; otherwise return False."""
return self._exp == 'n'
def is_signed(self):
"""Return True if self is negative; otherwise return False."""
return self._sign == 1
def is_snan(self):
"""Return True if self is a signaling NaN; otherwise return False."""
return self._exp == 'N'
def is_subnormal(self, context=None):
"""Return True if self is subnormal; otherwise return False."""
if self._is_special or not self:
return False
if context is None:
context = getcontext()
return self.adjusted() < context.Emin
def is_zero(self):
"""Return True if self is a zero; otherwise return False."""
return not self._is_special and self._int == '0'
def _ln_exp_bound(self):
"""Compute a lower bound for the adjusted exponent of self.ln().
In other words, compute r such that self.ln() >= 10**r. Assumes
that self is finite and positive and that self != 1.
"""
# for 0.1 <= x <= 10 we use the inequalities 1-1/x <= ln(x) <= x-1
adj = self._exp + len(self._int) - 1
if adj >= 1:
# argument >= 10; we use 23/10 = 2.3 as a lower bound for ln(10)
return len(str(adj*23//10)) - 1
if adj <= -2:
# argument <= 0.1
return len(str((-1-adj)*23//10)) - 1
op = _WorkRep(self)
c, e = op.int, op.exp
if adj == 0:
# 1 < self < 10
num = str(c-10**-e)
den = str(c)
return len(num) - len(den) - (num < den)
# adj == -1, 0.1 <= self < 1
return e + len(str(10**-e - c)) - 1
def ln(self, context=None):
"""Returns the natural (base e) logarithm of self."""
if context is None:
context = getcontext()
# ln(NaN) = NaN
ans = self._check_nans(context=context)
if ans:
return ans
# ln(0.0) == -Infinity
if not self:
return negInf
# ln(Infinity) = Infinity
if self._isinfinity() == 1:
return Inf
# ln(1.0) == 0.0
if self == Dec_p1:
return Dec_0
# ln(negative) raises InvalidOperation
if self._sign == 1:
return context._raise_error(InvalidOperation,
'ln of a negative value')
# result is irrational, so necessarily inexact
op = _WorkRep(self)
c, e = op.int, op.exp
p = context.prec
# correctly rounded result: repeatedly increase precision by 3
# until we get an unambiguously roundable result
places = p - self._ln_exp_bound() + 2 # at least p+3 places
while True:
coeff = _dlog(c, e, places)
# assert len(str(abs(coeff)))-p >= 1
if coeff % (5*10**(len(str(abs(coeff)))-p-1)):
break
places += 3
ans = _dec_from_triple(int(coeff<0), str(abs(coeff)), -places)
context = context._shallow_copy()
rounding = context._set_rounding(ROUND_HALF_EVEN)
ans = ans._fix(context)
context.rounding = rounding
return ans
def _log10_exp_bound(self):
"""Compute a lower bound for the adjusted exponent of self.log10().
In other words, find r such that self.log10() >= 10**r.
Assumes that self is finite and positive and that self != 1.
"""
# For x >= 10 or x < 0.1 we only need a bound on the integer
# part of log10(self), and this comes directly from the
# exponent of x. For 0.1 <= x <= 10 we use the inequalities
# 1-1/x <= log(x) <= x-1. If x > 1 we have |log10(x)| >
# (1-1/x)/2.31 > 0. If x < 1 then |log10(x)| > (1-x)/2.31 > 0
adj = self._exp + len(self._int) - 1
if adj >= 1:
# self >= 10
return len(str(adj))-1
if adj <= -2:
# self < 0.1
return len(str(-1-adj))-1
op = _WorkRep(self)
c, e = op.int, op.exp
if adj == 0:
# 1 < self < 10
num = str(c-10**-e)
den = str(231*c)
return len(num) - len(den) - (num < den) + 2
# adj == -1, 0.1 <= self < 1
num = str(10**-e-c)
return len(num) + e - (num < "231") - 1
def log10(self, context=None):
"""Returns the base 10 logarithm of self."""
if context is None:
context = getcontext()
# log10(NaN) = NaN
ans = self._check_nans(context=context)
if ans:
return ans
# log10(0.0) == -Infinity
if not self:
return negInf
# log10(Infinity) = Infinity
if self._isinfinity() == 1:
return Inf
# log10(negative or -Infinity) raises InvalidOperation
if self._sign == 1:
return context._raise_error(InvalidOperation,
'log10 of a negative value')
# log10(10**n) = n
if self._int[0] == '1' and self._int[1:] == '0'*(len(self._int) - 1):
# answer may need rounding
ans = Decimal(self._exp + len(self._int) - 1)
else:
# result is irrational, so necessarily inexact
op = _WorkRep(self)
c, e = op.int, op.exp
p = context.prec
# correctly rounded result: repeatedly increase precision
# until result is unambiguously roundable
places = p-self._log10_exp_bound()+2
while True:
coeff = _dlog10(c, e, places)
# assert len(str(abs(coeff)))-p >= 1
if coeff % (5*10**(len(str(abs(coeff)))-p-1)):
break
places += 3
ans = _dec_from_triple(int(coeff<0), str(abs(coeff)), -places)
context = context._shallow_copy()
rounding = context._set_rounding(ROUND_HALF_EVEN)
ans = ans._fix(context)
context.rounding = rounding
return ans
def logb(self, context=None):
""" Returns the exponent of the magnitude of self's MSD.
The result is the integer which is the exponent of the magnitude
of the most significant digit of self (as though it were truncated
to a single digit while maintaining the value of that digit and
without limiting the resulting exponent).
"""
# logb(NaN) = NaN
ans = self._check_nans(context=context)
if ans:
return ans
if context is None:
context = getcontext()
# logb(+/-Inf) = +Inf
if self._isinfinity():
return Inf
# logb(0) = -Inf, DivisionByZero
if not self:
return context._raise_error(DivisionByZero, 'logb(0)', 1)
# otherwise, simply return the adjusted exponent of self, as a
# Decimal. Note that no attempt is made to fit the result
# into the current context.
return Decimal(self.adjusted())
def _islogical(self):
"""Return True if self is a logical operand.
For being logical, it must be a finite numbers with a sign of 0,
an exponent of 0, and a coefficient whose digits must all be
either 0 or 1.
"""
if self._sign != 0 or self._exp != 0:
return False
for dig in self._int:
if dig not in '01':
return False
return True
def _fill_logical(self, context, opa, opb):
dif = context.prec - len(opa)
if dif > 0:
opa = '0'*dif + opa
elif dif < 0:
opa = opa[-context.prec:]
dif = context.prec - len(opb)
if dif > 0:
opb = '0'*dif + opb
elif dif < 0:
opb = opb[-context.prec:]
return opa, opb
def logical_and(self, other, context=None):
"""Applies an 'and' operation between self and other's digits."""
if context is None:
context = getcontext()
if not self._islogical() or not other._islogical():
return context._raise_error(InvalidOperation)
# fill to context.prec
(opa, opb) = self._fill_logical(context, self._int, other._int)
# make the operation, and clean starting zeroes
result = "".join([str(int(a)&int(b)) for a,b in zip(opa,opb)])
return _dec_from_triple(0, result.lstrip('0') or '0', 0)
def logical_invert(self, context=None):
"""Invert all its digits."""
if context is None:
context = getcontext()
return self.logical_xor(_dec_from_triple(0,'1'*context.prec,0),
context)
def logical_or(self, other, context=None):
"""Applies an 'or' operation between self and other's digits."""
if context is None:
context = getcontext()
if not self._islogical() or not other._islogical():
return context._raise_error(InvalidOperation)
# fill to context.prec
(opa, opb) = self._fill_logical(context, self._int, other._int)
# make the operation, and clean starting zeroes
result = "".join(str(int(a)|int(b)) for a,b in zip(opa,opb))
return _dec_from_triple(0, result.lstrip('0') or '0', 0)
def logical_xor(self, other, context=None):
"""Applies an 'xor' operation between self and other's digits."""
if context is None:
context = getcontext()
if not self._islogical() or not other._islogical():
return context._raise_error(InvalidOperation)
# fill to context.prec
(opa, opb) = self._fill_logical(context, self._int, other._int)
# make the operation, and clean starting zeroes
result = "".join(str(int(a)^int(b)) for a,b in zip(opa,opb))
return _dec_from_triple(0, result.lstrip('0') or '0', 0)
def max_mag(self, other, context=None):
"""Compares the values numerically with their sign ignored."""
other = _convert_other(other, raiseit=True)
if context is None:
context = getcontext()
if self._is_special or other._is_special:
# If one operand is a quiet NaN and the other is number, then the
# number is always returned
sn = self._isnan()
on = other._isnan()
if sn or on:
if on == 1 and sn == 0:
return self._fix(context)
if sn == 1 and on == 0:
return other._fix(context)
return self._check_nans(other, context)
c = self.copy_abs().__cmp__(other.copy_abs())
if c == 0:
c = self.compare_total(other)
if c == -1:
ans = other
else:
ans = self
return ans._fix(context)
def min_mag(self, other, context=None):
"""Compares the values numerically with their sign ignored."""
other = _convert_other(other, raiseit=True)
if context is None:
context = getcontext()
if self._is_special or other._is_special:
# If one operand is a quiet NaN and the other is number, then the
# number is always returned
sn = self._isnan()
on = other._isnan()
if sn or on:
if on == 1 and sn == 0:
return self._fix(context)
if sn == 1 and on == 0:
return other._fix(context)
return self._check_nans(other, context)
c = self.copy_abs().__cmp__(other.copy_abs())
if c == 0:
c = self.compare_total(other)
if c == -1:
ans = self
else:
ans = other
return ans._fix(context)
def next_minus(self, context=None):
"""Returns the largest representable number smaller than itself."""
if context is None:
context = getcontext()
ans = self._check_nans(context=context)
if ans:
return ans
if self._isinfinity() == -1:
return negInf
if self._isinfinity() == 1:
return _dec_from_triple(0, '9'*context.prec, context.Etop())
context = context.copy()
context._set_rounding(ROUND_FLOOR)
context._ignore_all_flags()
new_self = self._fix(context)
if new_self != self:
return new_self
return self.__sub__(_dec_from_triple(0, '1', context.Etiny()-1),
context)
def next_plus(self, context=None):
"""Returns the smallest representable number larger than itself."""
if context is None:
context = getcontext()
ans = self._check_nans(context=context)
if ans:
return ans
if self._isinfinity() == 1:
return Inf
if self._isinfinity() == -1:
return _dec_from_triple(1, '9'*context.prec, context.Etop())
context = context.copy()
context._set_rounding(ROUND_CEILING)
context._ignore_all_flags()
new_self = self._fix(context)
if new_self != self:
return new_self
return self.__add__(_dec_from_triple(0, '1', context.Etiny()-1),
context)
def next_toward(self, other, context=None):
"""Returns the number closest to self, in the direction towards other.
The result is the closest representable number to self
(excluding self) that is in the direction towards other,
unless both have the same value. If the two operands are
numerically equal, then the result is a copy of self with the
sign set to be the same as the sign of other.
"""
other = _convert_other(other, raiseit=True)
if context is None:
context = getcontext()
ans = self._check_nans(other, context)
if ans:
return ans
comparison = self.__cmp__(other)
if comparison == 0:
return self.copy_sign(other)
if comparison == -1:
ans = self.next_plus(context)
else: # comparison == 1
ans = self.next_minus(context)
# decide which flags to raise using value of ans
if ans._isinfinity():
context._raise_error(Overflow,
'Infinite result from next_toward',
ans._sign)
context._raise_error(Rounded)
context._raise_error(Inexact)
elif ans.adjusted() < context.Emin:
context._raise_error(Underflow)
context._raise_error(Subnormal)
context._raise_error(Rounded)
context._raise_error(Inexact)
# if precision == 1 then we don't raise Clamped for a
# result 0E-Etiny.
if not ans:
context._raise_error(Clamped)
return ans
def number_class(self, context=None):
"""Returns an indication of the class of self.
The class is one of the following strings:
sNaN
NaN
-Infinity
-Normal
-Subnormal
-Zero
+Zero
+Subnormal
+Normal
+Infinity
"""
if self.is_snan():
return "sNaN"
if self.is_qnan():
return "NaN"
inf = self._isinfinity()
if inf == 1:
return "+Infinity"
if inf == -1:
return "-Infinity"
if self.is_zero():
if self._sign:
return "-Zero"
else:
return "+Zero"
if context is None:
context = getcontext()
if self.is_subnormal(context=context):
if self._sign:
return "-Subnormal"
else:
return "+Subnormal"
# just a normal, regular, boring number, :)
if self._sign:
return "-Normal"
else:
return "+Normal"
def radix(self):
"""Just returns 10, as this is Decimal, :)"""
return Decimal(10)
def rotate(self, other, context=None):
"""Returns a rotated copy of self, value-of-other times."""
if context is None:
context = getcontext()
ans = self._check_nans(other, context)
if ans:
return ans
if other._exp != 0:
return context._raise_error(InvalidOperation)
if not (-context.prec <= int(other) <= context.prec):
return context._raise_error(InvalidOperation)
if self._isinfinity():
return Decimal(self)
# get values, pad if necessary
torot = int(other)
rotdig = self._int
topad = context.prec - len(rotdig)
if topad:
rotdig = '0'*topad + rotdig
# let's rotate!
rotated = rotdig[torot:] + rotdig[:torot]
return _dec_from_triple(self._sign,
rotated.lstrip('0') or '0', self._exp)
def scaleb (self, other, context=None):
"""Returns self operand after adding the second value to its exp."""
if context is None:
context = getcontext()
ans = self._check_nans(other, context)
if ans:
return ans
if other._exp != 0:
return context._raise_error(InvalidOperation)
liminf = -2 * (context.Emax + context.prec)
limsup = 2 * (context.Emax + context.prec)
if not (liminf <= int(other) <= limsup):
return context._raise_error(InvalidOperation)
if self._isinfinity():
return Decimal(self)
d = _dec_from_triple(self._sign, self._int, self._exp + int(other))
d = d._fix(context)
return d
def shift(self, other, context=None):
"""Returns a shifted copy of self, value-of-other times."""
if context is None:
context = getcontext()
ans = self._check_nans(other, context)
if ans:
return ans
if other._exp != 0:
return context._raise_error(InvalidOperation)
if not (-context.prec <= int(other) <= context.prec):
return context._raise_error(InvalidOperation)
if self._isinfinity():
return Decimal(self)
# get values, pad if necessary
torot = int(other)
if not torot:
return Decimal(self)
rotdig = self._int
topad = context.prec - len(rotdig)
if topad:
rotdig = '0'*topad + rotdig
# let's shift!
if torot < 0:
rotated = rotdig[:torot]
else:
rotated = rotdig + '0'*torot
rotated = rotated[-context.prec:]
return _dec_from_triple(self._sign,
rotated.lstrip('0') or '0', self._exp)
# Support for pickling, copy, and deepcopy
def __reduce__(self):
return (self.__class__, (str(self),))
def __copy__(self):
if type(self) == Decimal:
return self # I'm immutable; therefore I am my own clone
return self.__class__(str(self))
def __deepcopy__(self, memo):
if type(self) == Decimal:
return self # My components are also immutable
return self.__class__(str(self))
# support for Jython __tojava__:
def __tojava__(self, java_class):
from java.lang import Object
from java.math import BigDecimal
from org.python.core import Py
if java_class not in (BigDecimal, Object):
return Py.NoConversion
return BigDecimal(str(self))
def _dec_from_triple(sign, coefficient, exponent, special=False):
"""Create a decimal instance directly, without any validation,
normalization (e.g. removal of leading zeros) or argument
conversion.
This function is for *internal use only*.
"""
self = object.__new__(Decimal)
self._sign = sign
self._int = coefficient
self._exp = exponent
self._is_special = special
return self
##### Context class #######################################################
# get rounding method function:
rounding_functions = [name for name in Decimal.__dict__.keys()
if name.startswith('_round_')]
for name in rounding_functions:
# name is like _round_half_even, goes to the global ROUND_HALF_EVEN value.
globalname = name[1:].upper()
val = globals()[globalname]
Decimal._pick_rounding_function[val] = name
del name, val, globalname, rounding_functions
class _ContextManager(object):
"""Context manager class to support localcontext().
Sets a copy of the supplied context in __enter__() and restores
the previous decimal context in __exit__()
"""
def __init__(self, new_context):
self.new_context = new_context.copy()
def __enter__(self):
self.saved_context = getcontext()
setcontext(self.new_context)
return self.new_context
def __exit__(self, t, v, tb):
setcontext(self.saved_context)
class Context(object):
"""Contains the context for a Decimal instance.
Contains:
prec - precision (for use in rounding, division, square roots..)
rounding - rounding type (how you round)
traps - If traps[exception] = 1, then the exception is
raised when it is caused. Otherwise, a value is
substituted in.
flags - When an exception is caused, flags[exception] is incremented.
(Whether or not the trap_enabler is set)
Should be reset by user of Decimal instance.
Emin - Minimum exponent
Emax - Maximum exponent
capitals - If 1, 1*10^1 is printed as 1E+1.
If 0, printed as 1e1
_clamp - If 1, change exponents if too high (Default 0)
"""
def __init__(self, prec=None, rounding=None,
traps=None, flags=None,
Emin=None, Emax=None,
capitals=None, _clamp=0,
_ignored_flags=None):
if flags is None:
flags = []
if _ignored_flags is None:
_ignored_flags = []
if not isinstance(flags, dict):
flags = dict([(s,s in flags) for s in _signals])
del s
if traps is not None and not isinstance(traps, dict):
traps = dict([(s,s in traps) for s in _signals])
del s
for name, val in locals().items():
if val is None:
setattr(self, name, _copy.copy(getattr(DefaultContext, name)))
else:
setattr(self, name, val)
del self.self
def __repr__(self):
"""Show the current context."""
s = []
s.append('Context(prec=%(prec)d, rounding=%(rounding)s, '
'Emin=%(Emin)d, Emax=%(Emax)d, capitals=%(capitals)d'
% vars(self))
names = [f.__name__ for f, v in self.flags.items() if v]
s.append('flags=[' + ', '.join(names) + ']')
names = [t.__name__ for t, v in self.traps.items() if v]
s.append('traps=[' + ', '.join(names) + ']')
return ', '.join(s) + ')'
def clear_flags(self):
"""Reset all flags to zero"""
for flag in self.flags:
self.flags[flag] = 0
def _shallow_copy(self):
"""Returns a shallow copy from self."""
nc = Context(self.prec, self.rounding, self.traps,
self.flags, self.Emin, self.Emax,
self.capitals, self._clamp, self._ignored_flags)
return nc
def copy(self):
"""Returns a deep copy from self."""
nc = Context(self.prec, self.rounding, self.traps.copy(),
self.flags.copy(), self.Emin, self.Emax,
self.capitals, self._clamp, self._ignored_flags)
return nc
__copy__ = copy
def _raise_error(self, condition, explanation = None, *args):
"""Handles an error
If the flag is in _ignored_flags, returns the default response.
Otherwise, it increments the flag, then, if the corresponding
trap_enabler is set, it reaises the exception. Otherwise, it returns
the default value after incrementing the flag.
"""
error = _condition_map.get(condition, condition)
if error in self._ignored_flags:
# Don't touch the flag
return error().handle(self, *args)
self.flags[error] += 1
if not self.traps[error]:
# The errors define how to handle themselves.
return condition().handle(self, *args)
# Errors should only be risked on copies of the context
# self._ignored_flags = []
raise error, explanation
def _ignore_all_flags(self):
"""Ignore all flags, if they are raised"""
return self._ignore_flags(*_signals)
def _ignore_flags(self, *flags):
"""Ignore the flags, if they are raised"""
# Do not mutate-- This way, copies of a context leave the original
# alone.
self._ignored_flags = (self._ignored_flags + list(flags))
return list(flags)
def _regard_flags(self, *flags):
"""Stop ignoring the flags, if they are raised"""
if flags and isinstance(flags[0], (tuple,list)):
flags = flags[0]
for flag in flags:
self._ignored_flags.remove(flag)
def __hash__(self):
"""A Context cannot be hashed."""
# We inherit object.__hash__, so we must deny this explicitly
raise TypeError("Cannot hash a Context.")
def Etiny(self):
"""Returns Etiny (= Emin - prec + 1)"""
return int(self.Emin - self.prec + 1)
def Etop(self):
"""Returns maximum exponent (= Emax - prec + 1)"""
return int(self.Emax - self.prec + 1)
def _set_rounding(self, type):
"""Sets the rounding type.
Sets the rounding type, and returns the current (previous)
rounding type. Often used like:
context = context.copy()
# so you don't change the calling context
# if an error occurs in the middle.
rounding = context._set_rounding(ROUND_UP)
val = self.__sub__(other, context=context)
context._set_rounding(rounding)
This will make it round up for that operation.
"""
rounding = self.rounding
self.rounding= type
return rounding
def create_decimal(self, num='0'):
"""Creates a new Decimal instance but using self as context."""
d = Decimal(num, context=self)
if d._isnan() and len(d._int) > self.prec - self._clamp:
return self._raise_error(ConversionSyntax,
"diagnostic info too long in NaN")
return d._fix(self)
# Methods
def abs(self, a):
"""Returns the absolute value of the operand.
If the operand is negative, the result is the same as using the minus
operation on the operand. Otherwise, the result is the same as using
the plus operation on the operand.
>>> ExtendedContext.abs(Decimal('2.1'))
Decimal("2.1")
>>> ExtendedContext.abs(Decimal('-100'))
Decimal("100")
>>> ExtendedContext.abs(Decimal('101.5'))
Decimal("101.5")
>>> ExtendedContext.abs(Decimal('-101.5'))
Decimal("101.5")
"""
return a.__abs__(context=self)
def add(self, a, b):
"""Return the sum of the two operands.
>>> ExtendedContext.add(Decimal('12'), Decimal('7.00'))
Decimal("19.00")
>>> ExtendedContext.add(Decimal('1E+2'), Decimal('1.01E+4'))
Decimal("1.02E+4")
"""
return a.__add__(b, context=self)
def _apply(self, a):
return str(a._fix(self))
def canonical(self, a):
"""Returns the same Decimal object.
As we do not have different encodings for the same number, the
received object already is in its canonical form.
>>> ExtendedContext.canonical(Decimal('2.50'))
Decimal("2.50")
"""
return a.canonical(context=self)
def compare(self, a, b):
"""Compares values numerically.
If the signs of the operands differ, a value representing each operand
('-1' if the operand is less than zero, '0' if the operand is zero or
negative zero, or '1' if the operand is greater than zero) is used in
place of that operand for the comparison instead of the actual
operand.
The comparison is then effected by subtracting the second operand from
the first and then returning a value according to the result of the
subtraction: '-1' if the result is less than zero, '0' if the result is
zero or negative zero, or '1' if the result is greater than zero.
>>> ExtendedContext.compare(Decimal('2.1'), Decimal('3'))
Decimal("-1")
>>> ExtendedContext.compare(Decimal('2.1'), Decimal('2.1'))
Decimal("0")
>>> ExtendedContext.compare(Decimal('2.1'), Decimal('2.10'))
Decimal("0")
>>> ExtendedContext.compare(Decimal('3'), Decimal('2.1'))
Decimal("1")
>>> ExtendedContext.compare(Decimal('2.1'), Decimal('-3'))
Decimal("1")
>>> ExtendedContext.compare(Decimal('-3'), Decimal('2.1'))
Decimal("-1")
"""
return a.compare(b, context=self)
def compare_signal(self, a, b):
"""Compares the values of the two operands numerically.
It's pretty much like compare(), but all NaNs signal, with signaling
NaNs taking precedence over quiet NaNs.
>>> c = ExtendedContext
>>> c.compare_signal(Decimal('2.1'), Decimal('3'))
Decimal("-1")
>>> c.compare_signal(Decimal('2.1'), Decimal('2.1'))
Decimal("0")
>>> c.flags[InvalidOperation] = 0
>>> print c.flags[InvalidOperation]
0
>>> c.compare_signal(Decimal('NaN'), Decimal('2.1'))
Decimal("NaN")
>>> print c.flags[InvalidOperation]
1
>>> c.flags[InvalidOperation] = 0
>>> print c.flags[InvalidOperation]
0
>>> c.compare_signal(Decimal('sNaN'), Decimal('2.1'))
Decimal("NaN")
>>> print c.flags[InvalidOperation]
1
"""
return a.compare_signal(b, context=self)
def compare_total(self, a, b):
"""Compares two operands using their abstract representation.
This is not like the standard compare, which use their numerical
value. Note that a total ordering is defined for all possible abstract
representations.
>>> ExtendedContext.compare_total(Decimal('12.73'), Decimal('127.9'))
Decimal("-1")
>>> ExtendedContext.compare_total(Decimal('-127'), Decimal('12'))
Decimal("-1")
>>> ExtendedContext.compare_total(Decimal('12.30'), Decimal('12.3'))
Decimal("-1")
>>> ExtendedContext.compare_total(Decimal('12.30'), Decimal('12.30'))
Decimal("0")
>>> ExtendedContext.compare_total(Decimal('12.3'), Decimal('12.300'))
Decimal("1")
>>> ExtendedContext.compare_total(Decimal('12.3'), Decimal('NaN'))
Decimal("-1")
"""
return a.compare_total(b)
def compare_total_mag(self, a, b):
"""Compares two operands using their abstract representation ignoring sign.
Like compare_total, but with operand's sign ignored and assumed to be 0.
"""
return a.compare_total_mag(b)
def copy_abs(self, a):
"""Returns a copy of the operand with the sign set to 0.
>>> ExtendedContext.copy_abs(Decimal('2.1'))
Decimal("2.1")
>>> ExtendedContext.copy_abs(Decimal('-100'))
Decimal("100")
"""
return a.copy_abs()
def copy_decimal(self, a):
"""Returns a copy of the decimal objet.
>>> ExtendedContext.copy_decimal(Decimal('2.1'))
Decimal("2.1")
>>> ExtendedContext.copy_decimal(Decimal('-1.00'))
Decimal("-1.00")
"""
return Decimal(a)
def copy_negate(self, a):
"""Returns a copy of the operand with the sign inverted.
>>> ExtendedContext.copy_negate(Decimal('101.5'))
Decimal("-101.5")
>>> ExtendedContext.copy_negate(Decimal('-101.5'))
Decimal("101.5")
"""
return a.copy_negate()
def copy_sign(self, a, b):
"""Copies the second operand's sign to the first one.
In detail, it returns a copy of the first operand with the sign
equal to the sign of the second operand.
>>> ExtendedContext.copy_sign(Decimal( '1.50'), Decimal('7.33'))
Decimal("1.50")
>>> ExtendedContext.copy_sign(Decimal('-1.50'), Decimal('7.33'))
Decimal("1.50")
>>> ExtendedContext.copy_sign(Decimal( '1.50'), Decimal('-7.33'))
Decimal("-1.50")
>>> ExtendedContext.copy_sign(Decimal('-1.50'), Decimal('-7.33'))
Decimal("-1.50")
"""
return a.copy_sign(b)
def divide(self, a, b):
"""Decimal division in a specified context.
>>> ExtendedContext.divide(Decimal('1'), Decimal('3'))
Decimal("0.333333333")
>>> ExtendedContext.divide(Decimal('2'), Decimal('3'))
Decimal("0.666666667")
>>> ExtendedContext.divide(Decimal('5'), Decimal('2'))
Decimal("2.5")
>>> ExtendedContext.divide(Decimal('1'), Decimal('10'))
Decimal("0.1")
>>> ExtendedContext.divide(Decimal('12'), Decimal('12'))
Decimal("1")
>>> ExtendedContext.divide(Decimal('8.00'), Decimal('2'))
Decimal("4.00")
>>> ExtendedContext.divide(Decimal('2.400'), Decimal('2.0'))
Decimal("1.20")
>>> ExtendedContext.divide(Decimal('1000'), Decimal('100'))
Decimal("10")
>>> ExtendedContext.divide(Decimal('1000'), Decimal('1'))
Decimal("1000")
>>> ExtendedContext.divide(Decimal('2.40E+6'), Decimal('2'))
Decimal("1.20E+6")
"""
return a.__div__(b, context=self)
def divide_int(self, a, b):
"""Divides two numbers and returns the integer part of the result.
>>> ExtendedContext.divide_int(Decimal('2'), Decimal('3'))
Decimal("0")
>>> ExtendedContext.divide_int(Decimal('10'), Decimal('3'))
Decimal("3")
>>> ExtendedContext.divide_int(Decimal('1'), Decimal('0.3'))
Decimal("3")
"""
return a.__floordiv__(b, context=self)
def divmod(self, a, b):
return a.__divmod__(b, context=self)
def exp(self, a):
"""Returns e ** a.
>>> c = ExtendedContext.copy()
>>> c.Emin = -999
>>> c.Emax = 999
>>> c.exp(Decimal('-Infinity'))
Decimal("0")
>>> c.exp(Decimal('-1'))
Decimal("0.367879441")
>>> c.exp(Decimal('0'))
Decimal("1")
>>> c.exp(Decimal('1'))
Decimal("2.71828183")
>>> c.exp(Decimal('0.693147181'))
Decimal("2.00000000")
>>> c.exp(Decimal('+Infinity'))
Decimal("Infinity")
"""
return a.exp(context=self)
def fma(self, a, b, c):
"""Returns a multiplied by b, plus c.
The first two operands are multiplied together, using multiply,
the third operand is then added to the result of that
multiplication, using add, all with only one final rounding.
>>> ExtendedContext.fma(Decimal('3'), Decimal('5'), Decimal('7'))
Decimal("22")
>>> ExtendedContext.fma(Decimal('3'), Decimal('-5'), Decimal('7'))
Decimal("-8")
>>> ExtendedContext.fma(Decimal('888565290'), Decimal('1557.96930'), Decimal('-86087.7578'))
Decimal("1.38435736E+12")
"""
return a.fma(b, c, context=self)
def is_canonical(self, a):
"""Return True if the operand is canonical; otherwise return False.
Currently, the encoding of a Decimal instance is always
canonical, so this method returns True for any Decimal.
>>> ExtendedContext.is_canonical(Decimal('2.50'))
True
"""
return a.is_canonical()
def is_finite(self, a):
"""Return True if the operand is finite; otherwise return False.
A Decimal instance is considered finite if it is neither
infinite nor a NaN.
>>> ExtendedContext.is_finite(Decimal('2.50'))
True
>>> ExtendedContext.is_finite(Decimal('-0.3'))
True
>>> ExtendedContext.is_finite(Decimal('0'))
True
>>> ExtendedContext.is_finite(Decimal('Inf'))
False
>>> ExtendedContext.is_finite(Decimal('NaN'))
False
"""
return a.is_finite()
def is_infinite(self, a):
"""Return True if the operand is infinite; otherwise return False.
>>> ExtendedContext.is_infinite(Decimal('2.50'))
False
>>> ExtendedContext.is_infinite(Decimal('-Inf'))
True
>>> ExtendedContext.is_infinite(Decimal('NaN'))
False
"""
return a.is_infinite()
def is_nan(self, a):
"""Return True if the operand is a qNaN or sNaN;
otherwise return False.
>>> ExtendedContext.is_nan(Decimal('2.50'))
False
>>> ExtendedContext.is_nan(Decimal('NaN'))
True
>>> ExtendedContext.is_nan(Decimal('-sNaN'))
True
"""
return a.is_nan()
def is_normal(self, a):
"""Return True if the operand is a normal number;
otherwise return False.
>>> c = ExtendedContext.copy()
>>> c.Emin = -999
>>> c.Emax = 999
>>> c.is_normal(Decimal('2.50'))
True
>>> c.is_normal(Decimal('0.1E-999'))
False
>>> c.is_normal(Decimal('0.00'))
False
>>> c.is_normal(Decimal('-Inf'))
False
>>> c.is_normal(Decimal('NaN'))
False
"""
return a.is_normal(context=self)
def is_qnan(self, a):
"""Return True if the operand is a quiet NaN; otherwise return False.
>>> ExtendedContext.is_qnan(Decimal('2.50'))
False
>>> ExtendedContext.is_qnan(Decimal('NaN'))
True
>>> ExtendedContext.is_qnan(Decimal('sNaN'))
False
"""
return a.is_qnan()
def is_signed(self, a):
"""Return True if the operand is negative; otherwise return False.
>>> ExtendedContext.is_signed(Decimal('2.50'))
False
>>> ExtendedContext.is_signed(Decimal('-12'))
True
>>> ExtendedContext.is_signed(Decimal('-0'))
True
"""
return a.is_signed()
def is_snan(self, a):
"""Return True if the operand is a signaling NaN;
otherwise return False.
>>> ExtendedContext.is_snan(Decimal('2.50'))
False
>>> ExtendedContext.is_snan(Decimal('NaN'))
False
>>> ExtendedContext.is_snan(Decimal('sNaN'))
True
"""
return a.is_snan()
def is_subnormal(self, a):
"""Return True if the operand is subnormal; otherwise return False.
>>> c = ExtendedContext.copy()
>>> c.Emin = -999
>>> c.Emax = 999
>>> c.is_subnormal(Decimal('2.50'))
False
>>> c.is_subnormal(Decimal('0.1E-999'))
True
>>> c.is_subnormal(Decimal('0.00'))
False
>>> c.is_subnormal(Decimal('-Inf'))
False
>>> c.is_subnormal(Decimal('NaN'))
False
"""
return a.is_subnormal(context=self)
def is_zero(self, a):
"""Return True if the operand is a zero; otherwise return False.
>>> ExtendedContext.is_zero(Decimal('0'))
True
>>> ExtendedContext.is_zero(Decimal('2.50'))
False
>>> ExtendedContext.is_zero(Decimal('-0E+2'))
True
"""
return a.is_zero()
def ln(self, a):
"""Returns the natural (base e) logarithm of the operand.
>>> c = ExtendedContext.copy()
>>> c.Emin = -999
>>> c.Emax = 999
>>> c.ln(Decimal('0'))
Decimal("-Infinity")
>>> c.ln(Decimal('1.000'))
Decimal("0")
>>> c.ln(Decimal('2.71828183'))
Decimal("1.00000000")
>>> c.ln(Decimal('10'))
Decimal("2.30258509")
>>> c.ln(Decimal('+Infinity'))
Decimal("Infinity")
"""
return a.ln(context=self)
def log10(self, a):
"""Returns the base 10 logarithm of the operand.
>>> c = ExtendedContext.copy()
>>> c.Emin = -999
>>> c.Emax = 999
>>> c.log10(Decimal('0'))
Decimal("-Infinity")
>>> c.log10(Decimal('0.001'))
Decimal("-3")
>>> c.log10(Decimal('1.000'))
Decimal("0")
>>> c.log10(Decimal('2'))
Decimal("0.301029996")
>>> c.log10(Decimal('10'))
Decimal("1")
>>> c.log10(Decimal('70'))
Decimal("1.84509804")
>>> c.log10(Decimal('+Infinity'))
Decimal("Infinity")
"""
return a.log10(context=self)
def logb(self, a):
""" Returns the exponent of the magnitude of the operand's MSD.
The result is the integer which is the exponent of the magnitude
of the most significant digit of the operand (as though the
operand were truncated to a single digit while maintaining the
value of that digit and without limiting the resulting exponent).
>>> ExtendedContext.logb(Decimal('250'))
Decimal("2")
>>> ExtendedContext.logb(Decimal('2.50'))
Decimal("0")
>>> ExtendedContext.logb(Decimal('0.03'))
Decimal("-2")
>>> ExtendedContext.logb(Decimal('0'))
Decimal("-Infinity")
"""
return a.logb(context=self)
def logical_and(self, a, b):
"""Applies the logical operation 'and' between each operand's digits.
The operands must be both logical numbers.
>>> ExtendedContext.logical_and(Decimal('0'), Decimal('0'))
Decimal("0")
>>> ExtendedContext.logical_and(Decimal('0'), Decimal('1'))
Decimal("0")
>>> ExtendedContext.logical_and(Decimal('1'), Decimal('0'))
Decimal("0")
>>> ExtendedContext.logical_and(Decimal('1'), Decimal('1'))
Decimal("1")
>>> ExtendedContext.logical_and(Decimal('1100'), Decimal('1010'))
Decimal("1000")
>>> ExtendedContext.logical_and(Decimal('1111'), Decimal('10'))
Decimal("10")
"""
return a.logical_and(b, context=self)
def logical_invert(self, a):
"""Invert all the digits in the operand.
The operand must be a logical number.
>>> ExtendedContext.logical_invert(Decimal('0'))
Decimal("111111111")
>>> ExtendedContext.logical_invert(Decimal('1'))
Decimal("111111110")
>>> ExtendedContext.logical_invert(Decimal('111111111'))
Decimal("0")
>>> ExtendedContext.logical_invert(Decimal('101010101'))
Decimal("10101010")
"""
return a.logical_invert(context=self)
def logical_or(self, a, b):
"""Applies the logical operation 'or' between each operand's digits.
The operands must be both logical numbers.
>>> ExtendedContext.logical_or(Decimal('0'), Decimal('0'))
Decimal("0")
>>> ExtendedContext.logical_or(Decimal('0'), Decimal('1'))
Decimal("1")
>>> ExtendedContext.logical_or(Decimal('1'), Decimal('0'))
Decimal("1")
>>> ExtendedContext.logical_or(Decimal('1'), Decimal('1'))
Decimal("1")
>>> ExtendedContext.logical_or(Decimal('1100'), Decimal('1010'))
Decimal("1110")
>>> ExtendedContext.logical_or(Decimal('1110'), Decimal('10'))
Decimal("1110")
"""
return a.logical_or(b, context=self)
def logical_xor(self, a, b):
"""Applies the logical operation 'xor' between each operand's digits.
The operands must be both logical numbers.
>>> ExtendedContext.logical_xor(Decimal('0'), Decimal('0'))
Decimal("0")
>>> ExtendedContext.logical_xor(Decimal('0'), Decimal('1'))
Decimal("1")
>>> ExtendedContext.logical_xor(Decimal('1'), Decimal('0'))
Decimal("1")
>>> ExtendedContext.logical_xor(Decimal('1'), Decimal('1'))
Decimal("0")
>>> ExtendedContext.logical_xor(Decimal('1100'), Decimal('1010'))
Decimal("110")
>>> ExtendedContext.logical_xor(Decimal('1111'), Decimal('10'))
Decimal("1101")
"""
return a.logical_xor(b, context=self)
def max(self, a,b):
"""max compares two values numerically and returns the maximum.
If either operand is a NaN then the general rules apply.
Otherwise, the operands are compared as as though by the compare
operation. If they are numerically equal then the left-hand operand
is chosen as the result. Otherwise the maximum (closer to positive
infinity) of the two operands is chosen as the result.
>>> ExtendedContext.max(Decimal('3'), Decimal('2'))
Decimal("3")
>>> ExtendedContext.max(Decimal('-10'), Decimal('3'))
Decimal("3")
>>> ExtendedContext.max(Decimal('1.0'), Decimal('1'))
Decimal("1")
>>> ExtendedContext.max(Decimal('7'), Decimal('NaN'))
Decimal("7")
"""
return a.max(b, context=self)
def max_mag(self, a, b):
"""Compares the values numerically with their sign ignored."""
return a.max_mag(b, context=self)
def min(self, a,b):
"""min compares two values numerically and returns the minimum.
If either operand is a NaN then the general rules apply.
Otherwise, the operands are compared as as though by the compare
operation. If they are numerically equal then the left-hand operand
is chosen as the result. Otherwise the minimum (closer to negative
infinity) of the two operands is chosen as the result.
>>> ExtendedContext.min(Decimal('3'), Decimal('2'))
Decimal("2")
>>> ExtendedContext.min(Decimal('-10'), Decimal('3'))
Decimal("-10")
>>> ExtendedContext.min(Decimal('1.0'), Decimal('1'))
Decimal("1.0")
>>> ExtendedContext.min(Decimal('7'), Decimal('NaN'))
Decimal("7")
"""
return a.min(b, context=self)
def min_mag(self, a, b):
"""Compares the values numerically with their sign ignored."""
return a.min_mag(b, context=self)
def minus(self, a):
"""Minus corresponds to unary prefix minus in Python.
The operation is evaluated using the same rules as subtract; the
operation minus(a) is calculated as subtract('0', a) where the '0'
has the same exponent as the operand.
>>> ExtendedContext.minus(Decimal('1.3'))
Decimal("-1.3")
>>> ExtendedContext.minus(Decimal('-1.3'))
Decimal("1.3")
"""
return a.__neg__(context=self)
def multiply(self, a, b):
"""multiply multiplies two operands.
If either operand is a special value then the general rules apply.
Otherwise, the operands are multiplied together ('long multiplication'),
resulting in a number which may be as long as the sum of the lengths
of the two operands.
>>> ExtendedContext.multiply(Decimal('1.20'), Decimal('3'))
Decimal("3.60")
>>> ExtendedContext.multiply(Decimal('7'), Decimal('3'))
Decimal("21")
>>> ExtendedContext.multiply(Decimal('0.9'), Decimal('0.8'))
Decimal("0.72")
>>> ExtendedContext.multiply(Decimal('0.9'), Decimal('-0'))
Decimal("-0.0")
>>> ExtendedContext.multiply(Decimal('654321'), Decimal('654321'))
Decimal("4.28135971E+11")
"""
return a.__mul__(b, context=self)
def next_minus(self, a):
"""Returns the largest representable number smaller than a.
>>> c = ExtendedContext.copy()
>>> c.Emin = -999
>>> c.Emax = 999
>>> ExtendedContext.next_minus(Decimal('1'))
Decimal("0.999999999")
>>> c.next_minus(Decimal('1E-1007'))
Decimal("0E-1007")
>>> ExtendedContext.next_minus(Decimal('-1.00000003'))
Decimal("-1.00000004")
>>> c.next_minus(Decimal('Infinity'))
Decimal("9.99999999E+999")
"""
return a.next_minus(context=self)
def next_plus(self, a):
"""Returns the smallest representable number larger than a.
>>> c = ExtendedContext.copy()
>>> c.Emin = -999
>>> c.Emax = 999
>>> ExtendedContext.next_plus(Decimal('1'))
Decimal("1.00000001")
>>> c.next_plus(Decimal('-1E-1007'))
Decimal("-0E-1007")
>>> ExtendedContext.next_plus(Decimal('-1.00000003'))
Decimal("-1.00000002")
>>> c.next_plus(Decimal('-Infinity'))
Decimal("-9.99999999E+999")
"""
return a.next_plus(context=self)
def next_toward(self, a, b):
"""Returns the number closest to a, in direction towards b.
The result is the closest representable number from the first
operand (but not the first operand) that is in the direction
towards the second operand, unless the operands have the same
value.
>>> c = ExtendedContext.copy()
>>> c.Emin = -999
>>> c.Emax = 999
>>> c.next_toward(Decimal('1'), Decimal('2'))
Decimal("1.00000001")
>>> c.next_toward(Decimal('-1E-1007'), Decimal('1'))
Decimal("-0E-1007")
>>> c.next_toward(Decimal('-1.00000003'), Decimal('0'))
Decimal("-1.00000002")
>>> c.next_toward(Decimal('1'), Decimal('0'))
Decimal("0.999999999")
>>> c.next_toward(Decimal('1E-1007'), Decimal('-100'))
Decimal("0E-1007")
>>> c.next_toward(Decimal('-1.00000003'), Decimal('-10'))
Decimal("-1.00000004")
>>> c.next_toward(Decimal('0.00'), Decimal('-0.0000'))
Decimal("-0.00")
"""
return a.next_toward(b, context=self)
def normalize(self, a):
"""normalize reduces an operand to its simplest form.
Essentially a plus operation with all trailing zeros removed from the
result.
>>> ExtendedContext.normalize(Decimal('2.1'))
Decimal("2.1")
>>> ExtendedContext.normalize(Decimal('-2.0'))
Decimal("-2")
>>> ExtendedContext.normalize(Decimal('1.200'))
Decimal("1.2")
>>> ExtendedContext.normalize(Decimal('-120'))
Decimal("-1.2E+2")
>>> ExtendedContext.normalize(Decimal('120.00'))
Decimal("1.2E+2")
>>> ExtendedContext.normalize(Decimal('0.00'))
Decimal("0")
"""
return a.normalize(context=self)
def number_class(self, a):
"""Returns an indication of the class of the operand.
The class is one of the following strings:
-sNaN
-NaN
-Infinity
-Normal
-Subnormal
-Zero
+Zero
+Subnormal
+Normal
+Infinity
>>> c = Context(ExtendedContext)
>>> c.Emin = -999
>>> c.Emax = 999
>>> c.number_class(Decimal('Infinity'))
'+Infinity'
>>> c.number_class(Decimal('1E-10'))
'+Normal'
>>> c.number_class(Decimal('2.50'))
'+Normal'
>>> c.number_class(Decimal('0.1E-999'))
'+Subnormal'
>>> c.number_class(Decimal('0'))
'+Zero'
>>> c.number_class(Decimal('-0'))
'-Zero'
>>> c.number_class(Decimal('-0.1E-999'))
'-Subnormal'
>>> c.number_class(Decimal('-1E-10'))
'-Normal'
>>> c.number_class(Decimal('-2.50'))
'-Normal'
>>> c.number_class(Decimal('-Infinity'))
'-Infinity'
>>> c.number_class(Decimal('NaN'))
'NaN'
>>> c.number_class(Decimal('-NaN'))
'NaN'
>>> c.number_class(Decimal('sNaN'))
'sNaN'
"""
return a.number_class(context=self)
def plus(self, a):
"""Plus corresponds to unary prefix plus in Python.
The operation is evaluated using the same rules as add; the
operation plus(a) is calculated as add('0', a) where the '0'
has the same exponent as the operand.
>>> ExtendedContext.plus(Decimal('1.3'))
Decimal("1.3")
>>> ExtendedContext.plus(Decimal('-1.3'))
Decimal("-1.3")
"""
return a.__pos__(context=self)
def power(self, a, b, modulo=None):
"""Raises a to the power of b, to modulo if given.
With two arguments, compute a**b. If a is negative then b
must be integral. The result will be inexact unless b is
integral and the result is finite and can be expressed exactly
in 'precision' digits.
With three arguments, compute (a**b) % modulo. For the
three argument form, the following restrictions on the
arguments hold:
- all three arguments must be integral
- b must be nonnegative
- at least one of a or b must be nonzero
- modulo must be nonzero and have at most 'precision' digits
The result of pow(a, b, modulo) is identical to the result
that would be obtained by computing (a**b) % modulo with
unbounded precision, but is computed more efficiently. It is
always exact.
>>> c = ExtendedContext.copy()
>>> c.Emin = -999
>>> c.Emax = 999
>>> c.power(Decimal('2'), Decimal('3'))
Decimal("8")
>>> c.power(Decimal('-2'), Decimal('3'))
Decimal("-8")
>>> c.power(Decimal('2'), Decimal('-3'))
Decimal("0.125")
>>> c.power(Decimal('1.7'), Decimal('8'))
Decimal("69.7575744")
>>> c.power(Decimal('10'), Decimal('0.301029996'))
Decimal("2.00000000")
>>> c.power(Decimal('Infinity'), Decimal('-1'))
Decimal("0")
>>> c.power(Decimal('Infinity'), Decimal('0'))
Decimal("1")
>>> c.power(Decimal('Infinity'), Decimal('1'))
Decimal("Infinity")
>>> c.power(Decimal('-Infinity'), Decimal('-1'))
Decimal("-0")
>>> c.power(Decimal('-Infinity'), Decimal('0'))
Decimal("1")
>>> c.power(Decimal('-Infinity'), Decimal('1'))
Decimal("-Infinity")
>>> c.power(Decimal('-Infinity'), Decimal('2'))
Decimal("Infinity")
>>> c.power(Decimal('0'), Decimal('0'))
Decimal("NaN")
>>> c.power(Decimal('3'), Decimal('7'), Decimal('16'))
Decimal("11")
>>> c.power(Decimal('-3'), Decimal('7'), Decimal('16'))
Decimal("-11")
>>> c.power(Decimal('-3'), Decimal('8'), Decimal('16'))
Decimal("1")
>>> c.power(Decimal('3'), Decimal('7'), Decimal('-16'))
Decimal("11")
>>> c.power(Decimal('23E12345'), Decimal('67E189'), Decimal('123456789'))
Decimal("11729830")
>>> c.power(Decimal('-0'), Decimal('17'), Decimal('1729'))
Decimal("-0")
>>> c.power(Decimal('-23'), Decimal('0'), Decimal('65537'))
Decimal("1")
"""
return a.__pow__(b, modulo, context=self)
def quantize(self, a, b):
"""Returns a value equal to 'a' (rounded), having the exponent of 'b'.
The coefficient of the result is derived from that of the left-hand
operand. It may be rounded using the current rounding setting (if the
exponent is being increased), multiplied by a positive power of ten (if
the exponent is being decreased), or is unchanged (if the exponent is
already equal to that of the right-hand operand).
Unlike other operations, if the length of the coefficient after the
quantize operation would be greater than precision then an Invalid
operation condition is raised. This guarantees that, unless there is
an error condition, the exponent of the result of a quantize is always
equal to that of the right-hand operand.
Also unlike other operations, quantize will never raise Underflow, even
if the result is subnormal and inexact.
>>> ExtendedContext.quantize(Decimal('2.17'), Decimal('0.001'))
Decimal("2.170")
>>> ExtendedContext.quantize(Decimal('2.17'), Decimal('0.01'))
Decimal("2.17")
>>> ExtendedContext.quantize(Decimal('2.17'), Decimal('0.1'))
Decimal("2.2")
>>> ExtendedContext.quantize(Decimal('2.17'), Decimal('1e+0'))
Decimal("2")
>>> ExtendedContext.quantize(Decimal('2.17'), Decimal('1e+1'))
Decimal("0E+1")
>>> ExtendedContext.quantize(Decimal('-Inf'), Decimal('Infinity'))
Decimal("-Infinity")
>>> ExtendedContext.quantize(Decimal('2'), Decimal('Infinity'))
Decimal("NaN")
>>> ExtendedContext.quantize(Decimal('-0.1'), Decimal('1'))
Decimal("-0")
>>> ExtendedContext.quantize(Decimal('-0'), Decimal('1e+5'))
Decimal("-0E+5")
>>> ExtendedContext.quantize(Decimal('+35236450.6'), Decimal('1e-2'))
Decimal("NaN")
>>> ExtendedContext.quantize(Decimal('-35236450.6'), Decimal('1e-2'))
Decimal("NaN")
>>> ExtendedContext.quantize(Decimal('217'), Decimal('1e-1'))
Decimal("217.0")
>>> ExtendedContext.quantize(Decimal('217'), Decimal('1e-0'))
Decimal("217")
>>> ExtendedContext.quantize(Decimal('217'), Decimal('1e+1'))
Decimal("2.2E+2")
>>> ExtendedContext.quantize(Decimal('217'), Decimal('1e+2'))
Decimal("2E+2")
"""
return a.quantize(b, context=self)
def radix(self):
"""Just returns 10, as this is Decimal, :)
>>> ExtendedContext.radix()
Decimal("10")
"""
return Decimal(10)
def remainder(self, a, b):
"""Returns the remainder from integer division.
The result is the residue of the dividend after the operation of
calculating integer division as described for divide-integer, rounded
to precision digits if necessary. The sign of the result, if
non-zero, is the same as that of the original dividend.
This operation will fail under the same conditions as integer division
(that is, if integer division on the same two operands would fail, the
remainder cannot be calculated).
>>> ExtendedContext.remainder(Decimal('2.1'), Decimal('3'))
Decimal("2.1")
>>> ExtendedContext.remainder(Decimal('10'), Decimal('3'))
Decimal("1")
>>> ExtendedContext.remainder(Decimal('-10'), Decimal('3'))
Decimal("-1")
>>> ExtendedContext.remainder(Decimal('10.2'), Decimal('1'))
Decimal("0.2")
>>> ExtendedContext.remainder(Decimal('10'), Decimal('0.3'))
Decimal("0.1")
>>> ExtendedContext.remainder(Decimal('3.6'), Decimal('1.3'))
Decimal("1.0")
"""
return a.__mod__(b, context=self)
def remainder_near(self, a, b):
"""Returns to be "a - b * n", where n is the integer nearest the exact
value of "x / b" (if two integers are equally near then the even one
is chosen). If the result is equal to 0 then its sign will be the
sign of a.
This operation will fail under the same conditions as integer division
(that is, if integer division on the same two operands would fail, the
remainder cannot be calculated).
>>> ExtendedContext.remainder_near(Decimal('2.1'), Decimal('3'))
Decimal("-0.9")
>>> ExtendedContext.remainder_near(Decimal('10'), Decimal('6'))
Decimal("-2")
>>> ExtendedContext.remainder_near(Decimal('10'), Decimal('3'))
Decimal("1")
>>> ExtendedContext.remainder_near(Decimal('-10'), Decimal('3'))
Decimal("-1")
>>> ExtendedContext.remainder_near(Decimal('10.2'), Decimal('1'))
Decimal("0.2")
>>> ExtendedContext.remainder_near(Decimal('10'), Decimal('0.3'))
Decimal("0.1")
>>> ExtendedContext.remainder_near(Decimal('3.6'), Decimal('1.3'))
Decimal("-0.3")
"""
return a.remainder_near(b, context=self)
def rotate(self, a, b):
"""Returns a rotated copy of a, b times.
The coefficient of the result is a rotated copy of the digits in
the coefficient of the first operand. The number of places of
rotation is taken from the absolute value of the second operand,
with the rotation being to the left if the second operand is
positive or to the right otherwise.
>>> ExtendedContext.rotate(Decimal('34'), Decimal('8'))
Decimal("400000003")
>>> ExtendedContext.rotate(Decimal('12'), Decimal('9'))
Decimal("12")
>>> ExtendedContext.rotate(Decimal('123456789'), Decimal('-2'))
Decimal("891234567")
>>> ExtendedContext.rotate(Decimal('123456789'), Decimal('0'))
Decimal("123456789")
>>> ExtendedContext.rotate(Decimal('123456789'), Decimal('+2'))
Decimal("345678912")
"""
return a.rotate(b, context=self)
def same_quantum(self, a, b):
"""Returns True if the two operands have the same exponent.
The result is never affected by either the sign or the coefficient of
either operand.
>>> ExtendedContext.same_quantum(Decimal('2.17'), Decimal('0.001'))
False
>>> ExtendedContext.same_quantum(Decimal('2.17'), Decimal('0.01'))
True
>>> ExtendedContext.same_quantum(Decimal('2.17'), Decimal('1'))
False
>>> ExtendedContext.same_quantum(Decimal('Inf'), Decimal('-Inf'))
True
"""
return a.same_quantum(b)
def scaleb (self, a, b):
"""Returns the first operand after adding the second value its exp.
>>> ExtendedContext.scaleb(Decimal('7.50'), Decimal('-2'))
Decimal("0.0750")
>>> ExtendedContext.scaleb(Decimal('7.50'), Decimal('0'))
Decimal("7.50")
>>> ExtendedContext.scaleb(Decimal('7.50'), Decimal('3'))
Decimal("7.50E+3")
"""
return a.scaleb (b, context=self)
def shift(self, a, b):
"""Returns a shifted copy of a, b times.
The coefficient of the result is a shifted copy of the digits
in the coefficient of the first operand. The number of places
to shift is taken from the absolute value of the second operand,
with the shift being to the left if the second operand is
positive or to the right otherwise. Digits shifted into the
coefficient are zeros.
>>> ExtendedContext.shift(Decimal('34'), Decimal('8'))
Decimal("400000000")
>>> ExtendedContext.shift(Decimal('12'), Decimal('9'))
Decimal("0")
>>> ExtendedContext.shift(Decimal('123456789'), Decimal('-2'))
Decimal("1234567")
>>> ExtendedContext.shift(Decimal('123456789'), Decimal('0'))
Decimal("123456789")
>>> ExtendedContext.shift(Decimal('123456789'), Decimal('+2'))
Decimal("345678900")
"""
return a.shift(b, context=self)
def sqrt(self, a):
"""Square root of a non-negative number to context precision.
If the result must be inexact, it is rounded using the round-half-even
algorithm.
>>> ExtendedContext.sqrt(Decimal('0'))
Decimal("0")
>>> ExtendedContext.sqrt(Decimal('-0'))
Decimal("-0")
>>> ExtendedContext.sqrt(Decimal('0.39'))
Decimal("0.624499800")
>>> ExtendedContext.sqrt(Decimal('100'))
Decimal("10")
>>> ExtendedContext.sqrt(Decimal('1'))
Decimal("1")
>>> ExtendedContext.sqrt(Decimal('1.0'))
Decimal("1.0")
>>> ExtendedContext.sqrt(Decimal('1.00'))
Decimal("1.0")
>>> ExtendedContext.sqrt(Decimal('7'))
Decimal("2.64575131")
>>> ExtendedContext.sqrt(Decimal('10'))
Decimal("3.16227766")
>>> ExtendedContext.prec
9
"""
return a.sqrt(context=self)
def subtract(self, a, b):
"""Return the difference between the two operands.
>>> ExtendedContext.subtract(Decimal('1.3'), Decimal('1.07'))
Decimal("0.23")
>>> ExtendedContext.subtract(Decimal('1.3'), Decimal('1.30'))
Decimal("0.00")
>>> ExtendedContext.subtract(Decimal('1.3'), Decimal('2.07'))
Decimal("-0.77")
"""
return a.__sub__(b, context=self)
def to_eng_string(self, a):
"""Converts a number to a string, using scientific notation.
The operation is not affected by the context.
"""
return a.to_eng_string(context=self)
def to_sci_string(self, a):
"""Converts a number to a string, using scientific notation.
The operation is not affected by the context.
"""
return a.__str__(context=self)
def to_integral_exact(self, a):
"""Rounds to an integer.
When the operand has a negative exponent, the result is the same
as using the quantize() operation using the given operand as the
left-hand-operand, 1E+0 as the right-hand-operand, and the precision
of the operand as the precision setting; Inexact and Rounded flags
are allowed in this operation. The rounding mode is taken from the
context.
>>> ExtendedContext.to_integral_exact(Decimal('2.1'))
Decimal("2")
>>> ExtendedContext.to_integral_exact(Decimal('100'))
Decimal("100")
>>> ExtendedContext.to_integral_exact(Decimal('100.0'))
Decimal("100")
>>> ExtendedContext.to_integral_exact(Decimal('101.5'))
Decimal("102")
>>> ExtendedContext.to_integral_exact(Decimal('-101.5'))
Decimal("-102")
>>> ExtendedContext.to_integral_exact(Decimal('10E+5'))
Decimal("1.0E+6")
>>> ExtendedContext.to_integral_exact(Decimal('7.89E+77'))
Decimal("7.89E+77")
>>> ExtendedContext.to_integral_exact(Decimal('-Inf'))
Decimal("-Infinity")
"""
return a.to_integral_exact(context=self)
def to_integral_value(self, a):
"""Rounds to an integer.
When the operand has a negative exponent, the result is the same
as using the quantize() operation using the given operand as the
left-hand-operand, 1E+0 as the right-hand-operand, and the precision
of the operand as the precision setting, except that no flags will
be set. The rounding mode is taken from the context.
>>> ExtendedContext.to_integral_value(Decimal('2.1'))
Decimal("2")
>>> ExtendedContext.to_integral_value(Decimal('100'))
Decimal("100")
>>> ExtendedContext.to_integral_value(Decimal('100.0'))
Decimal("100")
>>> ExtendedContext.to_integral_value(Decimal('101.5'))
Decimal("102")
>>> ExtendedContext.to_integral_value(Decimal('-101.5'))
Decimal("-102")
>>> ExtendedContext.to_integral_value(Decimal('10E+5'))
Decimal("1.0E+6")
>>> ExtendedContext.to_integral_value(Decimal('7.89E+77'))
Decimal("7.89E+77")
>>> ExtendedContext.to_integral_value(Decimal('-Inf'))
Decimal("-Infinity")
"""
return a.to_integral_value(context=self)
# the method name changed, but we provide also the old one, for compatibility
to_integral = to_integral_value
class _WorkRep(object):
__slots__ = ('sign','int','exp')
# sign: 0 or 1
# int: int or long
# exp: None, int, or string
def __init__(self, value=None):
if value is None:
self.sign = None
self.int = 0
self.exp = None
elif isinstance(value, Decimal):
self.sign = value._sign
self.int = int(value._int)
self.exp = value._exp
else:
# assert isinstance(value, tuple)
self.sign = value[0]
self.int = value[1]
self.exp = value[2]
def __repr__(self):
return "(%r, %r, %r)" % (self.sign, self.int, self.exp)
__str__ = __repr__
def _normalize(op1, op2, prec = 0):
"""Normalizes op1, op2 to have the same exp and length of coefficient.
Done during addition.
"""
if op1.exp < op2.exp:
tmp = op2
other = op1
else:
tmp = op1
other = op2
# Let exp = min(tmp.exp - 1, tmp.adjusted() - precision - 1).
# Then adding 10**exp to tmp has the same effect (after rounding)
# as adding any positive quantity smaller than 10**exp; similarly
# for subtraction. So if other is smaller than 10**exp we replace
# it with 10**exp. This avoids tmp.exp - other.exp getting too large.
tmp_len = len(str(tmp.int))
other_len = len(str(other.int))
exp = tmp.exp + min(-1, tmp_len - prec - 2)
if other_len + other.exp - 1 < exp:
other.int = 1
other.exp = exp
tmp.int *= 10 ** (tmp.exp - other.exp)
tmp.exp = other.exp
return op1, op2
##### Integer arithmetic functions used by ln, log10, exp and __pow__ #####
# This function from Tim Peters was taken from here:
# http://mail.python.org/pipermail/python-list/1999-July/007758.html
# The correction being in the function definition is for speed, and
# the whole function is not resolved with math.log because of avoiding
# the use of floats.
def _nbits(n, correction = {
'0': 4, '1': 3, '2': 2, '3': 2,
'4': 1, '5': 1, '6': 1, '7': 1,
'8': 0, '9': 0, 'a': 0, 'b': 0,
'c': 0, 'd': 0, 'e': 0, 'f': 0}):
"""Number of bits in binary representation of the positive integer n,
or 0 if n == 0.
"""
if n < 0:
raise ValueError("The argument to _nbits should be nonnegative.")
hex_n = "%x" % n
return 4*len(hex_n) - correction[hex_n[0]]
def _sqrt_nearest(n, a):
"""Closest integer to the square root of the positive integer n. a is
an initial approximation to the square root. Any positive integer
will do for a, but the closer a is to the square root of n the
faster convergence will be.
"""
if n <= 0 or a <= 0:
raise ValueError("Both arguments to _sqrt_nearest should be positive.")
b=0
while a != b:
b, a = a, a--n//a>>1
return a
def _rshift_nearest(x, shift):
"""Given an integer x and a nonnegative integer shift, return closest
integer to x / 2**shift; use round-to-even in case of a tie.
"""
b, q = 1L << shift, x >> shift
return q + (2*(x & (b-1)) + (q&1) > b)
def _div_nearest(a, b):
"""Closest integer to a/b, a and b positive integers; rounds to even
in the case of a tie.
"""
q, r = divmod(a, b)
return q + (2*r + (q&1) > b)
def _ilog(x, M, L = 8):
"""Integer approximation to M*log(x/M), with absolute error boundable
in terms only of x/M.
Given positive integers x and M, return an integer approximation to
M * log(x/M). For L = 8 and 0.1 <= x/M <= 10 the difference
between the approximation and the exact result is at most 22. For
L = 8 and 1.0 <= x/M <= 10.0 the difference is at most 15. In
both cases these are upper bounds on the error; it will usually be
much smaller."""
# The basic algorithm is the following: let log1p be the function
# log1p(x) = log(1+x). Then log(x/M) = log1p((x-M)/M). We use
# the reduction
#
# log1p(y) = 2*log1p(y/(1+sqrt(1+y)))
#
# repeatedly until the argument to log1p is small (< 2**-L in
# absolute value). For small y we can use the Taylor series
# expansion
#
# log1p(y) ~ y - y**2/2 + y**3/3 - ... - (-y)**T/T
#
# truncating at T such that y**T is small enough. The whole
# computation is carried out in a form of fixed-point arithmetic,
# with a real number z being represented by an integer
# approximation to z*M. To avoid loss of precision, the y below
# is actually an integer approximation to 2**R*y*M, where R is the
# number of reductions performed so far.
y = x-M
# argument reduction; R = number of reductions performed
R = 0
while (R <= L and long(abs(y)) << L-R >= M or
R > L and abs(y) >> R-L >= M):
y = _div_nearest(long(M*y) << 1,
M + _sqrt_nearest(M*(M+_rshift_nearest(y, R)), M))
R += 1
# Taylor series with T terms
T = -int(-10*len(str(M))//(3*L))
yshift = _rshift_nearest(y, R)
w = _div_nearest(M, T)
for k in xrange(T-1, 0, -1):
w = _div_nearest(M, k) - _div_nearest(yshift*w, M)
return _div_nearest(w*y, M)
def _dlog10(c, e, p):
"""Given integers c, e and p with c > 0, p >= 0, compute an integer
approximation to 10**p * log10(c*10**e), with an absolute error of
at most 1. Assumes that c*10**e is not exactly 1."""
# increase precision by 2; compensate for this by dividing
# final result by 100
p += 2
# write c*10**e as d*10**f with either:
# f >= 0 and 1 <= d <= 10, or
# f <= 0 and 0.1 <= d <= 1.
# Thus for c*10**e close to 1, f = 0
l = len(str(c))
f = e+l - (e+l >= 1)
if p > 0:
M = 10**p
k = e+p-f
if k >= 0:
c *= 10**k
else:
c = _div_nearest(c, 10**-k)
log_d = _ilog(c, M) # error < 5 + 22 = 27
log_10 = _log10_digits(p) # error < 1
log_d = _div_nearest(log_d*M, log_10)
log_tenpower = f*M # exact
else:
log_d = 0 # error < 2.31
log_tenpower = div_nearest(f, 10**-p) # error < 0.5
return _div_nearest(log_tenpower+log_d, 100)
def _dlog(c, e, p):
"""Given integers c, e and p with c > 0, compute an integer
approximation to 10**p * log(c*10**e), with an absolute error of
at most 1. Assumes that c*10**e is not exactly 1."""
# Increase precision by 2. The precision increase is compensated
# for at the end with a division by 100.
p += 2
# rewrite c*10**e as d*10**f with either f >= 0 and 1 <= d <= 10,
# or f <= 0 and 0.1 <= d <= 1. Then we can compute 10**p * log(c*10**e)
# as 10**p * log(d) + 10**p*f * log(10).
l = len(str(c))
f = e+l - (e+l >= 1)
# compute approximation to 10**p*log(d), with error < 27
if p > 0:
k = e+p-f
if k >= 0:
c *= 10**k
else:
c = _div_nearest(c, 10**-k) # error of <= 0.5 in c
# _ilog magnifies existing error in c by a factor of at most 10
log_d = _ilog(c, 10**p) # error < 5 + 22 = 27
else:
# p <= 0: just approximate the whole thing by 0; error < 2.31
log_d = 0
# compute approximation to f*10**p*log(10), with error < 11.
if f:
extra = len(str(abs(f)))-1
if p + extra >= 0:
# error in f * _log10_digits(p+extra) < |f| * 1 = |f|
# after division, error < |f|/10**extra + 0.5 < 10 + 0.5 < 11
f_log_ten = _div_nearest(f*_log10_digits(p+extra), 10**extra)
else:
f_log_ten = 0
else:
f_log_ten = 0
# error in sum < 11+27 = 38; error after division < 0.38 + 0.5 < 1
return _div_nearest(f_log_ten + log_d, 100)
class _Log10Memoize(object):
"""Class to compute, store, and allow retrieval of, digits of the
constant log(10) = 2.302585.... This constant is needed by
Decimal.ln, Decimal.log10, Decimal.exp and Decimal.__pow__."""
def __init__(self):
self.digits = "23025850929940456840179914546843642076011014886"
def getdigits(self, p):
"""Given an integer p >= 0, return floor(10**p)*log(10).
For example, self.getdigits(3) returns 2302.
"""
# digits are stored as a string, for quick conversion to
# integer in the case that we've already computed enough
# digits; the stored digits should always be correct
# (truncated, not rounded to nearest).
if p < 0:
raise ValueError("p should be nonnegative")
if p >= len(self.digits):
# compute p+3, p+6, p+9, ... digits; continue until at
# least one of the extra digits is nonzero
extra = 3
while True:
# compute p+extra digits, correct to within 1ulp
M = 10**(p+extra+2)
digits = str(_div_nearest(_ilog(10*M, M), 100))
if digits[-extra:] != '0'*extra:
break
extra += 3
# keep all reliable digits so far; remove trailing zeros
# and next nonzero digit
self.digits = digits.rstrip('0')[:-1]
return int(self.digits[:p+1])
_log10_digits = _Log10Memoize().getdigits
def _iexp(x, M, L=8):
"""Given integers x and M, M > 0, such that x/M is small in absolute
value, compute an integer approximation to M*exp(x/M). For 0 <=
x/M <= 2.4, the absolute error in the result is bounded by 60 (and
is usually much smaller)."""
# Algorithm: to compute exp(z) for a real number z, first divide z
# by a suitable power R of 2 so that |z/2**R| < 2**-L. Then
# compute expm1(z/2**R) = exp(z/2**R) - 1 using the usual Taylor
# series
#
# expm1(x) = x + x**2/2! + x**3/3! + ...
#
# Now use the identity
#
# expm1(2x) = expm1(x)*(expm1(x)+2)
#
# R times to compute the sequence expm1(z/2**R),
# expm1(z/2**(R-1)), ... , exp(z/2), exp(z).
# Find R such that x/2**R/M <= 2**-L
R = _nbits((long(x)<<L)//M)
# Taylor series. (2**L)**T > M
T = -int(-10*len(str(M))//(3*L))
y = _div_nearest(x, T)
Mshift = long(M)<<R
for i in xrange(T-1, 0, -1):
y = _div_nearest(x*(Mshift + y), Mshift * i)
# Expansion
for k in xrange(R-1, -1, -1):
Mshift = long(M)<<(k+2)
y = _div_nearest(y*(y+Mshift), Mshift)
return M+y
def _dexp(c, e, p):
"""Compute an approximation to exp(c*10**e), with p decimal places of
precision.
Returns integers d, f such that:
10**(p-1) <= d <= 10**p, and
(d-1)*10**f < exp(c*10**e) < (d+1)*10**f
In other words, d*10**f is an approximation to exp(c*10**e) with p
digits of precision, and with an error in d of at most 1. This is
almost, but not quite, the same as the error being < 1ulp: when d
= 10**(p-1) the error could be up to 10 ulp."""
# we'll call iexp with M = 10**(p+2), giving p+3 digits of precision
p += 2
# compute log(10) with extra precision = adjusted exponent of c*10**e
extra = max(0, e + len(str(c)) - 1)
q = p + extra
# compute quotient c*10**e/(log(10)) = c*10**(e+q)/(log(10)*10**q),
# rounding down
shift = e+q
if shift >= 0:
cshift = c*10**shift
else:
cshift = c//10**-shift
quot, rem = divmod(cshift, _log10_digits(q))
# reduce remainder back to original precision
rem = _div_nearest(rem, 10**extra)
# error in result of _iexp < 120; error after division < 0.62
return _div_nearest(_iexp(rem, 10**p), 1000), quot - p + 3
def _dpower(xc, xe, yc, ye, p):
"""Given integers xc, xe, yc and ye representing Decimals x = xc*10**xe and
y = yc*10**ye, compute x**y. Returns a pair of integers (c, e) such that:
10**(p-1) <= c <= 10**p, and
(c-1)*10**e < x**y < (c+1)*10**e
in other words, c*10**e is an approximation to x**y with p digits
of precision, and with an error in c of at most 1. (This is
almost, but not quite, the same as the error being < 1ulp: when c
== 10**(p-1) we can only guarantee error < 10ulp.)
We assume that: x is positive and not equal to 1, and y is nonzero.
"""
# Find b such that 10**(b-1) <= |y| <= 10**b
b = len(str(abs(yc))) + ye
# log(x) = lxc*10**(-p-b-1), to p+b+1 places after the decimal point
lxc = _dlog(xc, xe, p+b+1)
# compute product y*log(x) = yc*lxc*10**(-p-b-1+ye) = pc*10**(-p-1)
shift = ye-b
if shift >= 0:
pc = lxc*yc*10**shift
else:
pc = _div_nearest(lxc*yc, 10**-shift)
if pc == 0:
# we prefer a result that isn't exactly 1; this makes it
# easier to compute a correctly rounded result in __pow__
if ((len(str(xc)) + xe >= 1) == (yc > 0)): # if x**y > 1:
coeff, exp = 10**(p-1)+1, 1-p
else:
coeff, exp = 10**p-1, -p
else:
coeff, exp = _dexp(pc, -(p+1), p+1)
coeff = _div_nearest(coeff, 10)
exp += 1
return coeff, exp
def _log10_lb(c, correction = {
'1': 100, '2': 70, '3': 53, '4': 40, '5': 31,
'6': 23, '7': 16, '8': 10, '9': 5}):
"""Compute a lower bound for 100*log10(c) for a positive integer c."""
if c <= 0:
raise ValueError("The argument to _log10_lb should be nonnegative.")
str_c = str(c)
return 100*len(str_c) - correction[str_c[0]]
##### Helper Functions ####################################################
def _convert_other(other, raiseit=False):
"""Convert other to Decimal.
Verifies that it's ok to use in an implicit construction.
"""
if isinstance(other, Decimal):
return other
if isinstance(other, (int, long)):
return Decimal(other)
if raiseit:
raise TypeError("Unable to convert %s to Decimal" % other)
return NotImplemented
##### Setup Specific Contexts ############################################
# The default context prototype used by Context()
# Is mutable, so that new contexts can have different default values
DefaultContext = Context(
prec=28, rounding=ROUND_HALF_EVEN,
traps=[DivisionByZero, Overflow, InvalidOperation],
flags=[],
Emax=999999999,
Emin=-999999999,
capitals=1
)
# Pre-made alternate contexts offered by the specification
# Don't change these; the user should be able to select these
# contexts and be able to reproduce results from other implementations
# of the spec.
BasicContext = Context(
prec=9, rounding=ROUND_HALF_UP,
traps=[DivisionByZero, Overflow, InvalidOperation, Clamped, Underflow],
flags=[],
)
ExtendedContext = Context(
prec=9, rounding=ROUND_HALF_EVEN,
traps=[],
flags=[],
)
##### crud for parsing strings #############################################
import re
# Regular expression used for parsing numeric strings. Additional
# comments:
#
# 1. Uncomment the two '\s*' lines to allow leading and/or trailing
# whitespace. But note that the specification disallows whitespace in
# a numeric string.
#
# 2. For finite numbers (not infinities and NaNs) the body of the
# number between the optional sign and the optional exponent must have
# at least one decimal digit, possibly after the decimal point. The
# lookahead expression '(?=\d|\.\d)' checks this.
#
# As the flag UNICODE is not enabled here, we're explicitly avoiding any
# other meaning for \d than the numbers [0-9].
import re
_parser = re.compile(r""" # A numeric string consists of:
# \s*
(?P<sign>[-+])? # an optional sign, followed by either...
(
(?=\d|\.\d) # ...a number (with at least one digit)
(?P<int>\d*) # consisting of a (possibly empty) integer part
(\.(?P<frac>\d*))? # followed by an optional fractional part
(E(?P<exp>[-+]?\d+))? # followed by an optional exponent, or...
|
Inf(inity)? # ...an infinity, or...
|
(?P<signal>s)? # ...an (optionally signaling)
NaN # NaN
(?P<diag>\d*) # with (possibly empty) diagnostic information.
)
# \s*
$
""", re.VERBOSE | re.IGNORECASE).match
_all_zeros = re.compile('0*$').match
_exact_half = re.compile('50*$').match
del re
##### Useful Constants (internal use only) ################################
# Reusable defaults
Inf = Decimal('Inf')
negInf = Decimal('-Inf')
NaN = Decimal('NaN')
Dec_0 = Decimal(0)
Dec_p1 = Decimal(1)
Dec_n1 = Decimal(-1)
# Infsign[sign] is infinity w/ that sign
Infsign = (Inf, negInf)
if __name__ == '__main__':
import doctest, sys
doctest.testmod(sys.modules[__name__])
| apache-2.0 |
gench/rec2 | Allrecipes-Scraper/recipe.py | 1 | 4424 | import json
class Recipe:
NUTRIENT_TAG = './/ul[@class="nutrientLine"]'
TIME_TAG = './/ul[@class="prepTime"]'
GENERAL_TAG = './/section[contains(@class, "recipe-summary")]'
RATING_TAG = './/div[@class="rating-stars"]'
NUM_RATINGS_TAG = './/span[@class="review-count"]'
DESCRIPTION_TAG = './/div[@class="submitter__description"]'
CATEGORY_TAG = './/ul[@class="breadcrumbs breadcrumbs"]'
SUBCATEGORY_TAG = './/span[@class="toggle-similar__title"]'
INGREDIENTS_TAGS = ['.//ul[@class="checklist dropdownwrapper list-ingredients-1"]',
'.//ul[@class="checklist dropdownwrapper list-ingredients-2"]']
INGREDIENT_ID_TAG = './/input[@name="ingredientCheckbox"]'
INGREDIENT_TAG = './/span[@itemprop="ingredients"]'
INSTRUCTIONS_TAG = './/ol[@class="list-numbers recipe-directions__list"]'
def __init__(self):
self.properties = {}
def parsePage(self, lxml_data, id):
self.properties['id'] = id
self.parseAttributes(lxml_data)
#self.parseNutrition(lxml_data)
self.parseIngredients(lxml_data)
# self.parseInstructions(lxml_data)
# We do not need the following function as I don't think it's an appropriate feature in our learning algorithm(s).#
# def parseNutrition(self, lxml_data):
# nutrients = lxml_data.xpath(self.NUTRIENT_TAG)
# for nutrient in nutrients:
# values = nutrient.xpath('.//li')
# key = values[0].text.split(':', 1)[0]
# value = values[1].text_content().strip()
# self.properties[key] = value
def parseIngredients(self, lxml_data):
ingredients_blocks = []
for tag in self.INGREDIENTS_TAGS:
ingredients_blocks.append(lxml_data.xpath(tag)[0])
ingredients_array = []
for block in ingredients_blocks:
for ingredient in block:
ingredient_id = ingredient.xpath(self.INGREDIENT_ID_TAG)
if ingredient_id:
# commented out the ingredient id, as I don't think it's needed as an actual feature #
#ingredient_id = ingredient_id[0].get("data-id").strip()
ingredient_str = ingredient.xpath(self.INGREDIENT_TAG)[0].text_content().strip()
#ingredients_array.append((ingredient_id, ingredient_str))
ingredients_array.append(ingredient_str)
self.properties['ingredients'] = ingredients_array
def parseAttributes(self, lxml_data):
time_block = lxml_data.xpath(self.TIME_TAG)
# commented out the prep time feature, as I don't think it's needed as an actual feature #
# if len(time_block) > 0:
# time_block = time_block[0]
# time_types = time_block.xpath('.//p')
# times = time_block.xpath('.//time')
# for i in xrange(len(time_types)):
# self.properties[time_types[i].text_content().strip()] = times[i].text_content().strip()
general_block = lxml_data.xpath(self.GENERAL_TAG)[0]
self.properties['name'] = general_block.xpath('.//h1')[0].text_content().strip()
self.properties['rating'] = float(general_block.xpath(self.RATING_TAG)[0].get("data-ratingstars").strip())
self.properties['num_ratings'] = int(general_block.xpath(self.NUM_RATINGS_TAG)[0].text_content().strip().split(' ', 1)[0])
self.properties['description'] = general_block.xpath(self.DESCRIPTION_TAG)[0].text_content().strip()
category_block = lxml_data.xpath(self.CATEGORY_TAG)[0]
categories = category_block.xpath(self.SUBCATEGORY_TAG)
category_array = []
for i in xrange(2, len(categories)):
category_array.append(categories[i].text_content().strip())
self.properties['categories'] = category_array
# We do not need the following function as I don't think it's an appropriate feature in our learning algorithm(s).#
# def parseInstructions(self, lxml_data):
# instructions_block = lxml_data.xpath(self.INSTRUCTIONS_TAG)[0]
# instructions = instructions_block.xpath('.//li')
# instructions_array = []
# for instruction in instructions:
# instructions_array.append(instruction.text_content().strip())
# self.properties['instructions'] = instructions_array
def toJSON(self):
return json.dumps(self.properties)
| gpl-3.0 |
ncc-unesp/goo-dataproxy | core/api/resources.py | 1 | 5320 | # This file is part of goo-dataproxy.
#
# Copyright (c) 2103-2014 by Nucleo de Computacao Cientifica, UNESP
#
# Authors:
# Beraldo Leal <beraldo AT ncc DOT unesp DOT br>
# Gabriel von. Winckler <winckler AT ncc DOT unesp DOT br>
#
# goo-dataproxy is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# goo-dataproxy is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Foobar. If not, see <http://www.gnu.org/licenses/>.
#
# vim: tabstop=4 shiftwidth=4 softtabstop=4
from tastypie.resources import Resource
from tastypie.bundle import Bundle
from tastypie import fields
from core.auth import TokenAuthentication
from core.models import DataObject
import zipfile, tempfile, os
from django.http import HttpResponse
from django.core.servers.basehttp import FileWrapper
from tastypie.authentication import Authentication
from tastypie.authorization import Authorization
class DataObjectResource(Resource):
"""This resource handler auth requests.
Allowed Methods:
----------------
POST /dataobjects/ # Upload a new object
GET /dataobjects/{id}/ # Download an object
DELETE /dataobjects/{id}/ # Delete an object
"""
name = fields.CharField(attribute='name')
data = fields.FileField(attribute='file')
class Meta:
resource_name = 'dataobjects'
object_class = DataObject
list_allowed_methods = ['post']
detail_allowd_methods = ['get', 'delete']
authentication = TokenAuthentication()
authorization = Authorization()
# return object on POST request
always_return_data = True
def detail_uri_kwargs(self, bundle_or_obj):
kwargs = {}
if isinstance(bundle_or_obj, Bundle):
kwargs['pk'] = bundle_or_obj.obj.oid
else:
kwargs['pk'] = bundle_or_obj.oid # pragma: no cover
return kwargs
def obj_get(self, request=None, **kwargs):
obj = DataObject(request.token)
obj.load(kwargs['pk'])
return obj
def get_detail(self, request, **kwargs):
obj = self.obj_get(request=request, **kwargs)
response = HttpResponse(FileWrapper(obj.file()),
content_type='application/octet-stream')
response['Content-Disposition'] = 'attachment; filename=%s' % obj.name
response['Content-Length'] = obj.size
return response
def obj_create(self, bundle, **kwargs):
# check to see if is a single file (zip)
# or multiples (must set compress=1)
compress = bundle.data.has_key('compress')
if compress:
#do compress
fd, filepath = tempfile.mkstemp('.zip')
os.close(fd)
zf = zipfile.ZipFile(filepath, mode='a')
for f in bundle.data['files'].values():
#save on disk
tmp_fd, tmp_fp = tempfile.mkstemp()
for chunk in f.chunks():
os.write(tmp_fd, chunk)
os.close(tmp_fd)
#add to zip
zf.write(tmp_fp, f.name)
#delete
os.unlink(tmp_fp)
zf.close()
else:
# Old version: requires file as "file"
#req_file = bundle.data['files']['file']
# New version: get a single file
req_file = bundle.data['files'].values()[0]
fd, filepath = tempfile.mkstemp()
os.close(fd)
with open(filepath, 'wb+') as destination:
for chunk in req_file.chunks():
destination.write(chunk)
name = bundle.data['name']
public = bundle.data.has_key('public')
bundle.obj = DataObject(bundle.request.token)
bundle.obj.save(name, filepath, public)
# Force tempfile to be removed
os.unlink(filepath)
return bundle
def obj_delete(self, request=None, **kwargs):
obj = self.obj_get(request=request, **kwargs)
obj.delete()
def deserialize(self, request, data, format=None):
if not format:
format = request.META.get('CONTENT_TYPE',
'application/json')#pragma: no cover
if format == 'application/x-www-form-urlencoded':
return request.POST #pragma: no cover
if format.startswith('multipart'):
data = request.POST.copy()
data.update(request.GET.copy())
data['files'] = request.FILES
return data
return super(DataObjectResource,
self).deserialize(request,
data,
format) #pragma: no cover
def dehydrate(self, bundle):
# only return resource_uri
bundle.data = {"resource_uri": bundle.obj.resource_uri}
return bundle
| gpl-3.0 |
centaurialpha/ninja-ide | ninja_ide/intellisensei/jedi/parser/tokenize.py | 3 | 13763 | # -*- coding: utf-8 -*-
"""
This tokenizer has been copied from the ``tokenize.py`` standard library
tokenizer. The reason was simple: The standard library tokenizer fails
if the indentation is not right. The fast parser of jedi however requires
"wrong" indentation.
Basically this is a stripped down version of the standard library module, so
you can read the documentation there. Additionally we included some speed and
memory optimizations here.
"""
from __future__ import absolute_import
import string
import re
from collections import namedtuple
import itertools as _itertools
from jedi.parser.token import (tok_name, N_TOKENS, ENDMARKER, STRING, NUMBER, opmap,
NAME, OP, ERRORTOKEN, NEWLINE, INDENT, DEDENT)
from jedi._compatibility import is_py3, py_version, u
from jedi.common import splitlines
cookie_re = re.compile("coding[:=]\s*([-\w.]+)")
if is_py3:
# Python 3 has str.isidentifier() to check if a char is a valid identifier
is_identifier = str.isidentifier
else:
namechars = string.ascii_letters + '_'
is_identifier = lambda s: s in namechars
COMMENT = N_TOKENS
tok_name[COMMENT] = 'COMMENT'
def group(*choices, **kwargs):
capture = kwargs.pop('capture', False) # Python 2, arrghhhhh :(
assert not kwargs
start = '('
if not capture:
start += '?:'
return start + '|'.join(choices) + ')'
def any(*choices):
return group(*choices) + '*'
def maybe(*choices):
return group(*choices) + '?'
# Note: we use unicode matching for names ("\w") but ascii matching for
# number literals.
Whitespace = r'[ \f\t]*'
Comment = r'#[^\r\n]*'
Name = r'\w+'
if py_version >= 36:
Hexnumber = r'0[xX](?:_?[0-9a-fA-F])+'
Binnumber = r'0[bB](?:_?[01])+'
Octnumber = r'0[oO](?:_?[0-7])+'
Decnumber = r'(?:0(?:_?0)*|[1-9](?:_?[0-9])*)'
Intnumber = group(Hexnumber, Binnumber, Octnumber, Decnumber)
Exponent = r'[eE][-+]?[0-9](?:_?[0-9])*'
Pointfloat = group(r'[0-9](?:_?[0-9])*\.(?:[0-9](?:_?[0-9])*)?',
r'\.[0-9](?:_?[0-9])*') + maybe(Exponent)
Expfloat = r'[0-9](?:_?[0-9])*' + Exponent
Floatnumber = group(Pointfloat, Expfloat)
Imagnumber = group(r'[0-9](?:_?[0-9])*[jJ]', Floatnumber + r'[jJ]')
else:
Hexnumber = r'0[xX][0-9a-fA-F]+'
Binnumber = r'0[bB][01]+'
if is_py3:
Octnumber = r'0[oO][0-7]+'
else:
Octnumber = '0[0-7]+'
Decnumber = r'(?:0+|[1-9][0-9]*)'
Intnumber = group(Hexnumber, Binnumber, Octnumber, Decnumber)
Exponent = r'[eE][-+]?[0-9]+'
Pointfloat = group(r'[0-9]+\.[0-9]*', r'\.[0-9]+') + maybe(Exponent)
Expfloat = r'[0-9]+' + Exponent
Floatnumber = group(Pointfloat, Expfloat)
Imagnumber = group(r'[0-9]+[jJ]', Floatnumber + r'[jJ]')
Number = group(Imagnumber, Floatnumber, Intnumber)
# Return the empty string, plus all of the valid string prefixes.
def _all_string_prefixes():
# The valid string prefixes. Only contain the lower case versions,
# and don't contain any permuations (include 'fr', but not
# 'rf'). The various permutations will be generated.
_valid_string_prefixes = ['b', 'r', 'u', 'br']
if py_version >= 36:
_valid_string_prefixes += ['f', 'fr']
if py_version <= 27:
# TODO this is actually not 100% valid. ur is valid in Python 2.7,
# while ru is not.
_valid_string_prefixes.append('ur')
# if we add binary f-strings, add: ['fb', 'fbr']
result = set([''])
for prefix in _valid_string_prefixes:
for t in _itertools.permutations(prefix):
# create a list with upper and lower versions of each
# character
for u in _itertools.product(*[(c, c.upper()) for c in t]):
result.add(''.join(u))
return result
def _compile(expr):
return re.compile(expr, re.UNICODE)
# Note that since _all_string_prefixes includes the empty string,
# StringPrefix can be the empty string (making it optional).
StringPrefix = group(*_all_string_prefixes())
# Tail end of ' string.
Single = r"[^'\\]*(?:\\.[^'\\]*)*'"
# Tail end of " string.
Double = r'[^"\\]*(?:\\.[^"\\]*)*"'
# Tail end of ''' string.
Single3 = r"[^'\\]*(?:(?:\\.|'(?!''))[^'\\]*)*'''"
# Tail end of """ string.
Double3 = r'[^"\\]*(?:(?:\\.|"(?!""))[^"\\]*)*"""'
Triple = group(StringPrefix + "'''", StringPrefix + '"""')
# Because of leftmost-then-longest match semantics, be sure to put the
# longest operators first (e.g., if = came before ==, == would get
# recognized as two instances of =).
Operator = group(r"\*\*=?", r">>=?", r"<<=?", r"!=",
r"//=?", r"->",
r"[+\-*/%&@|^=<>]=?",
r"~")
Bracket = '[][(){}]'
Special = group(r'\r?\n', r'\.\.\.', r'[:;.,@]')
Funny = group(Operator, Bracket, Special)
PlainToken = group(Number, Funny, Name, capture=True)
# First (or only) line of ' or " string.
ContStr = group(StringPrefix + r"'[^\n'\\]*(?:\\.[^\n'\\]*)*" +
group("'", r'\\\r?\n'),
StringPrefix + r'"[^\n"\\]*(?:\\.[^\n"\\]*)*' +
group('"', r'\\\r?\n'))
PseudoExtras = group(r'\\\r?\n|\Z', Comment, Triple)
PseudoToken = group(Whitespace, capture=True) + \
group(PseudoExtras, Number, Funny, ContStr, Name, capture=True)
# For a given string prefix plus quotes, endpats maps it to a regex
# to match the remainder of that string. _prefix can be empty, for
# a normal single or triple quoted string (with no prefix).
endpats = {}
for _prefix in _all_string_prefixes():
endpats[_prefix + "'"] = _compile(Single)
endpats[_prefix + '"'] = _compile(Double)
endpats[_prefix + "'''"] = _compile(Single3)
endpats[_prefix + '"""'] = _compile(Double3)
# A set of all of the single and triple quoted string prefixes,
# including the opening quotes.
single_quoted = set()
triple_quoted = set()
for t in _all_string_prefixes():
for p in (t + '"', t + "'"):
single_quoted.add(p)
for p in (t + '"""', t + "'''"):
triple_quoted.add(p)
# TODO add with?
ALWAYS_BREAK_TOKENS = (';', 'import', 'class', 'def', 'try', 'except',
'finally', 'while', 'return')
pseudo_token_compiled = _compile(PseudoToken)
class TokenInfo(namedtuple('Token', ['type', 'string', 'start_pos', 'prefix'])):
def __repr__(self):
return ('TokenInfo(type=%s, string=%r, start=%r, prefix=%r)' %
self._replace(type=self.get_type_name()))
def get_type_name(self, exact=True):
if exact:
typ = self.exact_type
else:
typ = self.type
return tok_name[typ]
@property
def exact_type(self):
if self.type == OP and self.string in opmap:
return opmap[self.string]
else:
return self.type
@property
def end_pos(self):
lines = splitlines(self.string)
if len(lines) > 1:
return self.start_pos[0] + len(lines) - 1, 0
else:
return self.start_pos[0], self.start_pos[1] + len(self.string)
def source_tokens(source, use_exact_op_types=False):
"""Generate tokens from a the source code (string)."""
lines = splitlines(source, keepends=True)
return generate_tokens(lines, use_exact_op_types)
def generate_tokens(lines, use_exact_op_types=False):
"""
A heavily modified Python standard library tokenizer.
Additionally to the default information, yields also the prefix of each
token. This idea comes from lib2to3. The prefix contains all information
that is irrelevant for the parser like newlines in parentheses or comments.
"""
paren_level = 0 # count parentheses
indents = [0]
max = 0
numchars = '0123456789'
contstr = ''
contline = None
# We start with a newline. This makes indent at the first position
# possible. It's not valid Python, but still better than an INDENT in the
# second line (and not in the first). This makes quite a few things in
# Jedi's fast parser possible.
new_line = True
prefix = '' # Should never be required, but here for safety
additional_prefix = ''
for lnum, line in enumerate(lines, 1): # loop over lines in stream
pos, max = 0, len(line)
if contstr: # continued string
endmatch = endprog.match(line)
if endmatch:
pos = endmatch.end(0)
yield TokenInfo(STRING, contstr + line[:pos], contstr_start, prefix)
contstr = ''
contline = None
else:
contstr = contstr + line
contline = contline + line
continue
while pos < max:
pseudomatch = pseudo_token_compiled.match(line, pos)
if not pseudomatch: # scan for tokens
txt = line[pos:]
if txt.endswith('\n'):
new_line = True
yield TokenInfo(ERRORTOKEN, txt, (lnum, pos), prefix)
break
prefix = additional_prefix + pseudomatch.group(1)
additional_prefix = ''
start, pos = pseudomatch.span(2)
spos = (lnum, start)
token = pseudomatch.group(2)
initial = token[0]
if new_line and initial not in '\r\n#':
new_line = False
if paren_level == 0:
i = 0
while line[i] == '\f':
i += 1
start -= 1
if start > indents[-1]:
yield TokenInfo(INDENT, '', spos, '')
indents.append(start)
while start < indents[-1]:
yield TokenInfo(DEDENT, '', spos, '')
indents.pop()
if (initial in numchars or # ordinary number
(initial == '.' and token != '.' and token != '...')):
yield TokenInfo(NUMBER, token, spos, prefix)
elif initial in '\r\n':
if not new_line and paren_level == 0:
yield TokenInfo(NEWLINE, token, spos, prefix)
else:
additional_prefix = prefix + token
new_line = True
elif initial == '#': # Comments
assert not token.endswith("\n")
additional_prefix = prefix + token
elif token in triple_quoted:
endprog = endpats[token]
endmatch = endprog.match(line, pos)
if endmatch: # all on one line
pos = endmatch.end(0)
token = line[start:pos]
yield TokenInfo(STRING, token, spos, prefix)
else:
contstr_start = (lnum, start) # multiple lines
contstr = line[start:]
contline = line
break
elif initial in single_quoted or \
token[:2] in single_quoted or \
token[:3] in single_quoted:
if token[-1] == '\n': # continued string
contstr_start = lnum, start
endprog = (endpats.get(initial) or endpats.get(token[1])
or endpats.get(token[2]))
contstr = line[start:]
contline = line
break
else: # ordinary string
yield TokenInfo(STRING, token, spos, prefix)
elif is_identifier(initial): # ordinary name
if token in ALWAYS_BREAK_TOKENS:
paren_level = 0
while True:
indent = indents.pop()
if indent > start:
yield TokenInfo(DEDENT, '', spos, '')
else:
indents.append(indent)
break
yield TokenInfo(NAME, token, spos, prefix)
elif initial == '\\' and line[start:] in ('\\\n', '\\\r\n'): # continued stmt
additional_prefix += prefix + line[start:]
break
else:
if token in '([{':
paren_level += 1
elif token in ')]}':
paren_level -= 1
try:
# This check is needed in any case to check if it's a valid
# operator or just some random unicode character.
exact_type = opmap[token]
except KeyError:
exact_type = typ = ERRORTOKEN
if use_exact_op_types:
typ = exact_type
else:
typ = OP
yield TokenInfo(typ, token, spos, prefix)
if contstr:
yield TokenInfo(ERRORTOKEN, contstr, contstr_start, prefix)
if contstr.endswith('\n'):
new_line = True
end_pos = lnum, max
# As the last position we just take the maximally possible position. We
# remove -1 for the last new line.
for indent in indents[1:]:
yield TokenInfo(DEDENT, '', end_pos, '')
yield TokenInfo(ENDMARKER, '', end_pos, additional_prefix)
if __name__ == "__main__":
import sys
if len(sys.argv) >= 2:
path = sys.argv[1]
with open(path) as f:
code = u(f.read())
else:
code = u(sys.stdin.read())
for token in source_tokens(code, use_exact_op_types=True):
print(token)
| gpl-3.0 |
ericlink/adms-server | playframework-dist/1.1-src/framework/pym/play/utils.py | 2 | 8837 | import sys
import os, os.path
import re
import random
import fileinput
import getopt
import shutil
import zipfile
def playVersion(play_env):
play_version_file = os.path.join(play_env["basedir"], 'framework', 'src', 'play', 'version')
return open(play_version_file).readline().strip()
def replaceAll(file, searchExp, replaceExp, regexp=False):
if not regexp:
replaceExp = replaceExp.replace('\\', '\\\\')
searchExp = searchExp.replace('$', '\\$')
searchExp = searchExp.replace('{', '\\{')
searchExp = searchExp.replace('}', '\\}')
searchExp = searchExp.replace('.', '\\.')
for line in fileinput.input(file, inplace=1):
line = re.sub(searchExp, replaceExp, line)
sys.stdout.write(line)
def fileHas(file, searchExp):
# The file doesn't get closed if we don't iterate to the end, so
# we must continue even after we found the match.
found = False
for line in fileinput.input(file):
if line.find(searchExp) > -1:
found = True
return found
def secretKey():
return ''.join([random.choice('ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789') for i in range(64)])
def isParentOf(path1, path2):
if len(path2) < len(path1) or len(path2) < 2:
return False
if (path1 == path2):
return True
return isParentOf(path1, os.path.dirname(path2))
def isParentOf(path1, path2):
if len(path2) < len(path1) or len(path2) < 2:
return False
if (path1 == path2):
return True
def getWithModules(args, env):
withModules = []
try:
optlist, newargs = getopt.getopt(args, '', ['with=', 'name='])
for o, a in optlist:
if o in ('--with='):
withModules = a.split(',')
except getopt.GetoptError:
pass # Other argument that --with= has been passed (which is OK)
md = []
for m in withModules:
dirname = None
candidate = os.path.join(env["basedir"], 'modules/%s' % m)
if os.path.exists(candidate) and os.path.isdir(candidate):
dirname = candidate
else:
for f in os.listdir(os.path.join(env["basedir"], 'modules')):
if os.path.isdir(os.path.join(env["basedir"], 'modules/%s' % f)) and f.find('%s-' % m) == 0:
dirname = os.path.join(env["basedir"], 'modules/%s' % f)
break
md.append(dirname)
return md
def package_as_war(app, env, war_path, war_zip_path):
app.check()
modules = app.modules()
classpath = app.getClasspath()
if not war_path:
print "~ Oops. Please specify a path where to generate the WAR, using the -o or --output option"
print "~"
sys.exit(-1)
if os.path.exists(war_path) and not os.path.exists(os.path.join(war_path, 'WEB-INF')):
print "~ Oops. The destination path already exists but does not seem to host a valid WAR structure"
print "~"
sys.exit(-1)
if isParentOf(app.path, war_path):
print "~ Oops. Please specify a destination directory outside of the application"
print "~"
sys.exit(-1)
print "~ Packaging current version of the framework and the application to %s ..." % (os.path.normpath(war_path))
if os.path.exists(war_path): shutil.rmtree(war_path)
if os.path.exists(os.path.join(app.path, 'war')):
copy_directory(os.path.join(app.path, 'war'), war_path)
else:
os.mkdir(war_path)
if not os.path.exists(os.path.join(war_path, 'WEB-INF')): os.mkdir(os.path.join(war_path, 'WEB-INF'))
if not os.path.exists(os.path.join(war_path, 'WEB-INF/web.xml')):
shutil.copyfile(os.path.join(env["basedir"], 'resources/war/web.xml'), os.path.join(war_path, 'WEB-INF/web.xml'))
application_name = app.readConf('application.name')
replaceAll(os.path.join(war_path, 'WEB-INF/web.xml'), r'%APPLICATION_NAME%', application_name)
if env["id"] is not "":
replaceAll(os.path.join(war_path, 'WEB-INF/web.xml'), r'%PLAY_ID%', env["id"])
else:
replaceAll(os.path.join(war_path, 'WEB-INF/web.xml'), r'%PLAY_ID%', 'war')
if os.path.exists(os.path.join(war_path, 'WEB-INF/application')): shutil.rmtree(os.path.join(war_path, 'WEB-INF/application'))
copy_directory(app.path, os.path.join(war_path, 'WEB-INF/application'))
if os.path.exists(os.path.join(war_path, 'WEB-INF/application/war')):
shutil.rmtree(os.path.join(war_path, 'WEB-INF/application/war'))
if os.path.exists(os.path.join(war_path, 'WEB-INF/application/logs')):
shutil.rmtree(os.path.join(war_path, 'WEB-INF/application/logs'))
copy_directory(os.path.join(app.path, 'conf'), os.path.join(war_path, 'WEB-INF/classes'))
if os.path.exists(os.path.join(war_path, 'WEB-INF/lib')): shutil.rmtree(os.path.join(war_path, 'WEB-INF/lib'))
os.mkdir(os.path.join(war_path, 'WEB-INF/lib'))
for jar in classpath:
if jar.endswith('.jar') and jar.find('provided-') == -1:
shutil.copyfile(jar, os.path.join(war_path, 'WEB-INF/lib/%s' % os.path.split(jar)[1]))
if os.path.exists(os.path.join(war_path, 'WEB-INF/framework')): shutil.rmtree(os.path.join(war_path, 'WEB-INF/framework'))
os.mkdir(os.path.join(war_path, 'WEB-INF/framework'))
copy_directory(os.path.join(env["basedir"], 'framework/templates'), os.path.join(war_path, 'WEB-INF/framework/templates'))
# modules
for module in modules:
to = os.path.join(war_path, 'WEB-INF/modules/%s' % os.path.basename(module))
copy_directory(module, to)
if os.path.exists(os.path.join(to, 'src')):
shutil.rmtree(os.path.join(to, 'src'))
if os.path.exists(os.path.join(to, 'dist')):
shutil.rmtree(os.path.join(to, 'dist'))
if os.path.exists(os.path.join(to, 'samples-and-tests')):
shutil.rmtree(os.path.join(to, 'samples-and-tests'))
if os.path.exists(os.path.join(to, 'build.xml')):
os.remove(os.path.join(to, 'build.xml'))
if os.path.exists(os.path.join(to, 'commands.py')):
os.remove(os.path.join(to, 'commands.py'))
if os.path.exists(os.path.join(to, 'lib')):
shutil.rmtree(os.path.join(to, 'lib'))
if os.path.exists(os.path.join(to, 'nbproject')):
shutil.rmtree(os.path.join(to, 'nbproject'))
if os.path.exists(os.path.join(to, 'documentation')):
shutil.rmtree(os.path.join(to, 'documentation'))
pm = app.readConfs('module.')
for m in pm:
nm = os.path.basename(m)
replaceAll(os.path.join(war_path, 'WEB-INF/application/conf/application.conf'), m, '../modules/%s' % nm)
if not os.path.exists(os.path.join(war_path, 'WEB-INF/resources')): os.mkdir(os.path.join(war_path, 'WEB-INF/resources'))
shutil.copyfile(os.path.join(env["basedir"], 'resources/messages'), os.path.join(war_path, 'WEB-INF/resources/messages'))
if war_zip_path:
print "~ Creating zipped archive to %s ..." % (os.path.normpath(war_zip_path))
if os.path.exists(war_zip_path):
os.remove(war_zip_path)
zip = zipfile.ZipFile(war_zip_path, 'w', zipfile.ZIP_STORED)
dist_dir = os.path.join(app.path, 'dist')
for (dirpath, dirnames, filenames) in os.walk(war_path):
if dirpath == dist_dir:
continue
if dirpath.find('/.') > -1:
continue
for file in filenames:
if file.find('~') > -1 or file.startswith('.'):
continue
zip.write(os.path.join(dirpath, file), os.path.join(dirpath[len(war_path):], file))
zip.close()
# Recursively delete all files/folders in root whose name equals to filename
# We could pass a "ignore" parameter to copytree, but that's not supported in Python 2.5
def deleteFrom(root, filenames):
for f in os.listdir(root):
fullpath = os.path.join(root, f)
if f in filenames:
delete(fullpath)
elif os.path.isdir(fullpath):
deleteFrom(fullpath, filenames)
def delete(filename):
if os.path.isdir(filename):
shutil.rmtree(filename)
else:
os.remove(filename)
def copy_directory(source, target):
if not os.path.exists(target):
os.makedirs(target)
for root, dirs, files in os.walk(source):
for file in files:
if root.find('/.') > -1:
continue
if file.find('~') == 0 or file.startswith('.'):
continue
from_ = os.path.join(root, file)
to_ = from_.replace(source, target, 1)
to_directory = os.path.split(to_)[0]
if not os.path.exists(to_directory):
os.makedirs(to_directory)
shutil.copyfile(from_, to_) | mit |
eHealthAfrica/onadata | onadata/apps/api/serializers.py | 2 | 9603 | import copy
from django.forms import widgets
from django.contrib.auth.models import User
from rest_framework import serializers
from rest_framework.exceptions import ParseError
from onadata.apps.api.models import Project, OrganizationProfile, Team
from onadata.apps.api.fields import HyperlinkedMultiIdentityField,\
HyperlinkedMultiRelatedField
from onadata.apps.api import tools
from onadata.apps.main.models import UserProfile
from onadata.apps.main.forms import UserProfileForm,\
RegistrationFormUserProfile
from onadata.apps.logger.models import XForm, Note
class UserSerializer(serializers.HyperlinkedModelSerializer):
class Meta:
model = User
fields = ('username', 'first_name', 'last_name')
#exclude = ('groups', 'user_permissions')
lookup_field = 'username'
class UserProfileSerializer(serializers.HyperlinkedModelSerializer):
username = serializers.WritableField(source='user.username')
email = serializers.WritableField(source='user.email')
website = serializers.WritableField(source='home_page', required=False)
gravatar = serializers.Field(source='gravatar')
password = serializers.WritableField(
source='user.password', widget=widgets.PasswordInput(), required=False)
user = serializers.HyperlinkedRelatedField(
view_name='user-detail', lookup_field='username', read_only=True)
class Meta:
model = UserProfile
fields = ('url', 'username', 'name', 'password', 'email', 'city',
'country', 'organization', 'website', 'twitter', 'gravatar',
'require_auth', 'user')
lookup_field = 'user'
def to_native(self, obj):
"""
Serialize objects -> primitives.
"""
ret = super(UserProfileSerializer, self).to_native(obj)
if 'password' in ret:
del ret['password']
return ret
def restore_object(self, attrs, instance=None):
def _get_first_last_names(name):
name_split = name.split()
first_name = name_split[0]
last_name = u''
if len(name_split) > 1:
last_name = u' '.join(name_split[1:])
return first_name, last_name
params = copy.deepcopy(attrs)
username = attrs.get('user.username', None)
password = attrs.get('user.password', None)
name = attrs.get('name', None)
email = attrs.get('user.email', None)
if username:
params['username'] = username
if email:
params['email'] = email
if password:
params.update({'password1': password, 'password2': password})
if instance:
form = UserProfileForm(params, instance=instance)
# form.is_valid affects instance object for partial updates [PATCH]
# so only use it for full updates [PUT], i.e shallow copy effect
if not self.partial and form.is_valid():
instance = form.save()
# get user
if email:
instance.user.email = form.cleaned_data['email']
if name:
first_name, last_name = _get_first_last_names(name)
instance.user.first_name = first_name
instance.user.last_name = last_name
if email or name:
instance.user.save()
return super(
UserProfileSerializer, self).restore_object(attrs, instance)
#return instance # TODO: updates
form = RegistrationFormUserProfile(params)
# does not require captcha
form.REGISTRATION_REQUIRE_CAPTCHA = False
if form.is_valid():
first_name, last_name = _get_first_last_names(name)
new_user = User(username=username, first_name=first_name,
last_name=last_name, email=email)
new_user.set_password(password)
new_user.save()
created_by = self.context['request'].user
profile = UserProfile(
user=new_user, name=attrs.get('name', u''),
created_by=created_by,
city=attrs.get('city', u''),
country=attrs.get('country', u''),
organization=attrs.get('organization', u''),
home_page=attrs.get('home_page', u''),
twitter=attrs.get('twitter', u''))
return profile
else:
self.errors.update(form.errors)
return attrs
class TagListSerializer(serializers.WritableField):
def from_native(self, data):
if type(data) is not list:
raise ParseError("expected a list of data")
return data
def to_native(self, obj):
if type(obj) is not list:
return [tag.name for tag in obj.all()]
return obj
class XFormSerializer(serializers.HyperlinkedModelSerializer):
url = HyperlinkedMultiIdentityField(
view_name='xform-detail',
lookup_fields=(('pk', 'pk'), ('owner', 'user')))
formid = serializers.Field(source='id')
owner = serializers.HyperlinkedRelatedField(
view_name='user-detail',
source='user', lookup_field='username')
public = serializers.BooleanField(
source='shared', widget=widgets.CheckboxInput())
public_data = serializers.BooleanField(
source='shared_data')
tags = TagListSerializer()
class Meta:
model = XForm
read_only_fields = (
'json', 'xml', 'date_created', 'date_modified', 'encrypted')
exclude = ('id', 'json', 'xml', 'xls', 'user',
'has_start_time', 'shared', 'shared_data')
class ProjectSerializer(serializers.HyperlinkedModelSerializer):
url = HyperlinkedMultiIdentityField(
view_name='project-detail',
lookup_fields=(('pk', 'pk'), ('owner', 'organization')))
owner = serializers.HyperlinkedRelatedField(
view_name='user-detail',
source='organization', lookup_field='username')
created_by = serializers.HyperlinkedRelatedField(
view_name='user-detail', lookup_field='username', read_only=True)
class Meta:
model = Project
exclude = ('organization', 'created_by')
def restore_object(self, attrs, instance=None):
if instance:
return super(ProjectSerializer, self)\
.restore_object(attrs, instance)
if 'request' in self.context:
created_by = self.context['request'].user
return Project(
name=attrs.get('name'),
organization=attrs.get('organization'),
created_by=created_by,)
return attrs
class OrganizationSerializer(serializers.HyperlinkedModelSerializer):
org = serializers.WritableField(source='user.username')
user = serializers.HyperlinkedRelatedField(
view_name='user-detail', lookup_field='username', read_only=True)
creator = serializers.HyperlinkedRelatedField(
view_name='user-detail', lookup_field='username', read_only=True)
class Meta:
model = OrganizationProfile
lookup_field = 'user'
exclude = ('created_by', 'is_organization', 'organization')
def restore_object(self, attrs, instance=None):
if instance:
return super(OrganizationSerializer, self)\
.restore_object(attrs, instance)
org = attrs.get('user.username', None)
org_exists = False
try:
User.objects.get(username=org)
except User.DoesNotExist:
pass
else:
self.errors['org'] = u'Organization %s already exists.' % org
org_exists = True
creator = None
if 'request' in self.context:
creator = self.context['request'].user
if org and creator and not org_exists:
attrs['organization'] = attrs.get('name')
orgprofile = tools.create_organization_object(org, creator, attrs)
return orgprofile
if not org:
self.errors['org'] = u'org is required!'
return attrs
class TeamSerializer(serializers.Serializer):
url = HyperlinkedMultiIdentityField(
view_name='team-detail',
lookup_fields=(('pk', 'pk'), ('owner', 'organization')))
name = serializers.CharField(max_length=100, source='team_name')
organization = serializers.HyperlinkedRelatedField(
view_name='user-detail', lookup_field='username',
source='organization',
queryset=User.objects.filter(
pk__in=OrganizationProfile.objects.values('user')))
projects = HyperlinkedMultiRelatedField(
view_name='project-detail', source='projects', many=True,
queryset=Project.objects.all(), read_only=True,
lookup_fields=(('pk', 'pk'), ('owner', 'organization')))
def restore_object(self, attrs, instance=None):
org = attrs.get('organization', None)
projects = attrs.get('projects', [])
if instance:
instance.organization = org if org else instance.organization
instance.name = attrs.get('team_name', instance.name)
instance.projects.clear()
for project in projects:
instance.projects.add(project)
return instance
team_name = attrs.get('team_name', None)
if not team_name:
self.errors['name'] = u'A team name is required'
return attrs
return Team(organization=org, name=team_name)
class NoteSerializer(serializers.ModelSerializer):
class Meta:
model = Note
| bsd-2-clause |
mlperf/training_results_v0.6 | NVIDIA/benchmarks/minigo/implementations/tensorflow/minigo/features.py | 3 | 4840 | # Copyright 2018 Google LLC
#
# Licensed 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.
"""
Features used by AlphaGo Zero, in approximate order of importance.
Feature # Notes
Stone History 16 The stones of each color during the last 8 moves.
Ones 1 Constant plane of 1s
All features with 8 planes are 1-hot encoded, with plane i marked with 1
only if the feature was equal to i. Any features >= 8 would be marked as 8.
This file includes the features from the first paper as DEFAULT_FEATURES
and the features from AGZ as NEW_FEATURES.
"""
import numpy as np
import go
import utils
# Resolution/truncation limit for one-hot features
P = 8
def make_onehot(feature, planes):
onehot_features = np.zeros(feature.shape + (planes,), dtype=np.uint8)
capped = np.minimum(feature, planes)
onehot_index_offsets = np.arange(0, utils.product(
onehot_features.shape), planes) + capped.ravel()
# A 0 is encoded as [0,0,0,0], not [1,0,0,0], so we'll
# filter out any offsets that are a multiple of $planes
# A 1 is encoded as [1,0,0,0], not [0,1,0,0], so subtract 1 from offsets
nonzero_elements = (capped != 0).ravel()
nonzero_index_offsets = onehot_index_offsets[nonzero_elements] - 1
onehot_features.ravel()[nonzero_index_offsets] = 1
return onehot_features
def planes(num_planes):
def deco(f):
f.planes = num_planes
return f
return deco
@planes(16)
def stone_features(position):
# a bit easier to calculate it with axis 0 being the 16 board states,
# and then roll axis 0 to the end.
features = np.zeros([16, go.N, go.N], dtype=np.uint8)
num_deltas_avail = position.board_deltas.shape[0]
cumulative_deltas = np.cumsum(position.board_deltas, axis=0)
last_eight = np.tile(position.board, [8, 1, 1])
# apply deltas to compute previous board states
last_eight[1:num_deltas_avail + 1] -= cumulative_deltas
# if no more deltas are available, just repeat oldest board.
last_eight[num_deltas_avail +
1:] = last_eight[num_deltas_avail].reshape(1, go.N, go.N)
features[::2] = last_eight == position.to_play
features[1::2] = last_eight == -position.to_play
return np.rollaxis(features, 0, 3)
@planes(1)
def color_to_play_feature(position):
if position.to_play == go.BLACK:
return np.ones([go.N, go.N, 1], dtype=np.uint8)
else:
return np.zeros([go.N, go.N, 1], dtype=np.uint8)
@planes(3)
def stone_color_feature(position):
board = position.board
features = np.zeros([go.N, go.N, 3], dtype=np.uint8)
if position.to_play == go.BLACK:
features[board == go.BLACK, 0] = 1
features[board == go.WHITE, 1] = 1
else:
features[board == go.WHITE, 0] = 1
features[board == go.BLACK, 1] = 1
features[board == go.EMPTY, 2] = 1
return features
@planes(1)
def ones_feature(position):
return np.ones([go.N, go.N, 1], dtype=np.uint8)
@planes(P)
def recent_move_feature(position):
onehot_features = np.zeros([go.N, go.N, P], dtype=np.uint8)
for i, player_move in enumerate(reversed(position.recent[-P:])):
_, move = player_move # unpack the info from position.recent
if move is not None:
onehot_features[move[0], move[1], i] = 1
return onehot_features
@planes(P)
def liberty_feature(position):
return make_onehot(position.get_liberties(), P)
@planes(P)
def would_capture_feature(position):
features = np.zeros([go.N, go.N], dtype=np.uint8)
for g in position.lib_tracker.groups.values():
if g.color == position.to_play:
continue
if len(g.liberties) == 1:
last_lib = list(g.liberties)[0]
# += because the same spot may capture more than 1 group.
features[last_lib] += len(g.stones)
return make_onehot(features, P)
DEFAULT_FEATURES = [
stone_color_feature,
ones_feature,
liberty_feature,
recent_move_feature,
would_capture_feature,
]
DEFAULT_FEATURES_PLANES = sum(f.planes for f in DEFAULT_FEATURES)
NEW_FEATURES = [
stone_features,
color_to_play_feature
]
NEW_FEATURES_PLANES = sum(f.planes for f in NEW_FEATURES)
def extract_features(position, features=NEW_FEATURES):
return np.concatenate([feature(position) for feature in features], axis=2)
| apache-2.0 |
allotria/intellij-community | python/helpers/pydev/_pydev_bundle/pydev_console_utils.py | 5 | 18214 | import os
import signal
import sys
import traceback
from _pydev_bundle import _pydev_imports_tipper
from _pydev_bundle.pydev_code_executor import BaseCodeExecutor
from _pydev_bundle.pydev_console_types import CodeFragment
from _pydev_bundle.pydev_imports import Exec
from _pydev_bundle.pydev_stdin import StdIn, DebugConsoleStdIn
from _pydev_imps._pydev_saved_modules import thread
from _pydevd_bundle import pydevd_thrift
from _pydevd_bundle import pydevd_vars
from _pydevd_bundle.pydevd_comm import InternalDataViewerAction
from _pydevd_bundle.pydevd_constants import IS_JYTHON, dict_iter_items
from pydev_console.pydev_protocol import CompletionOption, CompletionOptionType, PythonUnhandledException
try:
import cStringIO as StringIO # may not always be available @UnusedImport
except:
try:
import StringIO # @Reimport
except:
import io as StringIO
# translation to Thrift `CompletionOptionType` enumeration
COMPLETION_OPTION_TYPES = {
_pydev_imports_tipper.TYPE_IMPORT: CompletionOptionType.IMPORT,
_pydev_imports_tipper.TYPE_CLASS: CompletionOptionType.CLASS,
_pydev_imports_tipper.TYPE_FUNCTION: CompletionOptionType.FUNCTION,
_pydev_imports_tipper.TYPE_ATTR: CompletionOptionType.ATTR,
_pydev_imports_tipper.TYPE_BUILTIN: CompletionOptionType.BUILTIN,
_pydev_imports_tipper.TYPE_PARAM: CompletionOptionType.PARAM,
_pydev_imports_tipper.TYPE_IPYTHON: CompletionOptionType.IPYTHON,
_pydev_imports_tipper.TYPE_IPYTHON_MAGIC: CompletionOptionType.IPYTHON_MAGIC,
}
def _to_completion_option(word):
name, documentation, args, ret_type = word
completion_option_type = COMPLETION_OPTION_TYPES[ret_type]
return CompletionOption(name, documentation, args.split(), completion_option_type)
# =======================================================================================================================
# Null
# =======================================================================================================================
class Null:
"""
Gotten from: http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/68205
"""
def __init__(self, *args, **kwargs):
return None
def __call__(self, *args, **kwargs):
return self
def __getattr__(self, mname):
return self
def __setattr__(self, name, value):
return self
def __delattr__(self, name):
return self
def __repr__(self):
return "<Null>"
def __str__(self):
return "Null"
def __len__(self):
return 0
def __getitem__(self):
return self
def __setitem__(self, *args, **kwargs):
pass
def write(self, *args, **kwargs):
pass
def __nonzero__(self):
return 0
# =======================================================================================================================
# BaseInterpreterInterface
# =======================================================================================================================
class BaseInterpreterInterface(BaseCodeExecutor):
def __init__(self, mainThread, connect_status_queue=None, rpc_client=None):
super(BaseInterpreterInterface, self).__init__()
self.mainThread = mainThread
self.banner_shown = False
self.connect_status_queue = connect_status_queue
self.rpc_client = rpc_client
def build_banner(self):
return 'print({0})\n'.format(repr(self.get_greeting_msg()))
def create_std_in(self, debugger=None, original_std_in=None):
if debugger is None:
return StdIn(self, self.rpc_client, original_stdin=original_std_in)
else:
return DebugConsoleStdIn(dbg=debugger, original_stdin=original_std_in)
def do_exec_code(self, code, is_single_line):
try:
code_fragment = CodeFragment(code, is_single_line)
more = self.need_more(code_fragment)
if not more:
code_fragment = self.buffer
self.buffer = None
self.exec_queue.put(code_fragment)
return more
except:
traceback.print_exc()
return False
def execLine(self, line):
try:
if not self.banner_shown:
line = self.build_banner() + line
self.banner_shown = True
return self.do_exec_code(line, True)
except:
traceback.print_exc()
raise PythonUnhandledException(traceback.format_exc())
def execMultipleLines(self, lines):
try:
if not self.banner_shown:
lines = self.build_banner() + lines
self.banner_shown = True
if IS_JYTHON:
for line in lines.split('\n'):
self.do_exec_code(line, True)
else:
return self.do_exec_code(lines, False)
except:
traceback.print_exc()
raise PythonUnhandledException(traceback.format_exc())
def interrupt(self):
self.buffer = None # Also clear the buffer when it's interrupted.
try:
if self.interruptable:
called = False
try:
# Fix for #PyDev-500: Console interrupt can't interrupt on sleep
if os.name == 'posix':
# On Linux we can't interrupt 0 as in Windows because it's
# actually owned by a process -- on the good side, signals
# work much better on Linux!
os.kill(os.getpid(), signal.SIGINT)
called = True
elif os.name == 'nt':
# Stupid windows: sending a Ctrl+C to a process given its pid
# is absurdly difficult.
# There are utilities to make it work such as
# http://www.latenighthacking.com/projects/2003/sendSignal/
# but fortunately for us, it seems Python does allow a CTRL_C_EVENT
# for the current process in Windows if pid 0 is passed... if we needed
# to send a signal to another process the approach would be
# much more difficult.
# Still, note that CTRL_C_EVENT is only Python 2.7 onwards...
# Also, this doesn't seem to be documented anywhere!? (stumbled
# upon it by chance after digging quite a lot).
os.kill(0, signal.CTRL_C_EVENT)
called = True
except:
# Many things to go wrong (from CTRL_C_EVENT not being there
# to failing import signal)... if that's the case, ask for
# forgiveness and go on to the approach which will interrupt
# the main thread (but it'll only work when it's executing some Python
# code -- not on sleep() for instance).
pass
if not called:
if hasattr(thread, 'interrupt_main'): # Jython doesn't have it
thread.interrupt_main()
else:
self.mainThread._thread.interrupt() # Jython
self.finish_exec(False)
return True
except:
traceback.print_exc()
return False
def close(self):
sys.exit(0)
def get_server(self):
if getattr(self, 'rpc_client', None) is not None:
return self.rpc_client
else:
return None
server = property(get_server)
def ShowConsole(self):
server = self.get_server()
if server is not None:
server.showConsole()
def finish_exec(self, more):
self.interruptable = False
server = self.get_server()
if server is not None:
return server.notifyFinished(more)
else:
return True
def getFrame(self):
try:
hidden_ns = self.get_ipython_hidden_vars_dict()
return pydevd_thrift.frame_vars_to_struct(self.get_namespace(), hidden_ns)
except:
traceback.print_exc()
raise PythonUnhandledException(traceback.format_exc())
def getVariable(self, attributes):
try:
debug_values = []
val_dict = pydevd_vars.resolve_compound_var_object_fields(self.get_namespace(), attributes)
if val_dict is None:
val_dict = {}
keys = val_dict.keys()
for k in keys:
val = val_dict[k]
evaluate_full_value = pydevd_thrift.should_evaluate_full_value(val)
debug_values.append(pydevd_thrift.var_to_struct(val, k, evaluate_full_value=evaluate_full_value))
return debug_values
except:
traceback.print_exc()
raise PythonUnhandledException(traceback.format_exc())
def getArray(self, attr, roffset, coffset, rows, cols, format):
try:
name = attr.split("\t")[-1]
array = pydevd_vars.eval_in_context(name, self.get_namespace(), self.get_namespace())
return pydevd_thrift.table_like_struct_to_thrift_struct(array, name, roffset, coffset, rows, cols, format)
except:
traceback.print_exc()
raise PythonUnhandledException(traceback.format_exc())
def execDataViewerAction(self, varName, action, args):
try:
tmp_var = pydevd_vars.eval_in_context(varName, self.get_namespace(), self.get_namespace())
return InternalDataViewerAction.act(tmp_var, action, args.split("\t"))
except Exception as e:
raise PythonUnhandledException(type(e).__name__ + "\n" + traceback.format_exc())
def evaluate(self, expression, do_trunc):
# returns `DebugValue` of evaluated expression
try:
result = pydevd_vars.eval_in_context(expression, self.get_namespace(), self.get_namespace())
return [pydevd_thrift.var_to_struct(result, expression, do_trim=do_trunc)]
except:
traceback.print_exc()
raise PythonUnhandledException(traceback.format_exc())
def do_get_completions(self, text, act_tok):
"""Retrieves completion options.
Returns the array with completion options tuples.
:param text: the full text of the expression to complete
:param act_tok: resolved part of the expression
:return: the array of tuples `(name, documentation, args, ret_type)`
:Example:
Let us execute ``import time`` line in the Python console. Then try
to complete ``time.sle`` expression. At this point the method would
receive ``time.sle`` as ``text`` parameter and ``time.`` as
``act_tok`` parameter. The result would contain the array with the
following tuple among others: ``[..., ('sleep',
'sleep(seconds)\\n\\nDelay execution ...', '(seconds)', '2'),
...]``.
"""
try:
from _pydev_bundle._pydev_completer import Completer
completer = Completer(self.get_namespace(), None)
return completer.complete(act_tok)
except:
traceback.print_exc()
return []
def getCompletions(self, text, act_tok):
try:
words = self.do_get_completions(text, act_tok)
return [_to_completion_option(word) for word in words]
except:
raise PythonUnhandledException(traceback.format_exc())
def loadFullValue(self, seq, scope_attrs):
"""
Evaluate full value for async Console variables in a separate thread and send results to IDE side
:param seq: id of command
:param scope_attrs: a sequence of variables with their attributes separated by NEXT_VALUE_SEPARATOR
(i.e.: obj\tattr1\tattr2NEXT_VALUE_SEPARATORobj2\attr1\tattr2)
:return:
"""
try:
frame_variables = self.get_namespace()
var_objects = []
# vars = scope_attrs.split(NEXT_VALUE_SEPARATOR)
vars = scope_attrs
for var_attrs in vars:
if '\t' in var_attrs:
name, attrs = var_attrs.split('\t', 1)
else:
name = var_attrs
attrs = None
if name in frame_variables.keys():
var_object = pydevd_vars.resolve_var_object(frame_variables[name], attrs)
var_objects.append((var_object, name))
else:
var_object = pydevd_vars.eval_in_context(name, frame_variables, frame_variables)
var_objects.append((var_object, name))
from _pydev_bundle.pydev_console_commands import ThriftGetValueAsyncThreadConsole
t = ThriftGetValueAsyncThreadConsole(self.get_server(), seq, var_objects)
t.start()
except:
traceback.print_exc()
raise PythonUnhandledException(traceback.format_exc())
def changeVariable(self, attr, value):
try:
def do_change_variable():
Exec('%s=%s' % (attr, value), self.get_namespace(), self.get_namespace())
# Important: it has to be really enabled in the main thread, so, schedule
# it to run in the main thread.
self.exec_queue.put(do_change_variable)
except:
traceback.print_exc()
raise PythonUnhandledException(traceback.format_exc())
def _findFrame(self, thread_id, frame_id):
'''
Used to show console with variables connection.
Always return a frame where the locals map to our internal namespace.
'''
VIRTUAL_FRAME_ID = "1" # matches PyStackFrameConsole.java
VIRTUAL_CONSOLE_ID = "console_main" # matches PyThreadConsole.java
if thread_id == VIRTUAL_CONSOLE_ID and frame_id == VIRTUAL_FRAME_ID:
f = FakeFrame()
f.f_globals = {} # As globals=locals here, let's simply let it empty (and save a bit of network traffic).
f.f_locals = self.get_namespace()
return f
else:
return self.orig_find_frame(thread_id, frame_id)
def connectToDebugger(self, debuggerPort, debugger_host=None, debugger_options=None, extra_envs=None):
'''
Used to show console with variables connection.
Mainly, monkey-patches things in the debugger structure so that the debugger protocol works.
'''
try:
if debugger_options is None:
debugger_options = {}
for (env_name, value) in dict_iter_items(extra_envs):
existing_value = os.environ.get(env_name, None)
if existing_value:
os.environ[env_name] = "%s%c%s" % (existing_value, os.path.pathsep, value)
else:
os.environ[env_name] = value
if env_name == "PYTHONPATH":
sys.path.append(value)
def do_connect_to_debugger():
try:
# Try to import the packages needed to attach the debugger
import pydevd
from _pydev_imps._pydev_saved_modules import threading
except:
# This happens on Jython embedded in host eclipse
traceback.print_exc()
sys.stderr.write('pydevd is not available, cannot connect\n', )
from _pydevd_bundle.pydevd_constants import set_thread_id
from _pydev_bundle import pydev_localhost
set_thread_id(threading.currentThread(), "console_main")
self.orig_find_frame = pydevd_vars.find_frame
pydevd_vars.find_frame = self._findFrame
self.debugger = pydevd.PyDB()
try:
pydevd.apply_debugger_options(debugger_options)
if debugger_host is None or pydev_localhost.is_localhost(debugger_host):
host = pydev_localhost.get_localhost()
else:
host = debugger_host
self.debugger.connect(host, debuggerPort)
self.debugger.prepare_to_run()
self.debugger.disable_tracing()
except:
traceback.print_exc()
sys.stderr.write('Failed to connect to target debugger.\n')
# Register to process commands when idle
self.debugrunning = False
try:
import pydevconsole
pydevconsole.set_debug_hook(self.debugger.process_internal_commands)
except:
traceback.print_exc()
sys.stderr.write('Version of Python does not support debuggable Interactive Console.\n')
# Important: it has to be really enabled in the main thread, so, schedule
# it to run in the main thread.
self.exec_queue.put(do_connect_to_debugger)
return ('connect complete',)
except:
traceback.print_exc()
raise PythonUnhandledException(traceback.format_exc())
def handshake(self):
if self.connect_status_queue is not None:
self.connect_status_queue.put(True)
return "PyCharm"
def get_connect_status_queue(self):
return self.connect_status_queue
def hello(self, input_str):
# Don't care what the input string is
return ("Hello eclipse",)
# =======================================================================================================================
# FakeFrame
# =======================================================================================================================
class FakeFrame:
'''
Used to show console with variables connection.
A class to be used as a mock of a frame.
'''
| apache-2.0 |
takahiro33/ICC | .waf-1.7.9-786a25f4411038005f1f2ec0d121c503/waflib/extras/boost.py | 3 | 10213 | #! /usr/bin/env python
# encoding: utf-8
# WARNING! Do not edit! http://waf.googlecode.com/git/docs/wafbook/single.html#_obtaining_the_waf_file
'''
This is an extra tool, not bundled with the default waf binary.
To add the boost tool to the waf file:
$ ./waf-light --tools=compat15,boost
or, if you have waf >= 1.6.2
$ ./waf update --files=boost
When using this tool, the wscript will look like:
def options(opt):
opt.load('compiler_cxx boost')
def configure(conf):
conf.load('compiler_cxx boost')
conf.check_boost(lib='system filesystem')
def build(bld):
bld(source='main.cpp', target='app', use='BOOST')
Options are generated, in order to specify the location of boost includes/libraries.
The `check_boost` configuration function allows to specify the used boost libraries.
It can also provide default arguments to the --boost-static and --boost-mt command-line arguments.
Everything will be packaged together in a BOOST component that you can use.
When using MSVC, a lot of compilation flags need to match your BOOST build configuration:
- you may have to add /EHsc to your CXXFLAGS or define boost::throw_exception if BOOST_NO_EXCEPTIONS is defined.
Errors: C4530
- boost libraries will try to be smart and use the (pretty but often not useful) auto-linking feature of MSVC
So before calling `conf.check_boost` you might want to disabling by adding:
conf.env.DEFINES_BOOST += ['BOOST_ALL_NO_LIB']
Errors:
- boost might also be compiled with /MT, which links the runtime statically.
If you have problems with redefined symbols,
self.env['DEFINES_%s' % var] += ['BOOST_ALL_NO_LIB']
self.env['CXXFLAGS_%s' % var] += ['/MD', '/EHsc']
Passing `--boost-linkage_autodetect` might help ensuring having a correct linkage in some basic cases.
'''
import sys
import re
from waflib import Utils,Logs,Errors
from waflib.Configure import conf
BOOST_LIBS=['/usr/lib','/usr/local/lib','/opt/local/lib','/sw/lib','/lib']
BOOST_INCLUDES=['/usr/include','/usr/local/include','/opt/local/include','/sw/include']
BOOST_VERSION_FILE='boost/version.hpp'
BOOST_VERSION_CODE='''
#include <iostream>
#include <boost/version.hpp>
int main() { std::cout << BOOST_LIB_VERSION << std::endl; }
'''
PLATFORM=Utils.unversioned_sys_platform()
detect_intel=lambda env:(PLATFORM=='win32')and'iw'or'il'
detect_clang=lambda env:(PLATFORM=='darwin')and'clang-darwin'or'clang'
detect_mingw=lambda env:(re.search('MinGW',env.CXX[0]))and'mgw'or'gcc'
BOOST_TOOLSETS={'borland':'bcb','clang':detect_clang,'como':'como','cw':'cw','darwin':'xgcc','edg':'edg','g++':detect_mingw,'gcc':detect_mingw,'icpc':detect_intel,'intel':detect_intel,'kcc':'kcc','kylix':'bck','mipspro':'mp','mingw':'mgw','msvc':'vc','qcc':'qcc','sun':'sw','sunc++':'sw','tru64cxx':'tru','vacpp':'xlc'}
def options(opt):
opt.add_option('--boost-includes',type='string',default='',dest='boost_includes',help='''path to the boost includes root (~boost root)
e.g. /path/to/boost_1_47_0''')
opt.add_option('--boost-libs',type='string',default='',dest='boost_libs',help='''path to the directory where the boost libs are
e.g. /path/to/boost_1_47_0/stage/lib''')
opt.add_option('--boost-static',action='store_true',default=False,dest='boost_static',help='link with static boost libraries (.lib/.a)')
opt.add_option('--boost-mt',action='store_true',default=False,dest='boost_mt',help='select multi-threaded libraries')
opt.add_option('--boost-abi',type='string',default='',dest='boost_abi',help='''select libraries with tags (dgsyp, d for debug),
see doc Boost, Getting Started, chapter 6.1''')
opt.add_option('--boost-linkage_autodetect',action="store_true",dest='boost_linkage_autodetect',help="auto-detect boost linkage options (don't get used to it / might break other stuff)")
opt.add_option('--boost-toolset',type='string',default='',dest='boost_toolset',help='force a toolset e.g. msvc, vc90, \
gcc, mingw, mgw45 (default: auto)')
py_version='%d%d'%(sys.version_info[0],sys.version_info[1])
opt.add_option('--boost-python',type='string',default=py_version,dest='boost_python',help='select the lib python with this version \
(default: %s)'%py_version)
@conf
def __boost_get_version_file(self,dir):
try:
return self.root.find_dir(dir).find_node(BOOST_VERSION_FILE)
except:
return None
@conf
def boost_get_version(self,dir):
re_but=re.compile('^#define\\s+BOOST_LIB_VERSION\\s+"(.*)"$',re.M)
try:
val=re_but.search(self.__boost_get_version_file(dir).read()).group(1)
except:
val=self.check_cxx(fragment=BOOST_VERSION_CODE,includes=[dir],execute=False,define_ret=True)
return val
@conf
def boost_get_includes(self,*k,**kw):
includes=k and k[0]or kw.get('includes',None)
if includes and self.__boost_get_version_file(includes):
return includes
for dir in BOOST_INCLUDES:
if self.__boost_get_version_file(dir):
return dir
if includes:
self.fatal('headers not found in %s'%includes)
else:
self.fatal('headers not found, please provide a --boost-includes argument (see help)')
@conf
def boost_get_toolset(self,cc):
toolset=cc
if not cc:
build_platform=Utils.unversioned_sys_platform()
if build_platform in BOOST_TOOLSETS:
cc=build_platform
else:
cc=self.env.CXX_NAME
if cc in BOOST_TOOLSETS:
toolset=BOOST_TOOLSETS[cc]
return isinstance(toolset,str)and toolset or toolset(self.env)
@conf
def __boost_get_libs_path(self,*k,**kw):
''' return the lib path and all the files in it '''
if'files'in kw:
return self.root.find_dir('.'),Utils.to_list(kw['files'])
libs=k and k[0]or kw.get('libs',None)
if libs:
path=self.root.find_dir(libs)
files=path.ant_glob('*boost_*')
if not libs or not files:
for dir in BOOST_LIBS:
try:
path=self.root.find_dir(dir)
files=path.ant_glob('*boost_*')
if files:
break
path=self.root.find_dir(dir+'64')
files=path.ant_glob('*boost_*')
if files:
break
except:
path=None
if not path:
if libs:
self.fatal('libs not found in %s'%libs)
else:
self.fatal('libs not found, please provide a --boost-libs argument (see help)')
self.to_log('Found the boost path in %r with the libraries:'%path)
for x in files:
self.to_log(' %r'%x)
return path,files
@conf
def boost_get_libs(self,*k,**kw):
'''
return the lib path and the required libs
according to the parameters
'''
path,files=self.__boost_get_libs_path(**kw)
t=[]
if kw.get('mt',False):
t.append('mt')
if kw.get('abi',None):
t.append(kw['abi'])
tags=t and'(-%s)+'%'-'.join(t)or''
toolset=self.boost_get_toolset(kw.get('toolset',''))
toolset_pat='(-%s[0-9]{0,3})+'%toolset
version='(-%s)+'%self.env.BOOST_VERSION
def find_lib(re_lib,files):
for file in files:
if re_lib.search(file.name):
self.to_log('Found boost lib %s'%file)
return file
return None
def format_lib_name(name):
if name.startswith('lib')and self.env.CC_NAME!='msvc':
name=name[3:]
return name[:name.rfind('.')]
libs=[]
for lib in Utils.to_list(k and k[0]or kw.get('lib',None)):
py=(lib=='python')and'(-py%s)+'%kw['python']or''
for pattern in['boost_%s%s%s%s%s'%(lib,toolset_pat,tags,py,version),'boost_%s%s%s%s'%(lib,tags,py,version),'boost_%s%s%s'%(lib,tags,version),'boost_%s%s%s%s'%(lib,toolset_pat,tags,py),'boost_%s%s%s'%(lib,tags,py),'boost_%s%s'%(lib,tags)]:
self.to_log('Trying pattern %s'%pattern)
file=find_lib(re.compile(pattern),files)
if file:
libs.append(format_lib_name(file.name))
break
else:
self.fatal('lib %s not found in %s'%(lib,path.abspath()))
return path.abspath(),libs
@conf
def check_boost(self,*k,**kw):
if not self.env['CXX']:
self.fatal('load a c++ compiler first, conf.load("compiler_cxx")')
params={'lib':k and k[0]or kw.get('lib',None)}
for key,value in self.options.__dict__.items():
if not key.startswith('boost_'):
continue
key=key[len('boost_'):]
params[key]=value and value or kw.get(key,'')
var=kw.get('uselib_store','BOOST')
self.start_msg('Checking boost includes')
self.env['INCLUDES_%s'%var]=inc=self.boost_get_includes(**params)
self.env.BOOST_VERSION=self.boost_get_version(inc)
self.end_msg(self.env.BOOST_VERSION)
if Logs.verbose:
Logs.pprint('CYAN',' path : %s'%self.env['INCLUDES_%s'%var])
if not params['lib']:
return
self.start_msg('Checking boost libs')
suffix=params.get('static',None)and'ST'or''
path,libs=self.boost_get_libs(**params)
self.env['%sLIBPATH_%s'%(suffix,var)]=[path]
self.env['%sLIB_%s'%(suffix,var)]=libs
self.end_msg('ok')
if Logs.verbose:
Logs.pprint('CYAN',' path : %s'%path)
Logs.pprint('CYAN',' libs : %s'%libs)
def try_link():
if'system'in params['lib']:
self.check_cxx(fragment="\n".join(['#include <boost/system/error_code.hpp>','int main() { boost::system::error_code c; }',]),use=var,execute=False,)
if'thread'in params['lib']:
self.check_cxx(fragment="\n".join(['#include <boost/thread.hpp>','int main() { boost::thread t; }',]),use=var,execute=False,)
if params.get('linkage_autodetect',False):
self.start_msg("Attempting to detect boost linkage flags")
toolset=self.boost_get_toolset(kw.get('toolset',''))
if toolset in['vc']:
self.env['DEFINES_%s'%var]+=['BOOST_ALL_NO_LIB']
has_dlls=False
for x in Utils.listdir(path):
if x.endswith(self.env.cxxshlib_PATTERN%''):
has_dlls=True
break
if not has_dlls:
self.env['STLIBPATH_%s'%var]=[path]
self.env['STLIB_%s'%var]=libs
del self.env['LIB_%s'%var]
del self.env['LIBPATH_%s'%var]
for cxxflags in(['/MD','/EHsc'],[]):
self.env.stash()
self.env["CXXFLAGS_%s"%var]+=cxxflags
try:
try_link()
self.end_msg("ok: winning cxxflags combination: %s"%(self.env["CXXFLAGS_%s"%var]))
e=None
break
except Errors.ConfigurationError as exc:
self.env.revert()
e=exc
if e is not None:
self.fatal("Could not auto-detect boost linking flags combination, you may report it to boost.py author",ex=e)
else:
self.fatal("Boost linkage flags auto-detection not implemented (needed ?) for this toolchain")
else:
self.start_msg('Checking for boost linkage')
try:
try_link()
except Errors.ConfigurationError ,e:
self.fatal("Could not link against boost libraries using supplied options")
self.end_msg('ok')
| agpl-3.0 |
MBALearnsToCode/ProbabPyReason | ProbabPyReason/HiddenMarkovModel.py | 1 | 7006 | from copy import deepcopy
from frozendict import frozendict
from ProbabPy import OnePDF, OnePMF
class HiddenMarkovModel:
def __init__(self, state_var, observation_var,
state_prior_pdf, transition_pdf_template, observation_pdf_template):
self.state_var = state_var
self.observation_var = observation_var
self.state_prior_pdf = state_prior_pdf
self.transition_pdf_template = transition_pdf_template
self.observation_pdf_template = observation_pdf_template
def transition_pdf(self, t):
return self.transition_pdf_template.shift_time_subscripts(t)
def observation_pdf(self, t):
return self.observation_pdf_template.shift_time_subscripts(t)
def forward_pdf(self, t___list, observations___dict={}):
if isinstance(t___list, int):
t = t___list
if t == 0:
f = self.state_prior_pdf * self.observation_pdf(t)
if t in observations___dict:
f = f.at({(self.observation_var, t): observations___dict[t]})
return f
else:
f = (self.forward_pdf(t - 1, observations___dict) *
self.transition_pdf(t))\
.marg((self.state_var, t - 1))\
* self.observation_pdf(t)
if t in observations___dict:
f = f.at({(self.observation_var, t): observations___dict[t]})
return f
elif isinstance(t___list, (list, range, tuple)):
d = {}
t = 0
f = [self.state_prior_pdf * self.observation_pdf(t)]
if t in observations___dict:
f[t] = f[t].at({(self.observation_var, t): observations___dict[t]})
if t in t___list:
d[t] = f[t]
for t in range(1, max(t___list) + 1):
f += [(f[t - 1] * self.transition_pdf(t))
.marg((self.state_var, t - 1))
* self.observation_pdf(t)]
if t in observations___dict:
f[t] = f[t].at({(self.observation_var, t): observations___dict[t]})
if t in t___list:
d[t] = f[t]
return d
def backward_factor(self, t___list, observations___dict={}, max_t=0):
T = max(max(observations___dict.keys()), max_t)
if isinstance(t___list, int):
t = t___list
if t == T:
state_var_symbol = {(self.state_var, t): self.observation_pdf(t).Vars[(self.state_var, t)]}
if self.observation_pdf_template.is_discrete_finite():
var_values___frozen_dicts = self.observation_pdf(t).Params['NegLogP'].keys()
state_var_domain =\
set(frozendict({(self.state_var, t): var_values___frozen_dict[(self.state_var, t)]})
for var_values___frozen_dict in var_values___frozen_dicts)
return OnePMF(var_names_and_syms=state_var_symbol, var_names_and_values=state_var_domain,
cond={(self.state_var, t): None})
else:
return OnePDF(cond={(self.observation_var, t): None})
else:
b = self.transition_pdf(t + 1) * self.observation_pdf(t + 1)
if (t + 1) in observations___dict:
b = b.at({(self.observation_var, t + 1): observations___dict[t + 1]})
b = (b * self.backward_factor(t + 1, observations___dict))\
.marg((self.state_var, t + 1))
return b
elif isinstance(t___list, (list, range, tuple)):
d = {}
t = T
state_var_symbol = {(self.state_var, t): self.observation_pdf(t).Vars[(self.state_var, t)]}
if self.observation_pdf_template.is_discrete_finite():
var_values___frozen_dicts = self.observation_pdf(t).Param['NegLogP'].keys()
state_var_domain =\
set(frozendict({(self.state_var, t): var_values___frozen_dict[(self.state_var, t)]})
for var_values___frozen_dict in var_values___frozen_dicts)
b = {t: OnePMF(var_names_and_syms=state_var_symbol, var_names_and_values=state_var_domain,
cond={(self.state_var, t): None})}
else:
b = {t: OnePDF(cond={(self.observation_var, t): None})}
if t in t___list:
d[t] = b[t]
for t in reversed(range(min(t___list), T)):
b[t] = self.transition_pdf(t + 1) * self.observation_pdf(t + 1)
if (t + 1) in observations___dict:
b[t] = b[t].at({(self.observation_var, t + 1): observations___dict[t + 1]})
b[t] = (b[t] * b[t + 1])\
.marg((self.state_var, t + 1))
if t in t___list:
d[t] = b[t]
return d
def infer_state(self, t___list, observations___dict={}):
conditions___dict = {}
for t, value in observations___dict.items():
conditions___dict[(self.observation_var, t)] = value
if isinstance(t___list, int):
t = t___list
return (self.forward_pdf(t, observations___dict) *
self.backward_factor(t, observations___dict))\
.cond(conditions___dict)\
.norm()
elif isinstance(t___list, (list, range, tuple)):
d = {}
forward = self.forward_pdf(t___list, observations___dict)
backward = self.backward_factor(t___list, observations___dict)
for t in t___list:
d[t] = (forward[t] * backward[t])\
.cond(conditions___dict)\
.norm()
return d
def max_a_posteriori_joint_distributions(self, observations___list, leave_last_state_unoptimized=False):
observations___list = deepcopy(observations___list)
T = len(observations___list) - 1
if T:
last_observation = observations___list.pop(T)
f = self.max_a_posteriori_joint_distributions(observations___list, True) *\
(self.transition_pdf(T) *
self.observation_pdf(T).at({(self.observation_var, T): last_observation})).max()
else:
f = self.state_prior_pdf * self.observation_pdf(0).at({(self.observation_var, 0): observations___list[0]})
if leave_last_state_unoptimized:
return f.max(leave_unoptimized={(self.state_var, T)})
else:
return f.max()
def max_a_posteriori_state_sequence(self, observations___list):
m = self.max_a_posteriori_joint_distributions(observations___list)
if m.is_discrete_finite():
d = set(m.Param['NegLogP']).pop()
else:
d = m.scope
return [d[(self.state_var, t)] for t in range(len(observations___list))]
| mit |
moto-timo/ironpython3 | Src/StdLib/Lib/xml/etree/ElementTree.py | 5 | 57594 | """Lightweight XML support for Python.
XML is an inherently hierarchical data format, and the most natural way to
represent it is with a tree. This module has two classes for this purpose:
1. ElementTree represents the whole XML document as a tree and
2. Element represents a single node in this tree.
Interactions with the whole document (reading and writing to/from files) are
usually done on the ElementTree level. Interactions with a single XML element
and its sub-elements are done on the Element level.
Element is a flexible container object designed to store hierarchical data
structures in memory. It can be described as a cross between a list and a
dictionary. Each Element has a number of properties associated with it:
'tag' - a string containing the element's name.
'attributes' - a Python dictionary storing the element's attributes.
'text' - a string containing the element's text content.
'tail' - an optional string containing text after the element's end tag.
And a number of child elements stored in a Python sequence.
To create an element instance, use the Element constructor,
or the SubElement factory function.
You can also use the ElementTree class to wrap an element structure
and convert it to and from XML.
"""
#---------------------------------------------------------------------
# Licensed to PSF under a Contributor Agreement.
# See http://www.python.org/psf/license for licensing details.
#
# ElementTree
# Copyright (c) 1999-2008 by Fredrik Lundh. All rights reserved.
#
# fredrik@pythonware.com
# http://www.pythonware.com
# --------------------------------------------------------------------
# The ElementTree toolkit is
#
# Copyright (c) 1999-2008 by Fredrik Lundh
#
# By obtaining, using, and/or copying this software and/or its
# associated documentation, you agree that you have read, understood,
# and will comply with the following terms and conditions:
#
# Permission to use, copy, modify, and distribute this software and
# its associated documentation for any purpose and without fee is
# hereby granted, provided that the above copyright notice appears in
# all copies, and that both that copyright notice and this permission
# notice appear in supporting documentation, and that the name of
# Secret Labs AB or the author not be used in advertising or publicity
# pertaining to distribution of the software without specific, written
# prior permission.
#
# SECRET LABS AB AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD
# TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANT-
# ABILITY AND FITNESS. IN NO EVENT SHALL SECRET LABS AB OR THE AUTHOR
# BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY
# DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
# WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS
# ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE
# OF THIS SOFTWARE.
# --------------------------------------------------------------------
__all__ = [
# public symbols
"Comment",
"dump",
"Element", "ElementTree",
"fromstring", "fromstringlist",
"iselement", "iterparse",
"parse", "ParseError",
"PI", "ProcessingInstruction",
"QName",
"SubElement",
"tostring", "tostringlist",
"TreeBuilder",
"VERSION",
"XML", "XMLID",
"XMLParser",
"register_namespace",
]
VERSION = "1.3.0"
import sys
import re
import warnings
import io
import contextlib
from . import ElementPath
class ParseError(SyntaxError):
"""An error when parsing an XML document.
In addition to its exception value, a ParseError contains
two extra attributes:
'code' - the specific exception code
'position' - the line and column of the error
"""
pass
# --------------------------------------------------------------------
def iselement(element):
"""Return True if *element* appears to be an Element."""
return hasattr(element, 'tag')
class Element:
"""An XML element.
This class is the reference implementation of the Element interface.
An element's length is its number of subelements. That means if you
want to check if an element is truly empty, you should check BOTH
its length AND its text attribute.
The element tag, attribute names, and attribute values can be either
bytes or strings.
*tag* is the element name. *attrib* is an optional dictionary containing
element attributes. *extra* are additional element attributes given as
keyword arguments.
Example form:
<tag attrib>text<child/>...</tag>tail
"""
tag = None
"""The element's name."""
attrib = None
"""Dictionary of the element's attributes."""
text = None
"""
Text before first subelement. This is either a string or the value None.
Note that if there is no text, this attribute may be either
None or the empty string, depending on the parser.
"""
tail = None
"""
Text after this element's end tag, but before the next sibling element's
start tag. This is either a string or the value None. Note that if there
was no text, this attribute may be either None or an empty string,
depending on the parser.
"""
def __init__(self, tag, attrib={}, **extra):
if not isinstance(attrib, dict):
raise TypeError("attrib must be dict, not %s" % (
attrib.__class__.__name__,))
attrib = attrib.copy()
attrib.update(extra)
self.tag = tag
self.attrib = attrib
self._children = []
def __repr__(self):
return "<Element %s at 0x%x>" % (repr(self.tag), id(self))
def makeelement(self, tag, attrib):
"""Create a new element with the same type.
*tag* is a string containing the element name.
*attrib* is a dictionary containing the element attributes.
Do not call this method, use the SubElement factory function instead.
"""
return self.__class__(tag, attrib)
def copy(self):
"""Return copy of current element.
This creates a shallow copy. Subelements will be shared with the
original tree.
"""
elem = self.makeelement(self.tag, self.attrib)
elem.text = self.text
elem.tail = self.tail
elem[:] = self
return elem
def __len__(self):
return len(self._children)
def __bool__(self):
warnings.warn(
"The behavior of this method will change in future versions. "
"Use specific 'len(elem)' or 'elem is not None' test instead.",
FutureWarning, stacklevel=2
)
return len(self._children) != 0 # emulate old behaviour, for now
def __getitem__(self, index):
return self._children[index]
def __setitem__(self, index, element):
# if isinstance(index, slice):
# for elt in element:
# assert iselement(elt)
# else:
# assert iselement(element)
self._children[index] = element
def __delitem__(self, index):
del self._children[index]
def append(self, subelement):
"""Add *subelement* to the end of this element.
The new element will appear in document order after the last existing
subelement (or directly after the text, if it's the first subelement),
but before the end tag for this element.
"""
self._assert_is_element(subelement)
self._children.append(subelement)
def extend(self, elements):
"""Append subelements from a sequence.
*elements* is a sequence with zero or more elements.
"""
for element in elements:
self._assert_is_element(element)
self._children.extend(elements)
def insert(self, index, subelement):
"""Insert *subelement* at position *index*."""
self._assert_is_element(subelement)
self._children.insert(index, subelement)
def _assert_is_element(self, e):
# Need to refer to the actual Python implementation, not the
# shadowing C implementation.
if not isinstance(e, _Element_Py):
raise TypeError('expected an Element, not %s' % type(e).__name__)
def remove(self, subelement):
"""Remove matching subelement.
Unlike the find methods, this method compares elements based on
identity, NOT ON tag value or contents. To remove subelements by
other means, the easiest way is to use a list comprehension to
select what elements to keep, and then use slice assignment to update
the parent element.
ValueError is raised if a matching element could not be found.
"""
# assert iselement(element)
self._children.remove(subelement)
def getchildren(self):
"""(Deprecated) Return all subelements.
Elements are returned in document order.
"""
warnings.warn(
"This method will be removed in future versions. "
"Use 'list(elem)' or iteration over elem instead.",
DeprecationWarning, stacklevel=2
)
return self._children
def find(self, path, namespaces=None):
"""Find first matching element by tag name or path.
*path* is a string having either an element tag or an XPath,
*namespaces* is an optional mapping from namespace prefix to full name.
Return the first matching element, or None if no element was found.
"""
return ElementPath.find(self, path, namespaces)
def findtext(self, path, default=None, namespaces=None):
"""Find text for first matching element by tag name or path.
*path* is a string having either an element tag or an XPath,
*default* is the value to return if the element was not found,
*namespaces* is an optional mapping from namespace prefix to full name.
Return text content of first matching element, or default value if
none was found. Note that if an element is found having no text
content, the empty string is returned.
"""
return ElementPath.findtext(self, path, default, namespaces)
def findall(self, path, namespaces=None):
"""Find all matching subelements by tag name or path.
*path* is a string having either an element tag or an XPath,
*namespaces* is an optional mapping from namespace prefix to full name.
Returns list containing all matching elements in document order.
"""
return ElementPath.findall(self, path, namespaces)
def iterfind(self, path, namespaces=None):
"""Find all matching subelements by tag name or path.
*path* is a string having either an element tag or an XPath,
*namespaces* is an optional mapping from namespace prefix to full name.
Return an iterable yielding all matching elements in document order.
"""
return ElementPath.iterfind(self, path, namespaces)
def clear(self):
"""Reset element.
This function removes all subelements, clears all attributes, and sets
the text and tail attributes to None.
"""
self.attrib.clear()
self._children = []
self.text = self.tail = None
def get(self, key, default=None):
"""Get element attribute.
Equivalent to attrib.get, but some implementations may handle this a
bit more efficiently. *key* is what attribute to look for, and
*default* is what to return if the attribute was not found.
Returns a string containing the attribute value, or the default if
attribute was not found.
"""
return self.attrib.get(key, default)
def set(self, key, value):
"""Set element attribute.
Equivalent to attrib[key] = value, but some implementations may handle
this a bit more efficiently. *key* is what attribute to set, and
*value* is the attribute value to set it to.
"""
self.attrib[key] = value
def keys(self):
"""Get list of attribute names.
Names are returned in an arbitrary order, just like an ordinary
Python dict. Equivalent to attrib.keys()
"""
return self.attrib.keys()
def items(self):
"""Get element attributes as a sequence.
The attributes are returned in arbitrary order. Equivalent to
attrib.items().
Return a list of (name, value) tuples.
"""
return self.attrib.items()
def iter(self, tag=None):
"""Create tree iterator.
The iterator loops over the element and all subelements in document
order, returning all elements with a matching tag.
If the tree structure is modified during iteration, new or removed
elements may or may not be included. To get a stable set, use the
list() function on the iterator, and loop over the resulting list.
*tag* is what tags to look for (default is to return all elements)
Return an iterator containing all the matching elements.
"""
if tag == "*":
tag = None
if tag is None or self.tag == tag:
yield self
for e in self._children:
yield from e.iter(tag)
# compatibility
def getiterator(self, tag=None):
# Change for a DeprecationWarning in 1.4
warnings.warn(
"This method will be removed in future versions. "
"Use 'elem.iter()' or 'list(elem.iter())' instead.",
PendingDeprecationWarning, stacklevel=2
)
return list(self.iter(tag))
def itertext(self):
"""Create text iterator.
The iterator loops over the element and all subelements in document
order, returning all inner text.
"""
tag = self.tag
if not isinstance(tag, str) and tag is not None:
return
if self.text:
yield self.text
for e in self:
yield from e.itertext()
if e.tail:
yield e.tail
def SubElement(parent, tag, attrib={}, **extra):
"""Subelement factory which creates an element instance, and appends it
to an existing parent.
The element tag, attribute names, and attribute values can be either
bytes or Unicode strings.
*parent* is the parent element, *tag* is the subelements name, *attrib* is
an optional directory containing element attributes, *extra* are
additional attributes given as keyword arguments.
"""
attrib = attrib.copy()
attrib.update(extra)
element = parent.makeelement(tag, attrib)
parent.append(element)
return element
def Comment(text=None):
"""Comment element factory.
This function creates a special element which the standard serializer
serializes as an XML comment.
*text* is a string containing the comment string.
"""
element = Element(Comment)
element.text = text
return element
def ProcessingInstruction(target, text=None):
"""Processing Instruction element factory.
This function creates a special element which the standard serializer
serializes as an XML comment.
*target* is a string containing the processing instruction, *text* is a
string containing the processing instruction contents, if any.
"""
element = Element(ProcessingInstruction)
element.text = target
if text:
element.text = element.text + " " + text
return element
PI = ProcessingInstruction
class QName:
"""Qualified name wrapper.
This class can be used to wrap a QName attribute value in order to get
proper namespace handing on output.
*text_or_uri* is a string containing the QName value either in the form
{uri}local, or if the tag argument is given, the URI part of a QName.
*tag* is an optional argument which if given, will make the first
argument (text_or_uri) be interpreted as a URI, and this argument (tag)
be interpreted as a local name.
"""
def __init__(self, text_or_uri, tag=None):
if tag:
text_or_uri = "{%s}%s" % (text_or_uri, tag)
self.text = text_or_uri
def __str__(self):
return self.text
def __repr__(self):
return '<QName %r>' % (self.text,)
def __hash__(self):
return hash(self.text)
def __le__(self, other):
if isinstance(other, QName):
return self.text <= other.text
return self.text <= other
def __lt__(self, other):
if isinstance(other, QName):
return self.text < other.text
return self.text < other
def __ge__(self, other):
if isinstance(other, QName):
return self.text >= other.text
return self.text >= other
def __gt__(self, other):
if isinstance(other, QName):
return self.text > other.text
return self.text > other
def __eq__(self, other):
if isinstance(other, QName):
return self.text == other.text
return self.text == other
def __ne__(self, other):
if isinstance(other, QName):
return self.text != other.text
return self.text != other
# --------------------------------------------------------------------
class ElementTree:
"""An XML element hierarchy.
This class also provides support for serialization to and from
standard XML.
*element* is an optional root element node,
*file* is an optional file handle or file name of an XML file whose
contents will be used to initialize the tree with.
"""
def __init__(self, element=None, file=None):
# assert element is None or iselement(element)
self._root = element # first node
if file:
self.parse(file)
def getroot(self):
"""Return root element of this tree."""
return self._root
def _setroot(self, element):
"""Replace root element of this tree.
This will discard the current contents of the tree and replace it
with the given element. Use with care!
"""
# assert iselement(element)
self._root = element
def parse(self, source, parser=None):
"""Load external XML document into element tree.
*source* is a file name or file object, *parser* is an optional parser
instance that defaults to XMLParser.
ParseError is raised if the parser fails to parse the document.
Returns the root element of the given source document.
"""
close_source = False
if not hasattr(source, "read"):
source = open(source, "rb")
close_source = True
try:
if parser is None:
# If no parser was specified, create a default XMLParser
parser = XMLParser()
if hasattr(parser, '_parse_whole'):
# The default XMLParser, when it comes from an accelerator,
# can define an internal _parse_whole API for efficiency.
# It can be used to parse the whole source without feeding
# it with chunks.
self._root = parser._parse_whole(source)
return self._root
while True:
data = source.read(65536)
if not data:
break
parser.feed(data)
self._root = parser.close()
return self._root
finally:
if close_source:
source.close()
def iter(self, tag=None):
"""Create and return tree iterator for the root element.
The iterator loops over all elements in this tree, in document order.
*tag* is a string with the tag name to iterate over
(default is to return all elements).
"""
# assert self._root is not None
return self._root.iter(tag)
# compatibility
def getiterator(self, tag=None):
# Change for a DeprecationWarning in 1.4
warnings.warn(
"This method will be removed in future versions. "
"Use 'tree.iter()' or 'list(tree.iter())' instead.",
PendingDeprecationWarning, stacklevel=2
)
return list(self.iter(tag))
def find(self, path, namespaces=None):
"""Find first matching element by tag name or path.
Same as getroot().find(path), which is Element.find()
*path* is a string having either an element tag or an XPath,
*namespaces* is an optional mapping from namespace prefix to full name.
Return the first matching element, or None if no element was found.
"""
# assert self._root is not None
if path[:1] == "/":
path = "." + path
warnings.warn(
"This search is broken in 1.3 and earlier, and will be "
"fixed in a future version. If you rely on the current "
"behaviour, change it to %r" % path,
FutureWarning, stacklevel=2
)
return self._root.find(path, namespaces)
def findtext(self, path, default=None, namespaces=None):
"""Find first matching element by tag name or path.
Same as getroot().findtext(path), which is Element.findtext()
*path* is a string having either an element tag or an XPath,
*namespaces* is an optional mapping from namespace prefix to full name.
Return the first matching element, or None if no element was found.
"""
# assert self._root is not None
if path[:1] == "/":
path = "." + path
warnings.warn(
"This search is broken in 1.3 and earlier, and will be "
"fixed in a future version. If you rely on the current "
"behaviour, change it to %r" % path,
FutureWarning, stacklevel=2
)
return self._root.findtext(path, default, namespaces)
def findall(self, path, namespaces=None):
"""Find all matching subelements by tag name or path.
Same as getroot().findall(path), which is Element.findall().
*path* is a string having either an element tag or an XPath,
*namespaces* is an optional mapping from namespace prefix to full name.
Return list containing all matching elements in document order.
"""
# assert self._root is not None
if path[:1] == "/":
path = "." + path
warnings.warn(
"This search is broken in 1.3 and earlier, and will be "
"fixed in a future version. If you rely on the current "
"behaviour, change it to %r" % path,
FutureWarning, stacklevel=2
)
return self._root.findall(path, namespaces)
def iterfind(self, path, namespaces=None):
"""Find all matching subelements by tag name or path.
Same as getroot().iterfind(path), which is element.iterfind()
*path* is a string having either an element tag or an XPath,
*namespaces* is an optional mapping from namespace prefix to full name.
Return an iterable yielding all matching elements in document order.
"""
# assert self._root is not None
if path[:1] == "/":
path = "." + path
warnings.warn(
"This search is broken in 1.3 and earlier, and will be "
"fixed in a future version. If you rely on the current "
"behaviour, change it to %r" % path,
FutureWarning, stacklevel=2
)
return self._root.iterfind(path, namespaces)
def write(self, file_or_filename,
encoding=None,
xml_declaration=None,
default_namespace=None,
method=None, *,
short_empty_elements=True):
"""Write element tree to a file as XML.
Arguments:
*file_or_filename* -- file name or a file object opened for writing
*encoding* -- the output encoding (default: US-ASCII)
*xml_declaration* -- bool indicating if an XML declaration should be
added to the output. If None, an XML declaration
is added if encoding IS NOT either of:
US-ASCII, UTF-8, or Unicode
*default_namespace* -- sets the default XML namespace (for "xmlns")
*method* -- either "xml" (default), "html, "text", or "c14n"
*short_empty_elements* -- controls the formatting of elements
that contain no content. If True (default)
they are emitted as a single self-closed
tag, otherwise they are emitted as a pair
of start/end tags
"""
if not method:
method = "xml"
elif method not in _serialize:
raise ValueError("unknown method %r" % method)
if not encoding:
if method == "c14n":
encoding = "utf-8"
else:
encoding = "us-ascii"
enc_lower = encoding.lower()
with _get_writer(file_or_filename, enc_lower) as write:
if method == "xml" and (xml_declaration or
(xml_declaration is None and
enc_lower not in ("utf-8", "us-ascii", "unicode"))):
declared_encoding = encoding
if enc_lower == "unicode":
# Retrieve the default encoding for the xml declaration
import locale
declared_encoding = locale.getpreferredencoding()
write("<?xml version='1.0' encoding='%s'?>\n" % (
declared_encoding,))
if method == "text":
_serialize_text(write, self._root)
else:
qnames, namespaces = _namespaces(self._root, default_namespace)
serialize = _serialize[method]
serialize(write, self._root, qnames, namespaces,
short_empty_elements=short_empty_elements)
def write_c14n(self, file):
# lxml.etree compatibility. use output method instead
return self.write(file, method="c14n")
# --------------------------------------------------------------------
# serialization support
@contextlib.contextmanager
def _get_writer(file_or_filename, encoding):
# returns text write method and release all resources after using
try:
write = file_or_filename.write
except AttributeError:
# file_or_filename is a file name
if encoding == "unicode":
file = open(file_or_filename, "w")
else:
file = open(file_or_filename, "w", encoding=encoding,
errors="xmlcharrefreplace")
with file:
yield file.write
else:
# file_or_filename is a file-like object
# encoding determines if it is a text or binary writer
if encoding == "unicode":
# use a text writer as is
yield write
else:
# wrap a binary writer with TextIOWrapper
with contextlib.ExitStack() as stack:
if isinstance(file_or_filename, io.BufferedIOBase):
file = file_or_filename
elif isinstance(file_or_filename, io.RawIOBase):
file = io.BufferedWriter(file_or_filename)
# Keep the original file open when the BufferedWriter is
# destroyed
stack.callback(file.detach)
else:
# This is to handle passed objects that aren't in the
# IOBase hierarchy, but just have a write method
file = io.BufferedIOBase()
file.writable = lambda: True
file.write = write
try:
# TextIOWrapper uses this methods to determine
# if BOM (for UTF-16, etc) should be added
file.seekable = file_or_filename.seekable
file.tell = file_or_filename.tell
except AttributeError:
pass
file = io.TextIOWrapper(file,
encoding=encoding,
errors="xmlcharrefreplace",
newline="\n")
# Keep the original file open when the TextIOWrapper is
# destroyed
stack.callback(file.detach)
yield file.write
def _namespaces(elem, default_namespace=None):
# identify namespaces used in this tree
# maps qnames to *encoded* prefix:local names
qnames = {None: None}
# maps uri:s to prefixes
namespaces = {}
if default_namespace:
namespaces[default_namespace] = ""
def add_qname(qname):
# calculate serialized qname representation
try:
if qname[:1] == "{":
uri, tag = qname[1:].rsplit("}", 1)
prefix = namespaces.get(uri)
if prefix is None:
prefix = _namespace_map.get(uri)
if prefix is None:
prefix = "ns%d" % len(namespaces)
if prefix != "xml":
namespaces[uri] = prefix
if prefix:
qnames[qname] = "%s:%s" % (prefix, tag)
else:
qnames[qname] = tag # default element
else:
if default_namespace:
# FIXME: can this be handled in XML 1.0?
raise ValueError(
"cannot use non-qualified names with "
"default_namespace option"
)
qnames[qname] = qname
except TypeError:
_raise_serialization_error(qname)
# populate qname and namespaces table
for elem in elem.iter():
tag = elem.tag
if isinstance(tag, QName):
if tag.text not in qnames:
add_qname(tag.text)
elif isinstance(tag, str):
if tag not in qnames:
add_qname(tag)
elif tag is not None and tag is not Comment and tag is not PI:
_raise_serialization_error(tag)
for key, value in elem.items():
if isinstance(key, QName):
key = key.text
if key not in qnames:
add_qname(key)
if isinstance(value, QName) and value.text not in qnames:
add_qname(value.text)
text = elem.text
if isinstance(text, QName) and text.text not in qnames:
add_qname(text.text)
return qnames, namespaces
def _serialize_xml(write, elem, qnames, namespaces,
short_empty_elements, **kwargs):
tag = elem.tag
text = elem.text
if tag is Comment:
write("<!--%s-->" % text)
elif tag is ProcessingInstruction:
write("<?%s?>" % text)
else:
tag = qnames[tag]
if tag is None:
if text:
write(_escape_cdata(text))
for e in elem:
_serialize_xml(write, e, qnames, None,
short_empty_elements=short_empty_elements)
else:
write("<" + tag)
items = list(elem.items())
if items or namespaces:
if namespaces:
for v, k in sorted(namespaces.items(),
key=lambda x: x[1]): # sort on prefix
if k:
k = ":" + k
write(" xmlns%s=\"%s\"" % (
k,
_escape_attrib(v)
))
for k, v in sorted(items): # lexical order
if isinstance(k, QName):
k = k.text
if isinstance(v, QName):
v = qnames[v.text]
else:
v = _escape_attrib(v)
write(" %s=\"%s\"" % (qnames[k], v))
if text or len(elem) or not short_empty_elements:
write(">")
if text:
write(_escape_cdata(text))
for e in elem:
_serialize_xml(write, e, qnames, None,
short_empty_elements=short_empty_elements)
write("</" + tag + ">")
else:
write(" />")
if elem.tail:
write(_escape_cdata(elem.tail))
HTML_EMPTY = ("area", "base", "basefont", "br", "col", "frame", "hr",
"img", "input", "isindex", "link", "meta", "param")
try:
HTML_EMPTY = set(HTML_EMPTY)
except NameError:
pass
def _serialize_html(write, elem, qnames, namespaces, **kwargs):
tag = elem.tag
text = elem.text
if tag is Comment:
write("<!--%s-->" % _escape_cdata(text))
elif tag is ProcessingInstruction:
write("<?%s?>" % _escape_cdata(text))
else:
tag = qnames[tag]
if tag is None:
if text:
write(_escape_cdata(text))
for e in elem:
_serialize_html(write, e, qnames, None)
else:
write("<" + tag)
items = list(elem.items())
if items or namespaces:
if namespaces:
for v, k in sorted(namespaces.items(),
key=lambda x: x[1]): # sort on prefix
if k:
k = ":" + k
write(" xmlns%s=\"%s\"" % (
k,
_escape_attrib(v)
))
for k, v in sorted(items): # lexical order
if isinstance(k, QName):
k = k.text
if isinstance(v, QName):
v = qnames[v.text]
else:
v = _escape_attrib_html(v)
# FIXME: handle boolean attributes
write(" %s=\"%s\"" % (qnames[k], v))
write(">")
ltag = tag.lower()
if text:
if ltag == "script" or ltag == "style":
write(text)
else:
write(_escape_cdata(text))
for e in elem:
_serialize_html(write, e, qnames, None)
if ltag not in HTML_EMPTY:
write("</" + tag + ">")
if elem.tail:
write(_escape_cdata(elem.tail))
def _serialize_text(write, elem):
for part in elem.itertext():
write(part)
if elem.tail:
write(elem.tail)
_serialize = {
"xml": _serialize_xml,
"html": _serialize_html,
"text": _serialize_text,
# this optional method is imported at the end of the module
# "c14n": _serialize_c14n,
}
def register_namespace(prefix, uri):
"""Register a namespace prefix.
The registry is global, and any existing mapping for either the
given prefix or the namespace URI will be removed.
*prefix* is the namespace prefix, *uri* is a namespace uri. Tags and
attributes in this namespace will be serialized with prefix if possible.
ValueError is raised if prefix is reserved or is invalid.
"""
if re.match("ns\d+$", prefix):
raise ValueError("Prefix format reserved for internal use")
for k, v in list(_namespace_map.items()):
if k == uri or v == prefix:
del _namespace_map[k]
_namespace_map[uri] = prefix
_namespace_map = {
# "well-known" namespace prefixes
"http://www.w3.org/XML/1998/namespace": "xml",
"http://www.w3.org/1999/xhtml": "html",
"http://www.w3.org/1999/02/22-rdf-syntax-ns#": "rdf",
"http://schemas.xmlsoap.org/wsdl/": "wsdl",
# xml schema
"http://www.w3.org/2001/XMLSchema": "xs",
"http://www.w3.org/2001/XMLSchema-instance": "xsi",
# dublin core
"http://purl.org/dc/elements/1.1/": "dc",
}
# For tests and troubleshooting
register_namespace._namespace_map = _namespace_map
def _raise_serialization_error(text):
raise TypeError(
"cannot serialize %r (type %s)" % (text, type(text).__name__)
)
def _escape_cdata(text):
# escape character data
try:
# it's worth avoiding do-nothing calls for strings that are
# shorter than 500 character, or so. assume that's, by far,
# the most common case in most applications.
if "&" in text:
text = text.replace("&", "&")
if "<" in text:
text = text.replace("<", "<")
if ">" in text:
text = text.replace(">", ">")
return text
except (TypeError, AttributeError):
_raise_serialization_error(text)
def _escape_attrib(text):
# escape attribute value
try:
if "&" in text:
text = text.replace("&", "&")
if "<" in text:
text = text.replace("<", "<")
if ">" in text:
text = text.replace(">", ">")
if "\"" in text:
text = text.replace("\"", """)
if "\n" in text:
text = text.replace("\n", " ")
return text
except (TypeError, AttributeError):
_raise_serialization_error(text)
def _escape_attrib_html(text):
# escape attribute value
try:
if "&" in text:
text = text.replace("&", "&")
if ">" in text:
text = text.replace(">", ">")
if "\"" in text:
text = text.replace("\"", """)
return text
except (TypeError, AttributeError):
_raise_serialization_error(text)
# --------------------------------------------------------------------
def tostring(element, encoding=None, method=None, *,
short_empty_elements=True):
"""Generate string representation of XML element.
All subelements are included. If encoding is "unicode", a string
is returned. Otherwise a bytestring is returned.
*element* is an Element instance, *encoding* is an optional output
encoding defaulting to US-ASCII, *method* is an optional output which can
be one of "xml" (default), "html", "text" or "c14n".
Returns an (optionally) encoded string containing the XML data.
"""
stream = io.StringIO() if encoding == 'unicode' else io.BytesIO()
ElementTree(element).write(stream, encoding, method=method,
short_empty_elements=short_empty_elements)
return stream.getvalue()
class _ListDataStream(io.BufferedIOBase):
"""An auxiliary stream accumulating into a list reference."""
def __init__(self, lst):
self.lst = lst
def writable(self):
return True
def seekable(self):
return True
def write(self, b):
self.lst.append(b)
def tell(self):
return len(self.lst)
def tostringlist(element, encoding=None, method=None, *,
short_empty_elements=True):
lst = []
stream = _ListDataStream(lst)
ElementTree(element).write(stream, encoding, method=method,
short_empty_elements=short_empty_elements)
return lst
def dump(elem):
"""Write element tree or element structure to sys.stdout.
This function should be used for debugging only.
*elem* is either an ElementTree, or a single Element. The exact output
format is implementation dependent. In this version, it's written as an
ordinary XML file.
"""
# debugging
if not isinstance(elem, ElementTree):
elem = ElementTree(elem)
elem.write(sys.stdout, encoding="unicode")
tail = elem.getroot().tail
if not tail or tail[-1] != "\n":
sys.stdout.write("\n")
# --------------------------------------------------------------------
# parsing
def parse(source, parser=None):
"""Parse XML document into element tree.
*source* is a filename or file object containing XML data,
*parser* is an optional parser instance defaulting to XMLParser.
Return an ElementTree instance.
"""
tree = ElementTree()
tree.parse(source, parser)
return tree
def iterparse(source, events=None, parser=None):
"""Incrementally parse XML document into ElementTree.
This class also reports what's going on to the user based on the
*events* it is initialized with. The supported events are the strings
"start", "end", "start-ns" and "end-ns" (the "ns" events are used to get
detailed namespace information). If *events* is omitted, only
"end" events are reported.
*source* is a filename or file object containing XML data, *events* is
a list of events to report back, *parser* is an optional parser instance.
Returns an iterator providing (event, elem) pairs.
"""
close_source = False
if not hasattr(source, "read"):
source = open(source, "rb")
close_source = True
try:
return _IterParseIterator(source, events, parser, close_source)
except:
if close_source:
source.close()
raise
class XMLPullParser:
def __init__(self, events=None, *, _parser=None):
# The _parser argument is for internal use only and must not be relied
# upon in user code. It will be removed in a future release.
# See http://bugs.python.org/issue17741 for more details.
# _elementtree.c expects a list, not a deque
self._events_queue = []
self._index = 0
self._parser = _parser or XMLParser(target=TreeBuilder())
# wire up the parser for event reporting
if events is None:
events = ("end",)
self._parser._setevents(self._events_queue, events)
def feed(self, data):
"""Feed encoded data to parser."""
if self._parser is None:
raise ValueError("feed() called after end of stream")
if data:
try:
self._parser.feed(data)
except SyntaxError as exc:
self._events_queue.append(exc)
def _close_and_return_root(self):
# iterparse needs this to set its root attribute properly :(
root = self._parser.close()
self._parser = None
return root
def close(self):
"""Finish feeding data to parser.
Unlike XMLParser, does not return the root element. Use
read_events() to consume elements from XMLPullParser.
"""
self._close_and_return_root()
def read_events(self):
"""Return an iterator over currently available (event, elem) pairs.
Events are consumed from the internal event queue as they are
retrieved from the iterator.
"""
events = self._events_queue
while True:
index = self._index
try:
event = events[self._index]
# Avoid retaining references to past events
events[self._index] = None
except IndexError:
break
index += 1
# Compact the list in a O(1) amortized fashion
# As noted above, _elementree.c needs a list, not a deque
if index * 2 >= len(events):
events[:index] = []
self._index = 0
else:
self._index = index
if isinstance(event, Exception):
raise event
else:
yield event
class _IterParseIterator:
def __init__(self, source, events, parser, close_source=False):
# Use the internal, undocumented _parser argument for now; When the
# parser argument of iterparse is removed, this can be killed.
self._parser = XMLPullParser(events=events, _parser=parser)
self._file = source
self._close_file = close_source
self.root = self._root = None
def __next__(self):
try:
while 1:
for event in self._parser.read_events():
return event
if self._parser._parser is None:
break
# load event buffer
data = self._file.read(16 * 1024)
if data:
self._parser.feed(data)
else:
self._root = self._parser._close_and_return_root()
self.root = self._root
except:
if self._close_file:
self._file.close()
raise
if self._close_file:
self._file.close()
raise StopIteration
def __iter__(self):
return self
def XML(text, parser=None):
"""Parse XML document from string constant.
This function can be used to embed "XML Literals" in Python code.
*text* is a string containing XML data, *parser* is an
optional parser instance, defaulting to the standard XMLParser.
Returns an Element instance.
"""
if not parser:
parser = XMLParser(target=TreeBuilder())
parser.feed(text)
return parser.close()
def XMLID(text, parser=None):
"""Parse XML document from string constant for its IDs.
*text* is a string containing XML data, *parser* is an
optional parser instance, defaulting to the standard XMLParser.
Returns an (Element, dict) tuple, in which the
dict maps element id:s to elements.
"""
if not parser:
parser = XMLParser(target=TreeBuilder())
parser.feed(text)
tree = parser.close()
ids = {}
for elem in tree.iter():
id = elem.get("id")
if id:
ids[id] = elem
return tree, ids
# Parse XML document from string constant. Alias for XML().
fromstring = XML
def fromstringlist(sequence, parser=None):
"""Parse XML document from sequence of string fragments.
*sequence* is a list of other sequence, *parser* is an optional parser
instance, defaulting to the standard XMLParser.
Returns an Element instance.
"""
if not parser:
parser = XMLParser(target=TreeBuilder())
for text in sequence:
parser.feed(text)
return parser.close()
# --------------------------------------------------------------------
class TreeBuilder:
"""Generic element structure builder.
This builder converts a sequence of start, data, and end method
calls to a well-formed element structure.
You can use this class to build an element structure using a custom XML
parser, or a parser for some other XML-like format.
*element_factory* is an optional element factory which is called
to create new Element instances, as necessary.
"""
def __init__(self, element_factory=None):
self._data = [] # data collector
self._elem = [] # element stack
self._last = None # last element
self._tail = None # true if we're after an end tag
if element_factory is None:
element_factory = Element
self._factory = element_factory
def close(self):
"""Flush builder buffers and return toplevel document Element."""
assert len(self._elem) == 0, "missing end tags"
assert self._last is not None, "missing toplevel element"
return self._last
def _flush(self):
if self._data:
if self._last is not None:
text = "".join(self._data)
if self._tail:
assert self._last.tail is None, "internal error (tail)"
self._last.tail = text
else:
assert self._last.text is None, "internal error (text)"
self._last.text = text
self._data = []
def data(self, data):
"""Add text to current element."""
self._data.append(data)
def start(self, tag, attrs):
"""Open new element and return it.
*tag* is the element name, *attrs* is a dict containing element
attributes.
"""
self._flush()
self._last = elem = self._factory(tag, attrs)
if self._elem:
self._elem[-1].append(elem)
self._elem.append(elem)
self._tail = 0
return elem
def end(self, tag):
"""Close and return current Element.
*tag* is the element name.
"""
self._flush()
self._last = self._elem.pop()
assert self._last.tag == tag,\
"end tag mismatch (expected %s, got %s)" % (
self._last.tag, tag)
self._tail = 1
return self._last
# also see ElementTree and TreeBuilder
class XMLParser:
"""Element structure builder for XML source data based on the expat parser.
*html* are predefined HTML entities (not supported currently),
*target* is an optional target object which defaults to an instance of the
standard TreeBuilder class, *encoding* is an optional encoding string
which if given, overrides the encoding specified in the XML file:
http://www.iana.org/assignments/character-sets
"""
def __init__(self, html=0, target=None, encoding=None):
try:
from xml.parsers import expat
except ImportError:
try:
import pyexpat as expat
except ImportError:
raise ImportError(
"No module named expat; use SimpleXMLTreeBuilder instead"
)
parser = expat.ParserCreate(encoding, "}")
if target is None:
target = TreeBuilder()
# underscored names are provided for compatibility only
self.parser = self._parser = parser
self.target = self._target = target
self._error = expat.error
self._names = {} # name memo cache
# main callbacks
parser.DefaultHandlerExpand = self._default
if hasattr(target, 'start'):
parser.StartElementHandler = self._start
if hasattr(target, 'end'):
parser.EndElementHandler = self._end
if hasattr(target, 'data'):
parser.CharacterDataHandler = target.data
# miscellaneous callbacks
if hasattr(target, 'comment'):
parser.CommentHandler = target.comment
if hasattr(target, 'pi'):
parser.ProcessingInstructionHandler = target.pi
# Configure pyexpat: buffering, new-style attribute handling.
parser.buffer_text = 1
parser.ordered_attributes = 1
parser.specified_attributes = 1
self._doctype = None
self.entity = {}
try:
self.version = "Expat %d.%d.%d" % expat.version_info
except AttributeError:
pass # unknown
def _setevents(self, events_queue, events_to_report):
# Internal API for XMLPullParser
# events_to_report: a list of events to report during parsing (same as
# the *events* of XMLPullParser's constructor.
# events_queue: a list of actual parsing events that will be populated
# by the underlying parser.
#
parser = self._parser
append = events_queue.append
for event_name in events_to_report:
if event_name == "start":
parser.ordered_attributes = 1
parser.specified_attributes = 1
def handler(tag, attrib_in, event=event_name, append=append,
start=self._start):
append((event, start(tag, attrib_in)))
parser.StartElementHandler = handler
elif event_name == "end":
def handler(tag, event=event_name, append=append,
end=self._end):
append((event, end(tag)))
parser.EndElementHandler = handler
elif event_name == "start-ns":
def handler(prefix, uri, event=event_name, append=append):
append((event, (prefix or "", uri or "")))
parser.StartNamespaceDeclHandler = handler
elif event_name == "end-ns":
def handler(prefix, event=event_name, append=append):
append((event, None))
parser.EndNamespaceDeclHandler = handler
else:
raise ValueError("unknown event %r" % event_name)
def _raiseerror(self, value):
err = ParseError(value)
err.code = value.code
err.position = value.lineno, value.offset
raise err
def _fixname(self, key):
# expand qname, and convert name string to ascii, if possible
try:
name = self._names[key]
except KeyError:
name = key
if "}" in name:
name = "{" + name
self._names[key] = name
return name
def _start(self, tag, attr_list):
# Handler for expat's StartElementHandler. Since ordered_attributes
# is set, the attributes are reported as a list of alternating
# attribute name,value.
fixname = self._fixname
tag = fixname(tag)
attrib = {}
if attr_list:
for i in range(0, len(attr_list), 2):
attrib[fixname(attr_list[i])] = attr_list[i+1]
return self.target.start(tag, attrib)
def _end(self, tag):
return self.target.end(self._fixname(tag))
def _default(self, text):
prefix = text[:1]
if prefix == "&":
# deal with undefined entities
try:
data_handler = self.target.data
except AttributeError:
return
try:
data_handler(self.entity[text[1:-1]])
except KeyError:
from xml.parsers import expat
err = expat.error(
"undefined entity %s: line %d, column %d" %
(text, self.parser.ErrorLineNumber,
self.parser.ErrorColumnNumber)
)
err.code = 11 # XML_ERROR_UNDEFINED_ENTITY
err.lineno = self.parser.ErrorLineNumber
err.offset = self.parser.ErrorColumnNumber
raise err
elif prefix == "<" and text[:9] == "<!DOCTYPE":
self._doctype = [] # inside a doctype declaration
elif self._doctype is not None:
# parse doctype contents
if prefix == ">":
self._doctype = None
return
text = text.strip()
if not text:
return
self._doctype.append(text)
n = len(self._doctype)
if n > 2:
type = self._doctype[1]
if type == "PUBLIC" and n == 4:
name, type, pubid, system = self._doctype
if pubid:
pubid = pubid[1:-1]
elif type == "SYSTEM" and n == 3:
name, type, system = self._doctype
pubid = None
else:
return
if hasattr(self.target, "doctype"):
self.target.doctype(name, pubid, system[1:-1])
elif self.doctype != self._XMLParser__doctype:
# warn about deprecated call
self._XMLParser__doctype(name, pubid, system[1:-1])
self.doctype(name, pubid, system[1:-1])
self._doctype = None
def doctype(self, name, pubid, system):
"""(Deprecated) Handle doctype declaration
*name* is the Doctype name, *pubid* is the public identifier,
and *system* is the system identifier.
"""
warnings.warn(
"This method of XMLParser is deprecated. Define doctype() "
"method on the TreeBuilder target.",
DeprecationWarning,
)
# sentinel, if doctype is redefined in a subclass
__doctype = doctype
def feed(self, data):
"""Feed encoded data to parser."""
try:
self.parser.Parse(data, 0)
except self._error as v:
self._raiseerror(v)
def close(self):
"""Finish feeding data to parser and return element structure."""
try:
self.parser.Parse("", 1) # end of data
except self._error as v:
self._raiseerror(v)
try:
close_handler = self.target.close
except AttributeError:
pass
else:
return close_handler()
finally:
# get rid of circular references
del self.parser, self._parser
del self.target, self._target
# Import the C accelerators
try:
# Element is going to be shadowed by the C implementation. We need to keep
# the Python version of it accessible for some "creative" by external code
# (see tests)
_Element_Py = Element
# Element, SubElement, ParseError, TreeBuilder, XMLParser
from _elementtree import *
except ImportError:
pass
| apache-2.0 |
vrenaville/ngo-addons-backport | addons/stock/partner.py | 57 | 1890 | # -*- coding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Management Solution
# Copyright (C) 2004-2010 Tiny SPRL (<http://tiny.be>).
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as
# published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
##############################################################################
from openerp.osv import fields, osv
class res_partner(osv.osv):
_inherit = 'res.partner'
_columns = {
'property_stock_customer': fields.property(
'stock.location',
type='many2one',
relation='stock.location',
string="Customer Location",
view_load=True,
help="This stock location will be used, instead of the default one, as the destination location for goods you send to this partner"),
'property_stock_supplier': fields.property(
'stock.location',
type='many2one',
relation='stock.location',
string="Supplier Location",
view_load=True,
help="This stock location will be used, instead of the default one, as the source location for goods you receive from the current partner"),
}
res_partner()
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
| agpl-3.0 |
jzoldak/edx-platform | cms/startup.py | 9 | 2130 | """
Module with code executed during Studio startup
"""
from django.conf import settings
# Force settings to run so that the python path is modified
settings.INSTALLED_APPS # pylint: disable=pointless-statement
from openedx.core.lib.django_startup import autostartup
import django
from openedx.core.djangoapps.monkey_patch import (
third_party_auth,
django_db_models_options
)
from openedx.core.lib.xblock_utils import xblock_local_resource_url
import xmodule.x_module
import cms.lib.xblock.runtime
from startup_configurations.validate_config import validate_cms_config
from openedx.core.djangoapps.theming.core import enable_theming
from openedx.core.djangoapps.theming.helpers import is_comprehensive_theming_enabled
def run():
"""
Executed during django startup
"""
third_party_auth.patch()
django_db_models_options.patch()
# Comprehensive theming needs to be set up before django startup,
# because modifying django template paths after startup has no effect.
if is_comprehensive_theming_enabled():
enable_theming()
django.setup()
autostartup()
add_mimetypes()
# In order to allow descriptors to use a handler url, we need to
# monkey-patch the x_module library.
# TODO: Remove this code when Runtimes are no longer created by modulestores
# https://openedx.atlassian.net/wiki/display/PLAT/Convert+from+Storage-centric+runtimes+to+Application-centric+runtimes
xmodule.x_module.descriptor_global_handler_url = cms.lib.xblock.runtime.handler_url
xmodule.x_module.descriptor_global_local_resource_url = xblock_local_resource_url
# validate configurations on startup
validate_cms_config(settings)
def add_mimetypes():
"""
Add extra mimetypes. Used in xblock_resource.
If you add a mimetype here, be sure to also add it in lms/startup.py.
"""
import mimetypes
mimetypes.add_type('application/vnd.ms-fontobject', '.eot')
mimetypes.add_type('application/x-font-opentype', '.otf')
mimetypes.add_type('application/x-font-ttf', '.ttf')
mimetypes.add_type('application/font-woff', '.woff')
| agpl-3.0 |
sylvan5/pygame | pyrpg/pyrpg15/pyrpg15.py | 1 | 19499 | #!/usr/bin/env python
# -*- coding: utf-8 -*-
import pygame
from pygame.locals import *
import codecs
import os
import random
import sys
SCR_RECT = Rect(0, 0, 640, 480)
GS = 32
DOWN,LEFT,RIGHT,UP = 0,1,2,3
STOP, MOVE = 0, 1 # 移動タイプ
PROB_MOVE = 0.005 # 移動確率
def main():
pygame.init()
screen = pygame.display.set_mode(SCR_RECT.size)
pygame.display.set_caption(u"PyRPG 15 会話する")
# キャラクターイメージをロード
Character.images["player"] = split_image(load_image("player.png"))
Character.images["king"] = split_image(load_image("king.png"))
Character.images["minister"] = split_image(load_image("minister.png"))
Character.images["soldier"] = split_image(load_image("soldier.png"))
Character.images["black_cat"] = split_image(load_image("black_cat.png"))
# マップチップをロード
Map.images[0] = load_image("grass.png") # 草地
Map.images[1] = load_image("water.png") # 水
Map.images[2] = load_image("forest.png") # 森
Map.images[3] = load_image("hill.png") # 丘
Map.images[4] = load_image("mountain.png") # 山
# マップとプレイヤー作成
map = Map("test2")
player = Player("player", (1,1), DOWN)
map.add_chara(player)
# メッセージウィンドウ
msgwnd = MessageWindow(Rect(140,334,360,140))
clock = pygame.time.Clock()
while True:
clock.tick(60)
# メッセージウィンドウ表示中は更新を中止
if not msgwnd.is_visible:
map.update()
offset = calc_offset(player)
map.draw(screen, offset)
msgwnd.draw(screen)
pygame.display.update()
for event in pygame.event.get():
if event.type == QUIT:
sys.exit()
if event.type == KEYDOWN and event.key == K_ESCAPE:
sys.exit()
if event.type == KEYDOWN and event.key == K_SPACE:
if msgwnd.is_visible:
# メッセージウィンドウ表示中なら次ページへ
msgwnd.next()
else:
# 表示中でないならはなす
chara = player.talk(map)
if chara != None:
msgwnd.set(chara.message)
else:
msgwnd.set(u"そのほうこうには だれもいない。")
def calc_offset(player):
"""オフセットを計算する"""
offsetx = player.rect.topleft[0] - SCR_RECT.width/2
offsety = player.rect.topleft[1] - SCR_RECT.height/2
return offsetx, offsety
def load_image(filename, colorkey=None):
filename = os.path.join("data", filename)
try:
image = pygame.image.load(filename)
except pygame.error, message:
print "Cannot load image:", filename
raise SystemExit, message
image = image.convert()
if colorkey is not None:
if colorkey is -1:
colorkey = image.get_at((0,0))
image.set_colorkey(colorkey, RLEACCEL)
return image
def split_image(image):
"""128x128のキャラクターイメージを32x32の16枚のイメージに分割
分割したイメージを格納したリストを返す"""
imageList = []
for i in range(0, 128, GS):
for j in range(0, 128, GS):
surface = pygame.Surface((GS,GS))
surface.blit(image, (0,0), (j,i,GS,GS))
surface.set_colorkey(surface.get_at((0,0)), RLEACCEL)
surface.convert()
imageList.append(surface)
return imageList
class Map:
images = [None] * 256 # マップチップ(番号->イメージ)
def __init__(self, name):
self.name = name
self.row = -1 # 行数
self.col = -1 # 列数
self.map = [] # マップデータ(2次元リスト)
self.charas = [] # マップにいるキャラクターリスト
self.load() # マップをロード
self.load_event() # イベントをロード
def add_chara(self, chara):
"""キャラクターをマップに追加する"""
self.charas.append(chara)
def update(self):
"""マップの更新"""
# マップにいるキャラクターの更新
for chara in self.charas:
chara.update(self) # mapを渡す
def draw(self, screen, offset):
"""マップを描画する"""
offsetx, offsety = offset
# マップの描画範囲を計算
startx = offsetx / GS
endx = startx + SCR_RECT.width/GS + 1
starty = offsety / GS
endy = starty + SCR_RECT.height/GS + 1
# マップの描画
for y in range(starty, endy):
for x in range(startx, endx):
# マップの範囲外はデフォルトイメージで描画
# この条件がないとマップの端に行くとエラー発生
if x < 0 or y < 0 or x > self.col-1 or y > self.row-1:
screen.blit(self.images[self.default], (x*GS-offsetx,y*GS-offsety))
else:
screen.blit(self.images[self.map[y][x]], (x*GS-offsetx,y*GS-offsety))
# このマップにいるキャラクターを描画
for chara in self.charas:
chara.draw(screen, offset)
def is_movable(self, x, y):
"""(x,y)は移動可能か?"""
# マップ範囲内か?
if x < 0 or x > self.col-1 or y < 0 or y > self.row-1:
return False
# マップチップは移動可能か?
if self.map[y][x] == 1 or self.map[y][x] == 4: # 水と山は移動できない
return False
# キャラクターと衝突しないか?
for chara in self.charas:
if chara.x == x and chara.y == y:
return False
return True
def get_chara(self, x, y):
"""(x,y)にいるキャラクターを返す。いなければNone"""
for chara in self.charas:
if chara.x == x and chara.y == y:
return chara
return None
def load(self):
"""ファイルからマップをロード"""
file = os.path.join("data", self.name + ".map")
# テキスト形式のマップを読み込む
fp = open(file)
lines = fp.readlines()
row_str, col_str = lines[0].split() # 行数と列数
self.row, self.col = int(row_str), int(col_str)
self.default = int(lines[1]) # デフォルト値
for line in lines[2:]:
line = line.rstrip()
self.map.append([int(x) for x in list(line)])
fp.close()
def load_event(self):
"""ファイルからイベントをロード"""
file = os.path.join("data", self.name + ".evt")
# テキスト形式のイベントを読み込む
fp = codecs.open(file, "r", "utf-8")
for line in fp:
line = line.rstrip() # 改行除去
if line.startswith("#"): continue # コメント行は無視
data = line.split(",")
event_type = data[0]
if event_type == "CHARA": # キャラクターイベント
self.create_chara(data)
fp.close()
def create_chara(self, data):
"""キャラクターを作成してcharasに追加する"""
name = data[1]
x, y = int(data[2]), int(data[3])
direction = int(data[4])
movetype = int(data[5])
message = data[6]
chara = Character(name, (x,y), direction, movetype, message)
self.charas.append(chara)
class Character:
"""一般キャラクタークラス"""
speed = 4 # 1フレームの移動ピクセル数
animcycle = 24 # アニメーション速度
frame = 0
# キャラクターイメージ(mainで初期化)
# キャラクター名 -> 分割画像リストの辞書
images = {}
def __init__(self, name, pos, dir, movetype, message):
self.name = name # プレイヤー名(ファイル名と同じ)
self.image = self.images[name][0] # 描画中のイメージ
self.x, self.y = pos[0], pos[1] # 座標(単位:マス)
self.rect = self.image.get_rect(topleft=(self.x*GS, self.y*GS))
self.vx, self.vy = 0, 0 # 移動速度
self.moving = False # 移動中か?
self.direction = dir # 向き
self.movetype = movetype # 移動タイプ
self.message = message # メッセージ
def update(self, map):
"""キャラクター状態を更新する。
mapは移動可能かの判定に必要。"""
# プレイヤーの移動処理
if self.moving == True:
# ピクセル移動中ならマスにきっちり収まるまで移動を続ける
self.rect.move_ip(self.vx, self.vy)
if self.rect.left % GS == 0 and self.rect.top % GS == 0: # マスにおさまったら移動完了
self.moving = False
self.x = self.rect.left / GS
self.y = self.rect.top / GS
elif self.movetype == MOVE and random.random() < PROB_MOVE:
# 移動中でないならPROB_MOVEの確率でランダム移動開始
self.direction = random.randint(0, 3) # 0-3のいずれか
if self.direction == DOWN:
if map.is_movable(self.x, self.y+1):
self.vx, self.vy = 0, self.speed
self.moving = True
elif self.direction == LEFT:
if map.is_movable(self.x-1, self.y):
self.vx, self.vy = -self.speed, 0
self.moving = True
elif self.direction == RIGHT:
if map.is_movable(self.x+1, self.y):
self.vx, self.vy = self.speed, 0
self.moving = True
elif self.direction == UP:
if map.is_movable(self.x, self.y-1):
self.vx, self.vy = 0, -self.speed
self.moving = True
# キャラクターアニメーション(frameに応じて描画イメージを切り替える)
self.frame += 1
self.image = self.images[self.name][self.direction*4+self.frame/self.animcycle%4]
def draw(self, screen, offset):
"""オフセットを考慮してプレイヤーを描画"""
offsetx, offsety = offset
px = self.rect.topleft[0]
py = self.rect.topleft[1]
screen.blit(self.image, (px-offsetx, py-offsety))
def __str__(self):
return "CHARA,%s,%d,%d,%d,%d,%s" % (self.name,self.x,self.y,self.direction,self.movetype,self.message)
class Player(Character):
"""プレイヤークラス"""
def __init__(self, name, pos, dir):
Character.__init__(self, name, pos, dir, False, None)
def update(self, map):
"""プレイヤー状態を更新する。
mapは移動可能かの判定に必要。"""
# プレイヤーの移動処理
if self.moving == True:
# ピクセル移動中ならマスにきっちり収まるまで移動を続ける
self.rect.move_ip(self.vx, self.vy)
if self.rect.left % GS == 0 and self.rect.top % GS == 0: # マスにおさまったら移動完了
self.moving = False
self.x = self.rect.left / GS
self.y = self.rect.top / GS
# TODO: ここに接触イベントのチェックを入れる
else:
# プレイヤーの場合、キー入力があったら移動を開始する
pressed_keys = pygame.key.get_pressed()
if pressed_keys[K_DOWN]:
self.direction = DOWN # 移動できるかに関係なく向きは変える
if map.is_movable(self.x, self.y+1):
self.vx, self.vy = 0, self.speed
self.moving = True
elif pressed_keys[K_LEFT]:
self.direction = LEFT
if map.is_movable(self.x-1, self.y):
self.vx, self.vy = -self.speed, 0
self.moving = True
elif pressed_keys[K_RIGHT]:
self.direction = RIGHT
if map.is_movable(self.x+1, self.y):
self.vx, self.vy = self.speed, 0
self.moving = True
elif pressed_keys[K_UP]:
self.direction = UP
if map.is_movable(self.x, self.y-1):
self.vx, self.vy = 0, -self.speed
self.moving = True
# キャラクターアニメーション(frameに応じて描画イメージを切り替える)
self.frame += 1
self.image = self.images[self.name][self.direction*4+self.frame/self.animcycle%4]
def talk(self, map):
"""キャラクターが向いている方向のとなりにキャラクターがいるか調べる"""
# 向いている方向のとなりの座標を求める
nextx, nexty = self.x, self.y
if self.direction == DOWN:
nexty = self.y + 1
elif self.direction == LEFT:
nextx = self.x - 1
elif self.direction == RIGHT:
nextx = self.x + 1
elif self.direction == UP:
nexty = self.y - 1
# その方向にキャラクターがいるか?
chara = map.get_chara(nextx, nexty)
# キャラクターがいればプレイヤーの方向へ向ける
if chara != None:
if self.direction == DOWN:
chara.direction = UP
elif self.direction == LEFT:
chara.direction = RIGHT
elif self.direction == RIGHT:
chara.direction = LEFT
elif self.direction == UP:
chara.direction = DOWN
chara.update(map) # 向きを変えたので更新
return chara
class MessageEngine:
FONT_WIDTH = 16
FONT_HEIGHT = 22
WHITE, RED, GREEN, BLUE = 0, 160, 320, 480
def __init__(self):
self.image = load_image("font.png", -1)
self.color = self.WHITE
self.kana2rect = {}
self.create_hash()
def set_color(self, color):
"""文字色をセット"""
self.color = color
# 変な値だったらWHITEにする
if not self.color in [self.WHITE,self.RED,self.GREEN,self.BLUE]:
self.color = self.WHITE
def draw_character(self, screen, pos, ch):
"""1文字だけ描画する"""
x, y = pos
try:
rect = self.kana2rect[ch]
screen.blit(self.image, (x,y), (rect.x+self.color,rect.y,rect.width,rect.height))
except KeyError:
print "描画できない文字があります:%s" % ch
return
def draw_string(self, screen, pos, str):
"""文字列を描画"""
x, y = pos
for i, ch in enumerate(str):
dx = x + self.FONT_WIDTH * i
self.draw_character(screen, (dx,y), ch)
def create_hash(self):
"""文字から座標への辞書を作成"""
filepath = os.path.join("data", "kana2rect.dat")
fp = codecs.open(filepath, "r", "utf-8")
for line in fp.readlines():
line = line.rstrip()
d = line.split(" ")
kana, x, y, w, h = d[0], int(d[1]), int(d[2]), int(d[3]), int(d[4])
self.kana2rect[kana] = Rect(x, y, w, h)
fp.close()
class Window:
"""ウィンドウの基本クラス"""
EDGE_WIDTH = 4 # 白枠の幅
def __init__(self, rect):
self.rect = rect # 一番外側の白い矩形
self.inner_rect = self.rect.inflate(-self.EDGE_WIDTH*2, -self.EDGE_WIDTH*2) # 内側の黒い矩形
self.is_visible = False # ウィンドウを表示中か?
def draw(self, screen):
"""ウィンドウを描画"""
if self.is_visible == False: return
pygame.draw.rect(screen, (255,255,255), self.rect, 0)
pygame.draw.rect(screen, (0,0,0), self.inner_rect, 0)
def show(self):
"""ウィンドウを表示"""
self.is_visible = True
def hide(self):
"""ウィンドウを隠す"""
self.is_visible = False
class MessageWindow(Window):
"""メッセージウィンドウ"""
MAX_CHARS_PER_LINE = 20 # 1行の最大文字数
MAX_LINES_PER_PAGE = 3 # 1行の最大行数(4行目は▼用)
MAX_CHARS_PER_PAGE = 20*3 # 1ページの最大文字数
MAX_LINES = 30 # メッセージを格納できる最大行数
LINE_HEIGHT = 8 # 行間の大きさ
def __init__(self, rect):
Window.__init__(self, rect)
self.text_rect = self.inner_rect.inflate(-32, -32) # テキストを表示する矩形
self.text = [] # メッセージ
self.cur_page = 0 # 現在表示しているページ
self.max_page = 0 # 最終ページ
self.msg_engine = MessageEngine() # メッセージエンジン
self.cursor = load_image("cursor.png", -1) # カーソル画像
def set(self, message):
"""メッセージをセットしてウィンドウを画面に表示する"""
self.cur_page = 0
# 全角スペースで初期化
self.text = [u' '] * (self.MAX_LINES*self.MAX_CHARS_PER_LINE)
# メッセージをセット
p = 0
for i in range(len(message)):
ch = message[i]
if ch == "/": # /は改行文字
self.text[p] = "/"
p += self.MAX_CHARS_PER_LINE
p = (p/self.MAX_CHARS_PER_LINE)*self.MAX_CHARS_PER_LINE
elif ch == "%": # \fは改ページ文字
self.text[p] = "%"
p += self.MAX_CHARS_PER_PAGE
p = (p/self.MAX_CHARS_PER_PAGE)*self.MAX_CHARS_PER_PAGE
else:
self.text[p] = ch
p += 1
self.max_page = p / self.MAX_CHARS_PER_PAGE
self.show()
def draw(self, screen):
"""メッセージを描画する
メッセージウィンドウが表示されていないときは何もしない"""
Window.draw(self, screen)
if self.is_visible == False: return
# 現在のページ(curPage)1ページ分の内容を描画
for i in range(self.MAX_CHARS_PER_PAGE):
ch = self.text[self.cur_page*self.MAX_CHARS_PER_PAGE+i]
if ch == "/" or ch == "%": continue # 制御文字は表示しない
dx = self.text_rect[0] + MessageEngine.FONT_WIDTH * (i % self.MAX_CHARS_PER_LINE)
dy = self.text_rect[1] + (self.LINE_HEIGHT+MessageEngine.FONT_HEIGHT) * (i / self.MAX_CHARS_PER_LINE)
self.msg_engine.draw_character(screen, (dx,dy), ch)
# 最後のページでない場合は▼を表示
if self.cur_page < self.max_page:
dx = self.text_rect[0] + (self.MAX_CHARS_PER_LINE/2) * MessageEngine.FONT_WIDTH - MessageEngine.FONT_WIDTH/2
dy = self.text_rect[1] + (self.LINE_HEIGHT + MessageEngine.FONT_HEIGHT) * 3
screen.blit(self.cursor, (dx,dy))
def next(self):
"""メッセージを先に進める"""
# 現在のページが最後のページだったらウィンドウを閉じる
if self.cur_page == self.max_page:
self.hide()
self.cur_page += 1
if __name__ == "__main__":
main()
| mit |
qwefi/nova | nova/compute/resource_tracker.py | 3 | 24000 | # Copyright (c) 2012 OpenStack Foundation
# All Rights Reserved.
#
# Licensed 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.
"""
Track resources like memory and disk for a compute host. Provides the
scheduler with useful information about availability through the ComputeNode
model.
"""
from oslo.config import cfg
from nova.compute import claims
from nova.compute import flavors
from nova.compute import task_states
from nova.compute import vm_states
from nova import conductor
from nova import context
from nova import exception
from nova.openstack.common import importutils
from nova.openstack.common import jsonutils
from nova.openstack.common import log as logging
from nova import utils
resource_tracker_opts = [
cfg.IntOpt('reserved_host_disk_mb', default=0,
help='Amount of disk in MB to reserve for the host'),
cfg.IntOpt('reserved_host_memory_mb', default=512,
help='Amount of memory in MB to reserve for the host'),
cfg.StrOpt('compute_stats_class',
default='nova.compute.stats.Stats',
help='Class that will manage stats for the local compute host')
]
CONF = cfg.CONF
CONF.register_opts(resource_tracker_opts)
LOG = logging.getLogger(__name__)
COMPUTE_RESOURCE_SEMAPHORE = "compute_resources"
class ResourceTracker(object):
"""Compute helper class for keeping track of resource usage as instances
are built and destroyed.
"""
def __init__(self, host, driver, nodename):
self.host = host
self.driver = driver
self.nodename = nodename
self.compute_node = None
self.stats = importutils.import_object(CONF.compute_stats_class)
self.tracked_instances = {}
self.tracked_migrations = {}
self.conductor_api = conductor.API()
@utils.synchronized(COMPUTE_RESOURCE_SEMAPHORE)
def instance_claim(self, context, instance_ref, limits=None):
"""Indicate that some resources are needed for an upcoming compute
instance build operation.
This should be called before the compute node is about to perform
an instance build operation that will consume additional resources.
:param context: security context
:param instance_ref: instance to reserve resources for
:param limits: Dict of oversubscription limits for memory, disk,
and CPUs.
:returns: A Claim ticket representing the reserved resources. It can
be used to revert the resource usage if an error occurs
during the instance build.
"""
if self.disabled:
# compute_driver doesn't support resource tracking, just
# set the 'host' and node fields and continue the build:
self._set_instance_host_and_node(context, instance_ref)
return claims.NopClaim()
# sanity checks:
if instance_ref['host']:
LOG.warning(_("Host field should not be set on the instance until "
"resources have been claimed."),
instance=instance_ref)
if instance_ref['node']:
LOG.warning(_("Node field should be not be set on the instance "
"until resources have been claimed."),
instance=instance_ref)
claim = claims.Claim(instance_ref, self)
if claim.test(self.compute_node, limits):
self._set_instance_host_and_node(context, instance_ref)
# Mark resources in-use and update stats
self._update_usage_from_instance(self.compute_node, instance_ref)
# persist changes to the compute node:
self._update(context, self.compute_node)
return claim
else:
raise exception.ComputeResourcesUnavailable()
@utils.synchronized(COMPUTE_RESOURCE_SEMAPHORE)
def resize_claim(self, context, instance_ref, instance_type, limits=None):
"""Indicate that resources are needed for a resize operation to this
compute host.
:param context: security context
:param instance_ref: instance to reserve resources for
:param instance_type: new instance_type being resized to
:param limits: Dict of oversubscription limits for memory, disk,
and CPUs.
:returns: A Claim ticket representing the reserved resources. This
should be turned into finalize a resource claim or free
resources after the compute operation is finished.
"""
if self.disabled:
# compute_driver doesn't support resource tracking, just
# generate the migration record and continue the resize:
migration_ref = self._create_migration(context, instance_ref,
instance_type)
return claims.NopClaim(migration=migration_ref)
claim = claims.ResizeClaim(instance_ref, instance_type, self)
if claim.test(self.compute_node, limits):
migration_ref = self._create_migration(context, instance_ref,
instance_type)
claim.migration = migration_ref
# Mark the resources in-use for the resize landing on this
# compute host:
self._update_usage_from_migration(context, instance_ref,
self.compute_node, migration_ref)
elevated = context.elevated()
self._update(elevated, self.compute_node)
return claim
else:
raise exception.ComputeResourcesUnavailable()
def _create_migration(self, context, instance, instance_type):
"""Create a migration record for the upcoming resize. This should
be done while the COMPUTE_RESOURCES_SEMAPHORE is held so the resource
claim will not be lost if the audit process starts.
"""
old_instance_type = flavors.extract_flavor(instance)
return self.conductor_api.migration_create(context, instance,
{'dest_compute': self.host,
'dest_node': self.nodename,
'dest_host': self.driver.get_host_ip_addr(),
'old_instance_type_id': old_instance_type['id'],
'new_instance_type_id': instance_type['id'],
'status': 'pre-migrating'})
def _set_instance_host_and_node(self, context, instance_ref):
"""Tag the instance as belonging to this host. This should be done
while the COMPUTE_RESOURCES_SEMPAHORE is held so the resource claim
will not be lost if the audit process starts.
"""
values = {'host': self.host, 'node': self.nodename,
'launched_on': self.host}
self.conductor_api.instance_update(context, instance_ref['uuid'],
**values)
instance_ref['host'] = self.host
instance_ref['launched_on'] = self.host
instance_ref['node'] = self.nodename
@utils.synchronized(COMPUTE_RESOURCE_SEMAPHORE)
def abort_instance_claim(self, instance):
"""Remove usage from the given instance."""
# flag the instance as deleted to revert the resource usage
# and associated stats:
instance['vm_state'] = vm_states.DELETED
self._update_usage_from_instance(self.compute_node, instance)
ctxt = context.get_admin_context()
self._update(ctxt, self.compute_node)
@utils.synchronized(COMPUTE_RESOURCE_SEMAPHORE)
def drop_resize_claim(self, instance, instance_type=None, prefix='new_'):
"""Remove usage for an incoming/outgoing migration."""
if instance['uuid'] in self.tracked_migrations:
migration, itype = self.tracked_migrations.pop(instance['uuid'])
if not instance_type:
ctxt = context.get_admin_context()
instance_type = self._get_instance_type(ctxt, instance, prefix)
if instance_type['id'] == itype['id']:
self.stats.update_stats_for_migration(itype, sign=-1)
self._update_usage(self.compute_node, itype, sign=-1)
self.compute_node['stats'] = self.stats
ctxt = context.get_admin_context()
self._update(ctxt, self.compute_node)
@utils.synchronized(COMPUTE_RESOURCE_SEMAPHORE)
def update_usage(self, context, instance):
"""Update the resource usage and stats after a change in an
instance
"""
if self.disabled:
return
uuid = instance['uuid']
# don't update usage for this instance unless it submitted a resource
# claim first:
if uuid in self.tracked_instances:
self._update_usage_from_instance(self.compute_node, instance)
self._update(context.elevated(), self.compute_node)
@property
def disabled(self):
return self.compute_node is None
@utils.synchronized(COMPUTE_RESOURCE_SEMAPHORE)
def update_available_resource(self, context):
"""Override in-memory calculations of compute node resource usage based
on data audited from the hypervisor layer.
Add in resource claims in progress to account for operations that have
declared a need for resources, but not necessarily retrieved them from
the hypervisor layer yet.
"""
LOG.audit(_("Auditing locally available compute resources"))
resources = self.driver.get_available_resource(self.nodename)
if not resources:
# The virt driver does not support this function
LOG.audit(_("Virt driver does not support "
"'get_available_resource' Compute tracking is disabled."))
self.compute_node = None
return
self._verify_resources(resources)
self._report_hypervisor_resource_view(resources)
# Grab all instances assigned to this node:
instances = self.conductor_api.instance_get_all_by_host_and_node(
context, self.host, self.nodename)
# Now calculate usage based on instance utilization:
self._update_usage_from_instances(resources, instances)
# Grab all in-progress migrations:
capi = self.conductor_api
migrations = capi.migration_get_in_progress_by_host_and_node(context,
self.host, self.nodename)
self._update_usage_from_migrations(context, resources, migrations)
# Detect and account for orphaned instances that may exist on the
# hypervisor, but are not in the DB:
orphans = self._find_orphaned_instances()
self._update_usage_from_orphans(resources, orphans)
self._report_final_resource_view(resources)
self._sync_compute_node(context, resources)
def _sync_compute_node(self, context, resources):
"""Create or update the compute node DB record."""
if not self.compute_node:
# we need a copy of the ComputeNode record:
service = self._get_service(context)
if not service:
# no service record, disable resource
return
compute_node_refs = service['compute_node']
if compute_node_refs:
for cn in compute_node_refs:
if cn.get('hypervisor_hostname') == self.nodename:
self.compute_node = cn
break
if not self.compute_node:
# Need to create the ComputeNode record:
resources['service_id'] = service['id']
self._create(context, resources)
LOG.info(_('Compute_service record created for %(host)s:%(node)s')
% {'host': self.host, 'node': self.nodename})
else:
# just update the record:
self._update(context, resources, prune_stats=True)
LOG.info(_('Compute_service record updated for %(host)s:%(node)s')
% {'host': self.host, 'node': self.nodename})
def _create(self, context, values):
"""Create the compute node in the DB."""
# initialize load stats from existing instances:
self.compute_node = self.conductor_api.compute_node_create(context,
values)
def _get_service(self, context):
try:
return self.conductor_api.service_get_by_compute_host(context,
self.host)
except exception.NotFound:
LOG.warn(_("No service record for host %s"), self.host)
def _report_hypervisor_resource_view(self, resources):
"""Log the hypervisor's view of free memory in and free disk.
This is just a snapshot of resource usage recorded by the
virt driver.
"""
free_ram_mb = resources['memory_mb'] - resources['memory_mb_used']
free_disk_gb = resources['local_gb'] - resources['local_gb_used']
LOG.debug(_("Hypervisor: free ram (MB): %s") % free_ram_mb)
LOG.debug(_("Hypervisor: free disk (GB): %s") % free_disk_gb)
vcpus = resources['vcpus']
if vcpus:
free_vcpus = vcpus - resources['vcpus_used']
LOG.debug(_("Hypervisor: free VCPUs: %s") % free_vcpus)
else:
LOG.debug(_("Hypervisor: VCPU information unavailable"))
def _report_final_resource_view(self, resources):
"""Report final calculate of free memory and free disk including
instance calculations and in-progress resource claims. These
values will be exposed via the compute node table to the scheduler.
"""
LOG.audit(_("Free ram (MB): %s") % resources['free_ram_mb'])
LOG.audit(_("Free disk (GB): %s") % resources['free_disk_gb'])
vcpus = resources['vcpus']
if vcpus:
free_vcpus = vcpus - resources['vcpus_used']
LOG.audit(_("Free VCPUS: %s") % free_vcpus)
else:
LOG.audit(_("Free VCPU information unavailable"))
def _update(self, context, values, prune_stats=False):
"""Persist the compute node updates to the DB."""
if "service" in self.compute_node:
del self.compute_node['service']
self.compute_node = self.conductor_api.compute_node_update(
context, self.compute_node, values, prune_stats)
def _update_usage(self, resources, usage, sign=1):
resources['memory_mb_used'] += sign * usage['memory_mb']
resources['local_gb_used'] += sign * usage.get('root_gb', 0)
resources['local_gb_used'] += sign * usage.get('ephemeral_gb', 0)
# free ram and disk may be negative, depending on policy:
resources['free_ram_mb'] = (resources['memory_mb'] -
resources['memory_mb_used'])
resources['free_disk_gb'] = (resources['local_gb'] -
resources['local_gb_used'])
resources['running_vms'] = self.stats.num_instances
resources['vcpus_used'] = self.stats.num_vcpus_used
def _update_usage_from_migration(self, context, instance, resources,
migration):
"""Update usage for a single migration. The record may
represent an incoming or outbound migration.
"""
uuid = migration['instance_uuid']
LOG.audit(_("Updating from migration %s") % uuid)
incoming = (migration['dest_compute'] == self.host and
migration['dest_node'] == self.nodename)
outbound = (migration['source_compute'] == self.host and
migration['source_node'] == self.nodename)
same_node = (incoming and outbound)
record = self.tracked_instances.get(uuid, None)
itype = None
if same_node:
# same node resize. record usage for whichever instance type the
# instance is *not* in:
if (instance['instance_type_id'] ==
migration['old_instance_type_id']):
itype = self._get_instance_type(context, instance, 'new_',
migration['new_instance_type_id'])
else:
# instance record already has new flavor, hold space for a
# possible revert to the old instance type:
itype = self._get_instance_type(context, instance, 'old_',
migration['old_instance_type_id'])
elif incoming and not record:
# instance has not yet migrated here:
itype = self._get_instance_type(context, instance, 'new_',
migration['new_instance_type_id'])
elif outbound and not record:
# instance migrated, but record usage for a possible revert:
itype = self._get_instance_type(context, instance, 'old_',
migration['old_instance_type_id'])
if itype:
self.stats.update_stats_for_migration(itype)
self._update_usage(resources, itype)
resources['stats'] = self.stats
self.tracked_migrations[uuid] = (migration, itype)
def _update_usage_from_migrations(self, context, resources, migrations):
self.tracked_migrations.clear()
filtered = {}
# do some defensive filtering against bad migrations records in the
# database:
for migration in migrations:
instance = migration['instance']
if not instance:
# migration referencing deleted instance
continue
uuid = instance['uuid']
# skip migration if instance isn't in a resize state:
if not self._instance_in_resize_state(instance):
LOG.warn(_("Instance not resizing, skipping migration."),
instance_uuid=uuid)
continue
# filter to most recently updated migration for each instance:
m = filtered.get(uuid, None)
if not m or migration['updated_at'] >= m['updated_at']:
filtered[uuid] = migration
for migration in filtered.values():
instance = migration['instance']
try:
self._update_usage_from_migration(context, instance, resources,
migration)
except exception.InstanceTypeNotFound:
LOG.warn(_("InstanceType could not be found, skipping "
"migration."), instance_uuid=uuid)
continue
def _update_usage_from_instance(self, resources, instance):
"""Update usage for a single instance."""
uuid = instance['uuid']
is_new_instance = uuid not in self.tracked_instances
is_deleted_instance = instance['vm_state'] == vm_states.DELETED
if is_new_instance:
self.tracked_instances[uuid] = jsonutils.to_primitive(instance)
sign = 1
if is_deleted_instance:
self.tracked_instances.pop(uuid)
sign = -1
self.stats.update_stats_for_instance(instance)
# if it's a new or deleted instance:
if is_new_instance or is_deleted_instance:
# new instance, update compute node resource usage:
self._update_usage(resources, instance, sign=sign)
resources['current_workload'] = self.stats.calculate_workload()
resources['stats'] = self.stats
def _update_usage_from_instances(self, resources, instances):
"""Calculate resource usage based on instance utilization. This is
different than the hypervisor's view as it will account for all
instances assigned to the local compute host, even if they are not
currently powered on.
"""
self.tracked_instances.clear()
# purge old stats
self.stats.clear()
# set some intiial values, reserve room for host/hypervisor:
resources['local_gb_used'] = CONF.reserved_host_disk_mb / 1024
resources['memory_mb_used'] = CONF.reserved_host_memory_mb
resources['vcpus_used'] = 0
resources['free_ram_mb'] = (resources['memory_mb'] -
resources['memory_mb_used'])
resources['free_disk_gb'] = (resources['local_gb'] -
resources['local_gb_used'])
resources['current_workload'] = 0
resources['running_vms'] = 0
for instance in instances:
if instance['vm_state'] == vm_states.DELETED:
continue
else:
self._update_usage_from_instance(resources, instance)
def _find_orphaned_instances(self):
"""Given the set of instances and migrations already account for
by resource tracker, sanity check the hypervisor to determine
if there are any "orphaned" instances left hanging around.
Orphans could be consuming memory and should be accounted for in
usage calculations to guard against potential out of memory
errors.
"""
uuids1 = frozenset(self.tracked_instances.keys())
uuids2 = frozenset(self.tracked_migrations.keys())
uuids = uuids1 | uuids2
usage = self.driver.get_per_instance_usage()
vuuids = frozenset(usage.keys())
orphan_uuids = vuuids - uuids
orphans = [usage[uuid] for uuid in orphan_uuids]
return orphans
def _update_usage_from_orphans(self, resources, orphans):
"""Include orphaned instances in usage."""
for orphan in orphans:
memory_mb = orphan['memory_mb']
LOG.warn(_("Detected running orphan instance: %(uuid)s (consuming "
"%(memory_mb)s MB memory)"),
{'uuid': orphan['uuid'], 'memory_mb': memory_mb})
# just record memory usage for the orphan
usage = {'memory_mb': memory_mb}
self._update_usage(resources, usage)
def _verify_resources(self, resources):
resource_keys = ["vcpus", "memory_mb", "local_gb", "cpu_info",
"vcpus_used", "memory_mb_used", "local_gb_used"]
missing_keys = [k for k in resource_keys if k not in resources]
if missing_keys:
reason = _("Missing keys: %s") % missing_keys
raise exception.InvalidInput(reason=reason)
def _instance_in_resize_state(self, instance):
vm = instance['vm_state']
task = instance['task_state']
if vm == vm_states.RESIZED:
return True
if (vm == vm_states.ACTIVE and task in [task_states.RESIZE_PREP,
task_states.RESIZE_MIGRATING, task_states.RESIZE_MIGRATED,
task_states.RESIZE_FINISH]):
return True
return False
def _get_instance_type(self, context, instance, prefix,
instance_type_id=None):
"""Get the instance type from sys metadata if it's stashed. If not,
fall back to fetching it via the conductor API.
See bug 1164110
"""
if not instance_type_id:
instance_type_id = instance['instance_type_id']
try:
return flavors.extract_flavor(instance, prefix)
except KeyError:
return self.conductor_api.instance_type_get(context,
instance_type_id)
| apache-2.0 |
fjbatresv/odoo | addons/hr_timesheet_invoice/report/hr_timesheet_invoice_report.py | 318 | 9494 | # -*- coding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Management Solution
# Copyright (C) 2004-2010 Tiny SPRL (<http://tiny.be>).
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as
# published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
##############################################################################
from openerp.osv import fields,osv
from openerp.tools.sql import drop_view_if_exists
class report_timesheet_line(osv.osv):
_name = "report.timesheet.line"
_description = "Timesheet Line"
_auto = False
_columns = {
'name': fields.char('Year', required=False, readonly=True),
'user_id': fields.many2one('res.users', 'User', readonly=True),
'date': fields.date('Date', readonly=True),
'day': fields.char('Day', size=128, readonly=True),
'quantity': fields.float('Time', readonly=True),
'cost': fields.float('Cost', readonly=True),
'product_id': fields.many2one('product.product', 'Product',readonly=True),
'account_id': fields.many2one('account.analytic.account', 'Analytic Account', readonly=True),
'general_account_id': fields.many2one('account.account', 'General Account', readonly=True),
'invoice_id': fields.many2one('account.invoice', 'Invoiced', readonly=True),
'month': fields.selection([('01','January'), ('02','February'), ('03','March'), ('04','April'), ('05','May'), ('06','June'),
('07','July'), ('08','August'), ('09','September'), ('10','October'), ('11','November'), ('12','December')],'Month', readonly=True),
}
_order = 'name desc,user_id desc'
def init(self, cr):
drop_view_if_exists(cr, 'report_timesheet_line')
cr.execute("""
create or replace view report_timesheet_line as (
select
min(l.id) as id,
l.date as date,
to_char(l.date,'YYYY') as name,
to_char(l.date,'MM') as month,
l.user_id,
to_char(l.date, 'YYYY-MM-DD') as day,
l.invoice_id,
l.product_id,
l.account_id,
l.general_account_id,
sum(l.unit_amount) as quantity,
sum(l.amount) as cost
from
account_analytic_line l
where
l.user_id is not null
group by
l.date,
l.user_id,
l.product_id,
l.account_id,
l.general_account_id,
l.invoice_id
)
""")
class report_timesheet_user(osv.osv):
_name = "report_timesheet.user"
_description = "Timesheet per day"
_auto = False
_columns = {
'name': fields.char('Year', required=False, readonly=True),
'user_id':fields.many2one('res.users', 'User', readonly=True),
'quantity': fields.float('Time', readonly=True),
'cost': fields.float('Cost', readonly=True),
'month':fields.selection([('01','January'), ('02','February'), ('03','March'), ('04','April'), ('05','May'), ('06','June'),
('07','July'), ('08','August'), ('09','September'), ('10','October'), ('11','November'), ('12','December')],'Month', readonly=True),
}
_order = 'name desc,user_id desc'
def init(self, cr):
drop_view_if_exists(cr, 'report_timesheet_user')
cr.execute("""
create or replace view report_timesheet_user as (
select
min(l.id) as id,
to_char(l.date,'YYYY') as name,
to_char(l.date,'MM') as month,
l.user_id,
sum(l.unit_amount) as quantity,
sum(l.amount) as cost
from
account_analytic_line l
where
user_id is not null
group by l.date, to_char(l.date,'YYYY'),to_char(l.date,'MM'), l.user_id
)
""")
class report_timesheet_account(osv.osv):
_name = "report_timesheet.account"
_description = "Timesheet per account"
_auto = False
_columns = {
'name': fields.char('Year', required=False, readonly=True),
'user_id':fields.many2one('res.users', 'User', readonly=True),
'account_id':fields.many2one('account.analytic.account', 'Analytic Account', readonly=True),
'quantity': fields.float('Time', readonly=True),
'month':fields.selection([('01','January'), ('02','February'), ('03','March'), ('04','April'), ('05','May'), ('06','June'),
('07','July'), ('08','August'), ('09','September'), ('10','October'), ('11','November'), ('12','December')],'Month', readonly=True),
}
_order = 'name desc,account_id desc,user_id desc'
def init(self, cr):
drop_view_if_exists(cr, 'report_timesheet_account')
cr.execute("""
create or replace view report_timesheet_account as (
select
min(id) as id,
to_char(create_date, 'YYYY') as name,
to_char(create_date,'MM') as month,
user_id,
account_id,
sum(unit_amount) as quantity
from
account_analytic_line
group by
to_char(create_date, 'YYYY'),to_char(create_date, 'MM'), user_id, account_id
)
""")
class report_timesheet_account_date(osv.osv):
_name = "report_timesheet.account.date"
_description = "Daily timesheet per account"
_auto = False
_columns = {
'name': fields.char('Year', required=False, readonly=True),
'user_id':fields.many2one('res.users', 'User', readonly=True),
'account_id':fields.many2one('account.analytic.account', 'Analytic Account', readonly=True),
'quantity': fields.float('Time', readonly=True),
'month':fields.selection([('01','January'), ('02','February'), ('03','March'), ('04','April'), ('05','May'), ('06','June'),
('07','July'), ('08','August'), ('09','September'), ('10','October'), ('11','November'), ('12','December')],'Month', readonly=True),
}
_order = 'name desc,account_id desc,user_id desc'
def init(self, cr):
drop_view_if_exists(cr, 'report_timesheet_account_date')
cr.execute("""
create or replace view report_timesheet_account_date as (
select
min(id) as id,
to_char(date,'YYYY') as name,
to_char(date,'MM') as month,
user_id,
account_id,
sum(unit_amount) as quantity
from
account_analytic_line
group by
to_char(date,'YYYY'),to_char(date,'MM'), user_id, account_id
)
""")
class report_timesheet_invoice(osv.osv):
_name = "report_timesheet.invoice"
_description = "Costs to invoice"
_auto = False
_columns = {
'user_id':fields.many2one('res.users', 'User', readonly=True),
'account_id':fields.many2one('account.analytic.account', 'Project', readonly=True),
'manager_id':fields.many2one('res.users', 'Manager', readonly=True),
'quantity': fields.float('Time', readonly=True),
'amount_invoice': fields.float('To invoice', readonly=True)
}
_rec_name = 'user_id'
_order = 'user_id desc'
def init(self, cr):
drop_view_if_exists(cr, 'report_timesheet_invoice')
cr.execute("""
create or replace view report_timesheet_invoice as (
select
min(l.id) as id,
l.user_id as user_id,
l.account_id as account_id,
a.user_id as manager_id,
sum(l.unit_amount) as quantity,
sum(l.unit_amount * t.list_price) as amount_invoice
from account_analytic_line l
left join hr_timesheet_invoice_factor f on (l.to_invoice=f.id)
left join account_analytic_account a on (l.account_id=a.id)
left join product_product p on (l.to_invoice=f.id)
left join product_template t on (l.to_invoice=f.id)
where
l.to_invoice is not null and
l.invoice_id is null
group by
l.user_id,
l.account_id,
a.user_id
)
""")
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
| agpl-3.0 |
canaltinova/servo | tests/wpt/web-platform-tests/referrer-policy/generic/tools/generate.py | 15 | 7360 | #!/usr/bin/env python
from __future__ import print_function
import os, sys, json
from common_paths import *
import spec_validator
import argparse
def expand_test_expansion_pattern(spec_test_expansion, test_expansion_schema):
expansion = {}
for artifact in spec_test_expansion:
artifact_value = spec_test_expansion[artifact]
if artifact_value == '*':
expansion[artifact] = test_expansion_schema[artifact]
elif isinstance(artifact_value, list):
expansion[artifact] = artifact_value
else:
expansion[artifact] = [artifact_value]
return expansion
def permute_expansion(expansion, selection = {}, artifact_index = 0):
artifact_order = ['delivery_method', 'redirection', 'origin',
'source_protocol', 'target_protocol', 'subresource',
'referrer_url', 'name']
if artifact_index >= len(artifact_order):
yield selection
return
artifact_key = artifact_order[artifact_index]
for artifact_value in expansion[artifact_key]:
selection[artifact_key] = artifact_value
for next_selection in permute_expansion(expansion,
selection,
artifact_index + 1):
yield next_selection
def generate_selection(selection, spec, subresource_path,
test_html_template_basename):
selection['spec_name'] = spec['name']
selection['spec_title'] = spec['title']
selection['spec_description'] = spec['description']
selection['spec_specification_url'] = spec['specification_url']
selection['subresource_path'] = subresource_path
# Oddball: it can be None, so in JS it's null.
selection['referrer_policy_json'] = json.dumps(spec['referrer_policy'])
test_filename = test_file_path_pattern % selection
test_directory = os.path.dirname(test_filename)
full_path = os.path.join(spec_directory, test_directory)
test_html_template = get_template(test_html_template_basename)
test_js_template = get_template("test.js.template")
disclaimer_template = get_template('disclaimer.template')
test_description_template = get_template("test_description.template")
html_template_filename = os.path.join(template_directory,
test_html_template_basename)
generated_disclaimer = disclaimer_template \
% {'generating_script_filename': os.path.relpath(__file__,
test_root_directory),
'html_template_filename': os.path.relpath(html_template_filename,
test_root_directory)}
# Adjust the template for the test invoking JS. Indent it to look nice.
selection['generated_disclaimer'] = generated_disclaimer.rstrip()
test_description_template = \
test_description_template.rstrip().replace("\n", "\n" + " " * 33)
selection['test_description'] = test_description_template % selection
# Adjust the template for the test invoking JS. Indent it to look nice.
indent = "\n" + " " * 6;
test_js_template = indent + test_js_template.replace("\n", indent);
selection['test_js'] = test_js_template % selection
# Directory for the test files.
try:
os.makedirs(full_path)
except:
pass
selection['meta_delivery_method'] = ''
if spec['referrer_policy'] != None:
if selection['delivery_method'] == 'meta-referrer':
selection['meta_delivery_method'] = \
'<meta name="referrer" content="%(referrer_policy)s">' % spec
elif selection['delivery_method'] == 'http-rp':
selection['meta_delivery_method'] = \
"<!-- No meta: Referrer policy delivered via HTTP headers. -->"
test_headers_filename = test_filename + ".headers"
with open(test_headers_filename, "w") as f:
f.write('Referrer-Policy: ' + \
'%(referrer_policy)s\n' % spec)
# TODO(kristijanburnik): Limit to WPT origins.
f.write('Access-Control-Allow-Origin: *\n')
elif selection['delivery_method'] == 'attr-referrer':
# attr-referrer is supported by the JS test wrapper.
pass
elif selection['delivery_method'] == 'rel-noreferrer':
# rel=noreferrer is supported by the JS test wrapper.
pass
else:
raise ValueError('Not implemented delivery_method: ' \
+ selection['delivery_method'])
# Obey the lint and pretty format.
if len(selection['meta_delivery_method']) > 0:
selection['meta_delivery_method'] = "\n " + \
selection['meta_delivery_method']
with open(test_filename, 'w') as f:
f.write(test_html_template % selection)
def generate_test_source_files(spec_json, target):
test_expansion_schema = spec_json['test_expansion_schema']
specification = spec_json['specification']
spec_json_js_template = get_template('spec_json.js.template')
with open(generated_spec_json_filename, 'w') as f:
f.write(spec_json_js_template
% {'spec_json': json.dumps(spec_json)})
# Choose a debug/release template depending on the target.
html_template = "test.%s.html.template" % target
# Create list of excluded tests.
exclusion_dict = {}
for excluded_pattern in spec_json['excluded_tests']:
excluded_expansion = \
expand_test_expansion_pattern(excluded_pattern,
test_expansion_schema)
for excluded_selection in permute_expansion(excluded_expansion):
excluded_selection_path = selection_pattern % excluded_selection
exclusion_dict[excluded_selection_path] = True
for spec in specification:
for spec_test_expansion in spec['test_expansion']:
expansion = expand_test_expansion_pattern(spec_test_expansion,
test_expansion_schema)
for selection in permute_expansion(expansion):
selection_path = selection_pattern % selection
if not selection_path in exclusion_dict:
subresource_path = \
spec_json["subresource_path"][selection["subresource"]]
generate_selection(selection,
spec,
subresource_path,
html_template)
else:
print('Excluding selection:', selection_path)
def main(target):
spec_json = load_spec_json();
spec_validator.assert_valid_spec_json(spec_json)
generate_test_source_files(spec_json, target)
if __name__ == '__main__':
parser = argparse.ArgumentParser(description='Test suite generator utility')
parser.add_argument('-t', '--target', type = str,
choices = ("release", "debug"), default = "release",
help = 'Sets the appropriate template for generating tests')
# TODO(kristijanburnik): Add option for the spec_json file.
args = parser.parse_args()
main(args.target)
| mpl-2.0 |
GaryKriebel/osf.io | website/addons/osfstorage/tests/test_models.py | 4 | 14077 | # encoding: utf-8
import mock
import unittest
from nose.tools import * # noqa
from tests.base import OsfTestCase
from tests.factories import ProjectFactory
from website.addons.osfstorage.tests import factories
from website.addons.osfstorage.tests.utils import StorageTestCase
import datetime
from modularodm import exceptions as modm_errors
from website.models import NodeLog
from website.addons.osfstorage import utils
from website.addons.osfstorage import model
from website.addons.osfstorage import errors
from website.addons.osfstorage import settings
class TestFileGuid(OsfTestCase):
def setUp(self):
super(OsfTestCase, self).setUp()
self.user = factories.AuthUserFactory()
self.project = ProjectFactory(creator=self.user)
self.node_addon = self.project.get_addon('osfstorage')
def test_provider(self):
assert_equal('osfstorage', model.OsfStorageGuidFile().provider)
def test_correct_path(self):
guid = model.OsfStorageGuidFile(node=self.project, path='/baz/foo/bar')
assert_equals(guid.path, '/baz/foo/bar')
assert_equal(guid.path, guid.waterbutler_path)
assert_equals(guid.waterbutler_path, '/baz/foo/bar')
@mock.patch('website.addons.base.requests.get')
def test_unique_identifier(self, mock_get):
mock_response = mock.Mock(ok=True, status_code=200)
mock_get.return_value = mock_response
mock_response.json.return_value = {
'data': {
'name': 'Morty',
'extra': {
'version': 'Terran it up'
}
}
}
guid = model.OsfStorageGuidFile(node=self.project, path='/foo/bar')
guid.enrich()
assert_equals('Terran it up', guid.unique_identifier)
def test_node_addon_get_or_create(self):
guid, created = self.node_addon.find_or_create_file_guid('/baz/foo/bar')
assert_true(created)
assert_equal(guid.path, '/baz/foo/bar')
assert_equal(guid.path, guid.waterbutler_path)
assert_equal(guid.waterbutler_path, '/baz/foo/bar')
def test_node_addon_get_or_create_finds(self):
guid1, created1 = self.node_addon.find_or_create_file_guid('/foo/bar')
guid2, created2 = self.node_addon.find_or_create_file_guid('/foo/bar')
assert_true(created1)
assert_false(created2)
assert_equals(guid1, guid2)
class TestOsfstorageFileNode(StorageTestCase):
def test_root_node_exists(self):
assert_true(self.node_settings.root_node is not None)
def test_root_node_has_no_parent(self):
assert_true(self.node_settings.root_node.parent is None)
def test_node_reference(self):
assert_equal(self.project, self.node_settings.root_node.node)
def test_get_folder(self):
file = model.OsfStorageFileNode(name='MOAR PYLONS', kind='file', node_settings=self.node_settings)
folder = model.OsfStorageFileNode(name='MOAR PYLONS', kind='folder', node_settings=self.node_settings)
_id = folder._id
file.save()
folder.save()
assert_equal(folder, model.OsfStorageFileNode.get_folder(_id, self.node_settings))
def test_get_file(self):
file = model.OsfStorageFileNode(name='MOAR PYLONS', kind='file', node_settings=self.node_settings)
folder = model.OsfStorageFileNode(name='MOAR PYLONS', kind='folder', node_settings=self.node_settings)
file.save()
folder.save()
_id = file._id
assert_equal(file, model.OsfStorageFileNode.get_file(_id, self.node_settings))
def test_get_child_by_name(self):
child = self.node_settings.root_node.append_file('Test')
assert_equal(child, self.node_settings.root_node.find_child_by_name('Test'))
def test_root_node_path(self):
assert_equal(self.node_settings.root_node.name, '')
def test_folder_path(self):
path = '/{}/'.format(self.node_settings.root_node._id)
assert_equal(self.node_settings.root_node.path, path)
def test_file_path(self):
file = model.OsfStorageFileNode(name='MOAR PYLONS', kind='file', node_settings=self.node_settings)
assert_equal(file.name, 'MOAR PYLONS')
assert_equal(file.path, '/{}'.format(file._id))
def test_append_folder(self):
child = self.node_settings.root_node.append_folder('Test')
children = self.node_settings.root_node.children
assert_equal(child.kind, 'folder')
assert_equal([child], list(children))
def test_append_file(self):
child = self.node_settings.root_node.append_file('Test')
children = self.node_settings.root_node.children
assert_equal(child.kind, 'file')
assert_equal([child], list(children))
def test_append_to_file(self):
child = self.node_settings.root_node.append_file('Test')
with assert_raises(ValueError):
child.append_file('Cant')
def test_children(self):
assert_equals([
self.node_settings.root_node.append_file('Foo{}Bar'.format(x))
for x in xrange(100)
], list(self.node_settings.root_node.children))
def test_download_count_file_defaults(self):
child = self.node_settings.root_node.append_file('Test')
assert_equals(child.get_download_count(), 0)
@mock.patch('framework.analytics.session')
def test_download_count_file(self, mock_session):
mock_session.data = {}
child = self.node_settings.root_node.append_file('Test')
utils.update_analytics(self.project, child._id, 0)
utils.update_analytics(self.project, child._id, 1)
utils.update_analytics(self.project, child._id, 2)
assert_equals(child.get_download_count(), 3)
assert_equals(child.get_download_count(0), 1)
assert_equals(child.get_download_count(1), 1)
assert_equals(child.get_download_count(2), 1)
def test_download_count_folder(self):
assert_is(
None,
self.node_settings.root_node.get_download_count()
)
@unittest.skip
def test_create_version(self):
pass
@unittest.skip
def test_update_version_metadata(self):
pass
def test_delete_folder(self):
parent = self.node_settings.root_node.append_folder('Test')
kids = []
for x in range(10):
kid = parent.append_file(str(x))
kid.save()
kids.append(kid)
count = model.OsfStorageFileNode.find().count()
tcount = model.OsfStorageTrashedFileNode.find().count()
parent.delete()
assert_is(model.OsfStorageFileNode.load(parent._id), None)
assert_equals(count - 11, model.OsfStorageFileNode.find().count())
assert_equals(tcount + 11, model.OsfStorageTrashedFileNode.find().count())
for kid in kids:
assert_is(
model.OsfStorageFileNode.load(kid._id),
None
)
def test_delete_file(self):
child = self.node_settings.root_node.append_file('Test')
child.delete()
# assert_true(child.is_deleted)
assert_is(model.OsfStorageFileNode.load(child._id), None)
trashed = model.OsfStorageTrashedFileNode.load(child._id)
child_storage = child.to_storage()
del child_storage['is_deleted']
assert_equal(trashed.to_storage(), child_storage)
def test_materialized_path(self):
child = self.node_settings.root_node.append_file('Test')
assert_equals('/Test', child.materialized_path())
def test_materialized_path_folder(self):
child = self.node_settings.root_node.append_folder('Test')
assert_equals('/Test/', child.materialized_path())
def test_materialized_path_nested(self):
child = self.node_settings.root_node.append_folder('Cloud').append_file('Carp')
assert_equals('/Cloud/Carp', child.materialized_path())
def test_copy(self):
to_copy = self.node_settings.root_node.append_file('Carp')
copy_to = self.node_settings.root_node.append_folder('Cloud')
copied = to_copy.copy_under(copy_to)
assert_not_equal(copied, to_copy)
assert_equal(copied.parent, copy_to)
assert_equal(to_copy.parent, self.node_settings.root_node)
def test_copy_rename(self):
to_copy = self.node_settings.root_node.append_file('Carp')
copy_to = self.node_settings.root_node.append_folder('Cloud')
copied = to_copy.copy_under(copy_to, name='But')
assert_equal(copied.name, 'But')
assert_not_equal(copied, to_copy)
assert_equal(to_copy.name, 'Carp')
assert_equal(copied.parent, copy_to)
assert_equal(to_copy.parent, self.node_settings.root_node)
def test_move(self):
to_move = self.node_settings.root_node.append_file('Carp')
move_to = self.node_settings.root_node.append_folder('Cloud')
moved = to_move.move_under(move_to)
assert_equal(to_move, moved)
assert_equal(moved.parent, move_to)
def test_move_and_rename(self):
to_move = self.node_settings.root_node.append_file('Carp')
move_to = self.node_settings.root_node.append_folder('Cloud')
moved = to_move.move_under(move_to, name='Tuna')
assert_equal(to_move, moved)
assert_equal(to_move.name, 'Tuna')
assert_equal(moved.parent, move_to)
@unittest.skip
def test_move_folder(self):
pass
@unittest.skip
def test_move_folder_and_rename(self):
pass
@unittest.skip
def test_rename_folder(self):
pass
@unittest.skip
def test_rename_file(self):
pass
@unittest.skip
def test_move_across_nodes(self):
pass
@unittest.skip
def test_move_folder_across_nodes(self):
pass
@unittest.skip
def test_copy_across_nodes(self):
pass
@unittest.skip
def test_copy_folder_across_nodes(self):
pass
class TestNodeSettingsModel(StorageTestCase):
def test_fields(self):
assert_true(self.node_settings._id)
assert_is(self.node_settings.has_auth, True)
assert_is(self.node_settings.complete, True)
def test_after_fork_copies_versions(self):
num_versions = 5
path = 'jazz/dreamers-ball.mp3'
record = self.node_settings.root_node.append_file(path)
for _ in range(num_versions):
version = factories.FileVersionFactory()
record.versions.append(version)
record.save()
fork = self.project.fork_node(self.auth_obj)
fork_node_settings = fork.get_addon('osfstorage')
fork_node_settings.reload()
cloned_record = fork_node_settings.root_node.find_child_by_name(path)
assert_equal(cloned_record.versions, record.versions)
assert_true(fork_node_settings.root_node)
def test_after_register_copies_versions(self):
num_versions = 5
path = 'jazz/dreamers-ball.mp3'
record = self.node_settings.root_node.append_file(path)
for _ in range(num_versions):
version = factories.FileVersionFactory()
record.versions.append(version)
record.save()
registration = self.project.register_node(
None,
self.auth_obj,
'',
{},
)
assert_true(registration.has_addon('osfstorage'))
registration_node_settings = registration.get_addon('osfstorage')
registration_node_settings.reload()
cloned_record = registration_node_settings.root_node.find_child_by_name(path)
assert_equal(cloned_record.versions, record.versions)
assert_equal(cloned_record.versions, record.versions)
assert_true(registration_node_settings.root_node)
class TestOsfStorageFileVersion(OsfTestCase):
def setUp(self):
super(TestOsfStorageFileVersion, self).setUp()
self.user = factories.AuthUserFactory()
self.mock_date = datetime.datetime(1991, 10, 31)
def test_fields(self):
version = factories.FileVersionFactory(
size=1024,
content_type='application/json',
date_modified=datetime.datetime.now(),
)
retrieved = model.OsfStorageFileVersion.load(version._id)
assert_true(retrieved.creator)
assert_true(retrieved.location)
assert_true(retrieved.size)
assert_true(retrieved.content_type)
assert_true(retrieved.date_modified)
def test_is_duplicate_true(self):
version1 = factories.FileVersionFactory()
version2 = factories.FileVersionFactory()
assert_true(version1.is_duplicate(version2))
assert_true(version2.is_duplicate(version1))
def test_is_duplicate_false(self):
version1 = factories.FileVersionFactory(
location={
'service': 'cloud',
settings.WATERBUTLER_RESOURCE: 'osf',
'object': 'd077f2',
},
)
version2 = factories.FileVersionFactory(
location={
'service': 'cloud',
settings.WATERBUTLER_RESOURCE: 'osf',
'object': '06d80e',
},
)
assert_false(version1.is_duplicate(version2))
assert_false(version2.is_duplicate(version1))
def test_validate_location(self):
version = factories.FileVersionFactory.build(location={})
with assert_raises(modm_errors.ValidationValueError):
version.save()
version.location = {
'service': 'cloud',
settings.WATERBUTLER_RESOURCE: 'osf',
'object': 'object',
}
version.save()
def test_update_metadata(self):
version = factories.FileVersionFactory()
version.update_metadata({'archive': 'glacier', 'size': 123, 'modified': 'Mon, 16 Feb 2015 18:45:34 GMT'})
version.reload()
assert_in('archive', version.metadata)
assert_equal(version.metadata['archive'], 'glacier')
| apache-2.0 |
TeachAtTUM/edx-platform | common/djangoapps/third_party_auth/tests/test_admin.py | 5 | 3696 | """
Tests third_party_auth admin views
"""
import unittest
from django.contrib.admin.sites import AdminSite
from django.core.files.uploadedfile import SimpleUploadedFile
from django.core.urlresolvers import reverse
from django.forms import models
from student.tests.factories import UserFactory
from third_party_auth.admin import OAuth2ProviderConfigAdmin
from third_party_auth.models import OAuth2ProviderConfig
from third_party_auth.tests import testutil
# This is necessary because cms does not implement third party auth
@unittest.skipUnless(testutil.AUTH_FEATURE_ENABLED, testutil.AUTH_FEATURES_KEY + ' not enabled')
class Oauth2ProviderConfigAdminTest(testutil.TestCase):
"""
Tests for oauth2 provider config admin
"""
def test_oauth2_provider_edit_icon_image(self):
"""
Test that we can update an OAuth provider's icon image from the admin
form.
OAuth providers are updated using KeyedConfigurationModelAdmin, which
updates models by adding a new instance that replaces the old one,
instead of editing the old instance directly.
Updating the icon image is tricky here because
KeyedConfigurationModelAdmin copies data over from the previous
version by injecting its attributes into request.GET, but the icon
ends up in request.FILES. We need to ensure that the value is
prepopulated correctly, and that we can clear and update the image.
"""
# Login as a super user
user = UserFactory.create(is_staff=True, is_superuser=True)
user.save()
self.client.login(username=user.username, password='test')
# Get baseline provider count
providers = OAuth2ProviderConfig.objects.all()
pcount = len(providers)
# Create a provider
provider1 = self.configure_dummy_provider(
enabled=True,
icon_class='',
icon_image=SimpleUploadedFile('icon.svg', '<svg><rect width="50" height="100"/></svg>'),
)
# Get the provider instance with active flag
providers = OAuth2ProviderConfig.objects.all()
self.assertEquals(len(providers), 1)
self.assertEquals(providers[pcount].id, provider1.id)
# Edit the provider via the admin edit link
admin = OAuth2ProviderConfigAdmin(provider1, AdminSite())
# pylint: disable=protected-access
update_url = reverse('admin:{}_{}_add'.format(admin.model._meta.app_label, admin.model._meta.model_name))
update_url += "?source={}".format(provider1.pk)
# Remove the icon_image from the POST data, to simulate unchanged icon_image
post_data = models.model_to_dict(provider1)
del post_data['icon_image']
# Remove max_session_length; it has a default null value which must be POSTed
# back as an absent value, rather than as a "null-like" included value.
del post_data['max_session_length']
# Change the name, to verify POST
post_data['name'] = 'Another name'
# Post the edit form: expecting redirect
response = self.client.post(update_url, post_data)
self.assertEquals(response.status_code, 302)
# Editing the existing provider creates a new provider instance
providers = OAuth2ProviderConfig.objects.all()
self.assertEquals(len(providers), pcount + 2)
self.assertEquals(providers[pcount].id, provider1.id)
provider2 = providers[pcount + 1]
# Ensure the icon_image was preserved on the new provider instance
self.assertEquals(provider2.icon_image, provider1.icon_image)
self.assertEquals(provider2.name, post_data['name'])
| agpl-3.0 |
pkoutsias/SickRage | lib/subliminal/api.py | 3 | 19115 | # -*- coding: utf-8 -*-
from collections import defaultdict
import io
import logging
import operator
import os.path
from pkg_resources import EntryPoint
import socket
from babelfish import Language
import requests
from stevedore import ExtensionManager
from .subtitle import compute_score, get_subtitle_path
logger = logging.getLogger(__name__)
class ProviderManager(ExtensionManager):
"""Manager for providers based on :class:`~stevedore.extension.ExtensionManager`.
It allows loading of internal providers without setup and registering/unregistering additional providers.
Loading is done in this order:
* Entry point providers
* Internal providers
* Registered providers
"""
internal_providers = [
'addic7ed = subliminal.providers.addic7ed:Addic7edProvider',
'opensubtitles = subliminal.providers.opensubtitles:OpenSubtitlesProvider',
'podnapisi = subliminal.providers.podnapisi:PodnapisiProvider',
'subscenter = subliminal.providers.subscenter:SubsCenterProvider',
'thesubdb = subliminal.providers.thesubdb:TheSubDBProvider',
'tvsubtitles = subliminal.providers.tvsubtitles:TVsubtitlesProvider'
]
def __init__(self):
#: Registered providers with entry point syntax
self.registered_providers = []
super(ProviderManager, self).__init__('subliminal.providers')
def _find_entry_points(self, namespace):
# default entry points
eps = super(ProviderManager, self)._find_entry_points(namespace)
# internal entry points
for iep in self.internal_providers:
ep = EntryPoint.parse(iep)
if ep.name not in [e.name for e in eps]:
eps.append(ep)
# registered entry points
for rep in self.registered_providers:
ep = EntryPoint.parse(rep)
if ep.name not in [e.name for e in eps]:
eps.append(ep)
return eps
def register(self, entry_point):
"""Register a provider
:param str entry_point: provider to register (entry point syntax)
:raise: ValueError if already registered
"""
if entry_point in self.registered_providers:
raise ValueError('Entry point already registered')
ep = EntryPoint.parse(entry_point)
if ep.name in self.names():
raise ValueError('A provider with the same name already exist')
ext = self._load_one_plugin(ep, False, (), {}, False)
self.extensions.append(ext)
if self._extensions_by_name is not None:
self._extensions_by_name[ext.name] = ext
self.registered_providers.insert(0, entry_point)
def unregister(self, entry_point):
"""Unregister a provider
:param str entry_point: provider to unregister (entry point syntax)
"""
if entry_point not in self.registered_providers:
raise ValueError('Entry point not registered')
ep = EntryPoint.parse(entry_point)
self.registered_providers.remove(entry_point)
if self._extensions_by_name is not None:
del self._extensions_by_name[ep.name]
for i, ext in enumerate(self.extensions):
if ext.name == ep.name:
del self.extensions[i]
break
provider_manager = ProviderManager()
class ProviderPool(object):
"""A pool of providers with the same API as a single :class:`~subliminal.providers.Provider`.
It has a few extra features:
* Lazy loads providers when needed and supports the :keyword:`with` statement to :meth:`terminate`
the providers on exit.
* Automatically discard providers on failure.
:param list providers: name of providers to use, if not all.
:param dict provider_configs: provider configuration as keyword arguments per provider name to pass when
instanciating the :class:`~subliminal.providers.Provider`.
"""
def __init__(self, providers=None, provider_configs=None):
#: Name of providers to use
self.providers = providers or provider_manager.names()
#: Provider configuration
self.provider_configs = provider_configs or {}
#: Initialized providers
self.initialized_providers = {}
#: Discarded providers
self.discarded_providers = set()
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.terminate()
def __getitem__(self, name):
if name not in self.providers:
raise KeyError
if name not in self.initialized_providers:
logger.info('Initializing provider %s', name)
provider = provider_manager[name].plugin(**self.provider_configs.get(name, {}))
provider.initialize()
self.initialized_providers[name] = provider
return self.initialized_providers[name]
def __delitem__(self, name):
if name not in self.initialized_providers:
raise KeyError(name)
try:
logger.info('Terminating provider %s', name)
self.initialized_providers[name].terminate()
except (requests.Timeout, socket.timeout):
logger.error('Provider %r timed out, improperly terminated', name)
except:
logger.exception('Provider %r terminated unexpectedly', name)
del self.initialized_providers[name]
def __iter__(self):
return iter(self.initialized_providers)
def list_subtitles(self, video, languages):
"""List subtitles.
:param video: video to list subtitles for.
:type video: :class:`~subliminal.video.Video`
:param languages: languages to search for.
:type languages: set of :class:`~babelfish.language.Language`
:return: found subtitles.
:rtype: list of :class:`~subliminal.subtitle.Subtitle`
"""
subtitles = []
for name in self.providers:
# check discarded providers
if name in self.discarded_providers:
logger.debug('Skipping discarded provider %r', name)
continue
# check video validity
if not provider_manager[name].plugin.check(video):
logger.info('Skipping provider %r: not a valid video', name)
continue
# check supported languages
provider_languages = provider_manager[name].plugin.languages & languages
if not provider_languages:
logger.info('Skipping provider %r: no language to search for', name)
continue
# list subtitles
logger.info('Listing subtitles with provider %r and languages %r', name, provider_languages)
try:
provider_subtitles = self[name].list_subtitles(video, provider_languages)
except (requests.Timeout, socket.timeout):
logger.error('Provider %r timed out, discarding it', name)
self.discarded_providers.add(name)
continue
except:
logger.exception('Unexpected error in provider %r, discarding it', name)
self.discarded_providers.add(name)
continue
subtitles.extend(provider_subtitles)
return subtitles
def download_subtitle(self, subtitle):
"""Download `subtitle`'s :attr:`~subliminal.subtitle.Subtitle.content`.
:param subtitle: subtitle to download.
:type subtitle: :class:`~subliminal.subtitle.Subtitle`
:return: `True` if the subtitle has been successfully downloaded, `False` otherwise.
:rtype: bool
"""
# check discarded providers
if subtitle.provider_name in self.discarded_providers:
logger.warning('Provider %r is discarded', subtitle.provider_name)
return False
logger.info('Downloading subtitle %r', subtitle)
try:
self[subtitle.provider_name].download_subtitle(subtitle)
except (requests.Timeout, socket.timeout):
logger.error('Provider %r timed out, discarding it', subtitle.provider_name)
self.discarded_providers.add(subtitle.provider_name)
return False
except:
logger.exception('Unexpected error in provider %r, discarding it', subtitle.provider_name)
self.discarded_providers.add(subtitle.provider_name)
return False
# check subtitle validity
if not subtitle.is_valid():
logger.error('Invalid subtitle')
return False
return True
def download_best_subtitles(self, subtitles, video, languages, min_score=0, hearing_impaired=False, only_one=False,
scores=None):
"""Download the best matching subtitles.
:param subtitles: the subtitles to use.
:type subtitles: list of :class:`~subliminal.subtitle.Subtitle`
:param video: video to download subtitles for.
:type video: :class:`~subliminal.video.Video`
:param languages: languages to download.
:type languages: set of :class:`~babelfish.language.Language`
:param int min_score: minimum score for a subtitle to be downloaded.
:param bool hearing_impaired: hearing impaired preference.
:param bool only_one: download only one subtitle, not one per language.
:param dict scores: scores to use, if `None`, the :attr:`~subliminal.video.Video.scores` from the video are
used.
:return: downloaded subtitles.
:rtype: list of :class:`~subliminal.subtitle.Subtitle`
"""
# sort subtitles by score
scored_subtitles = sorted([(s, compute_score(s.get_matches(video, hearing_impaired=hearing_impaired), video,
scores=scores))
for s in subtitles], key=operator.itemgetter(1), reverse=True)
# download best subtitles, falling back on the next on error
downloaded_subtitles = []
for subtitle, score in scored_subtitles:
# check score
if score < min_score:
logger.info('Score %d is below min_score (%d)', score, min_score)
break
# check downloaded languages
if subtitle.language in set(s.language for s in downloaded_subtitles):
logger.debug('Skipping subtitle: %r already downloaded', subtitle.language)
continue
# download
logger.info('Downloading subtitle %r with score %d', subtitle, score)
if self.download_subtitle(subtitle):
downloaded_subtitles.append(subtitle)
# stop when all languages are downloaded
if set(s.language for s in downloaded_subtitles) == languages:
logger.debug('All languages downloaded')
break
# stop if only one subtitle is requested
if only_one:
logger.debug('Only one subtitle downloaded')
break
return downloaded_subtitles
def terminate(self):
"""Terminate all the :attr:`initialized_providers`."""
logger.debug('Terminating initialized providers')
for name in list(self.initialized_providers):
del self[name]
def check_video(video, languages=None, age=None, undefined=False):
"""Perform some checks on the `video`.
All the checks are optional. Return `False` if any of this check fails:
* `languages` already exist in `video`'s :attr:`~subliminal.video.Video.subtitle_languages`.
* `video` is older than `age`.
* `video` has an `undefined` language in :attr:`~subliminal.video.Video.subtitle_languages`.
:param video: video to check.
:type video: :class:`~subliminal.video.Video`
:param languages: desired languages.
:type languages: set of :class:`~babelfish.language.Language`
:param datetime.timedelta age: maximum age of the video.
:param bool undefined: fail on existing undefined language.
:return: `True` if the video passes the checks, `False` otherwise.
:rtype: bool
"""
# language test
if languages and not (languages - video.subtitle_languages):
logger.debug('All languages %r exist', languages)
return False
# age test
if age and video.age > age:
logger.debug('Video is older than %r', age)
return False
# undefined test
if undefined and Language('und') in video.subtitle_languages:
logger.debug('Undefined language found')
return False
return True
def list_subtitles(videos, languages, **kwargs):
"""List subtitles.
The `videos` must pass the `languages` check of :func:`check_video`.
All other parameters are passed onwards to the :class:`ProviderPool` constructor.
:param videos: videos to list subtitles for.
:type videos: set of :class:`~subliminal.video.Video`
:param languages: languages to search for.
:type languages: set of :class:`~babelfish.language.Language`
:return: found subtitles per video.
:rtype: dict of :class:`~subliminal.video.Video` to list of :class:`~subliminal.subtitle.Subtitle`
"""
listed_subtitles = defaultdict(list)
# check videos
checked_videos = []
for video in videos:
if not check_video(video, languages=languages):
logger.info('Skipping video %r', video)
continue
checked_videos.append(video)
# return immediatly if no video passed the checks
if not checked_videos:
return listed_subtitles
# list subtitles
with ProviderPool(**kwargs) as pool:
for video in checked_videos:
logger.info('Listing subtitles for %r', video)
subtitles = pool.list_subtitles(video, languages - video.subtitle_languages)
listed_subtitles[video].extend(subtitles)
logger.info('Found %d subtitle(s)', len(subtitles))
return listed_subtitles
def download_subtitles(subtitles, **kwargs):
"""Download :attr:`~subliminal.subtitle.Subtitle.content` of `subtitles`.
All other parameters are passed onwards to the :class:`ProviderPool` constructor.
:param subtitles: subtitles to download.
:type subtitles: list of :class:`~subliminal.subtitle.Subtitle`
"""
with ProviderPool(**kwargs) as pool:
for subtitle in subtitles:
logger.info('Downloading subtitle %r', subtitle)
pool.download_subtitle(subtitle)
def download_best_subtitles(videos, languages, min_score=0, hearing_impaired=False, only_one=False, scores=None,
**kwargs):
"""List and download the best matching subtitles.
The `videos` must pass the `languages` and `undefined` (`only_one`) checks of :func:`check_video`.
All other parameters are passed onwards to the :class:`ProviderPool` constructor.
:param videos: videos to download subtitles for.
:type videos: set of :class:`~subliminal.video.Video`
:param languages: languages to download.
:type languages: set of :class:`~babelfish.language.Language`
:param int min_score: minimum score for a subtitle to be downloaded.
:param bool hearing_impaired: hearing impaired preference.
:param bool only_one: download only one subtitle, not one per language.
:param dict scores: scores to use, if `None`, the :attr:`~subliminal.video.Video.scores` from the video are used.
:return: downloaded subtitles per video.
:rtype: dict of :class:`~subliminal.video.Video` to list of :class:`~subliminal.subtitle.Subtitle`
"""
downloaded_subtitles = defaultdict(list)
# check videos
checked_videos = []
for video in videos:
if not check_video(video, languages=languages, undefined=only_one):
logger.info('Skipping video %r', video)
continue
checked_videos.append(video)
# return immediatly if no video passed the checks
if not checked_videos:
return downloaded_subtitles
# download best subtitles
with ProviderPool(**kwargs) as pool:
for video in checked_videos:
logger.info('Downloading best subtitles for %r', video)
subtitles = pool.download_best_subtitles(pool.list_subtitles(video, languages - video.subtitle_languages),
video, languages, min_score=min_score,
hearing_impaired=hearing_impaired, only_one=only_one,
scores=scores)
logger.info('Downloaded %d subtitle(s)', len(subtitles))
downloaded_subtitles[video].extend(subtitles)
return downloaded_subtitles
def save_subtitles(video, subtitles, single=False, directory=None, encoding=None):
"""Save subtitles on filesystem.
Subtitles are saved in the order of the list. If a subtitle with a language has already been saved, other subtitles
with the same language are silently ignored.
The extension used is `.lang.srt` by default or `.srt` is `single` is `True`, with `lang` being the IETF code for
the :attr:`~subliminal.subtitle.Subtitle.language` of the subtitle.
:param video: video of the subtitles.
:type video: :class:`~subliminal.video.Video`
:param subtitles: subtitles to save.
:type subtitles: list of :class:`~subliminal.subtitle.Subtitle`
:param bool single: save a single subtitle, default is to save one subtitle per language.
:param str directory: path to directory where to save the subtitles, default is next to the video.
:param str encoding: encoding in which to save the subtitles, default is to keep original encoding.
:return: the saved subtitles
:rtype: list of :class:`~subliminal.subtitle.Subtitle`
"""
saved_subtitles = []
for subtitle in subtitles:
# check content
if subtitle.content is None:
logger.error('Skipping subtitle %r: no content', subtitle)
continue
# check language
if subtitle.language in set(s.language for s in saved_subtitles):
logger.debug('Skipping subtitle %r: language already saved', subtitle)
continue
# create subtitle path
subtitle_path = get_subtitle_path(video.name, None if single else subtitle.language)
if directory is not None:
subtitle_path = os.path.join(directory, os.path.split(subtitle_path)[1])
# save content as is or in the specified encoding
logger.info('Saving %r to %r', subtitle, subtitle_path)
if encoding is None:
with io.open(subtitle_path, 'wb') as f:
f.write(subtitle.content)
else:
with io.open(subtitle_path, 'w', encoding=encoding) as f:
f.write(subtitle.text)
saved_subtitles.append(subtitle)
# check single
if single:
break
return saved_subtitles
| gpl-3.0 |
spacediver/behave | behave/reporter/junit.py | 8 | 12420 | # -*- coding: utf-8 -*-
from __future__ import absolute_import
import os.path
import codecs
import sys
from xml.etree import ElementTree
from behave.reporter.base import Reporter
from behave.model import Scenario, ScenarioOutline, Step
from behave.formatter import ansi_escapes
from behave.model_describe import ModelDescriptor
from behave.textutil import indent, make_indentation, text as _text
import six
def CDATA(text=None):
# -- issue #70: remove_ansi_escapes(text)
element = ElementTree.Element('![CDATA[')
element.text = ansi_escapes.strip_escapes(text)
return element
class ElementTreeWithCDATA(ElementTree.ElementTree):
def _write(self, file, node, encoding, namespaces):
"""This method is for ElementTree <= 1.2.6"""
if node.tag == '![CDATA[':
text = node.text.encode(encoding)
file.write("\n<![CDATA[%s]]>\n" % text)
else:
ElementTree.ElementTree._write(self, file, node, encoding,
namespaces)
if hasattr(ElementTree, '_serialize'):
def _serialize_xml2(write, elem, encoding, qnames, namespaces,
orig=ElementTree._serialize_xml):
if elem.tag == '![CDATA[':
write("\n<%s%s]]>\n" % (elem.tag, elem.text.encode(encoding, "xmlcharrefreplace")))
return
return orig(write, elem, encoding, qnames, namespaces)
def _serialize_xml3(write, elem, qnames, namespaces,
short_empty_elements=None,
orig=ElementTree._serialize_xml):
if elem.tag == '![CDATA[':
write("\n<{tag}{text}]]>\n".format(
tag=elem.tag, text=elem.text))
return
if short_empty_elements:
# python >=3.3
return orig(write, elem, qnames, namespaces, short_empty_elements)
else:
# python <3.3
return orig(write, elem, qnames, namespaces)
if sys.version_info.major == 3:
ElementTree._serialize_xml = \
ElementTree._serialize['xml'] = _serialize_xml3
elif sys.version_info.major == 2:
ElementTree._serialize_xml = \
ElementTree._serialize['xml'] = _serialize_xml2
class FeatureReportData(object):
"""
Provides value object to collect JUnit report data from a Feature.
"""
def __init__(self, feature, filename, classname=None):
if not classname and filename:
classname = filename.replace('/', '.')
self.feature = feature
self.filename = filename
self.classname = classname
self.testcases = []
self.counts_tests = 0
self.counts_errors = 0
self.counts_failed = 0
self.counts_skipped = 0
def reset(self):
self.testcases = []
self.counts_tests = 0
self.counts_errors = 0
self.counts_failed = 0
self.counts_skipped = 0
class JUnitReporter(Reporter):
"""
Generates JUnit-like XML test report for behave.
"""
show_multiline = True
show_timings = True # -- Show step timings.
show_tags = True
def make_feature_filename(self, feature):
filename = None
for path in self.config.paths:
if feature.filename.startswith(path):
filename = feature.filename[len(path) + 1:]
break
if not filename:
# -- NOTE: Directory path (subdirs) are taken into account.
filename = feature.location.relpath(self.config.base_dir)
filename = filename.rsplit('.', 1)[0]
filename = filename.replace('\\', '/').replace('/', '.')
return _text(filename)
# -- REPORTER-API:
def feature(self, feature):
feature_filename = self.make_feature_filename(feature)
classname = feature_filename
report = FeatureReportData(feature, feature_filename)
suite = ElementTree.Element(u'testsuite')
feature_name = feature.name or feature_filename
suite.set(u'name', u'%s.%s' % (classname, feature_name))
# -- BUILD-TESTCASES: From scenarios
for scenario in feature:
if isinstance(scenario, ScenarioOutline):
scenario_outline = scenario
self._process_scenario_outline(scenario_outline, report)
else:
self._process_scenario(scenario, report)
# -- ADD TESTCASES to testsuite:
for testcase in report.testcases:
suite.append(testcase)
suite.set(u'tests', _text(report.counts_tests))
suite.set(u'errors', _text(report.counts_errors))
suite.set(u'failures', _text(report.counts_failed))
suite.set(u'skipped', _text(report.counts_skipped)) # WAS: skips
suite.set(u'time', _text(round(feature.duration, 6)))
if not os.path.exists(self.config.junit_directory):
# -- ENSURE: Create multiple directory levels at once.
os.makedirs(self.config.junit_directory)
tree = ElementTreeWithCDATA(suite)
report_dirname = self.config.junit_directory
report_basename = u'TESTS-%s.xml' % feature_filename
report_filename = os.path.join(report_dirname, report_basename)
tree.write(codecs.open(report_filename, "wb"), "UTF-8")
# -- MORE:
@staticmethod
def select_step_with_status(status, steps):
"""
Helper function to find the first step that has the given step.status.
EXAMPLE: Search for a failing step in a scenario (all steps).
>>> scenario = ...
>>> failed_step = select_step_with_status("failed", scenario)
>>> failed_step = select_step_with_status("failed", scenario.all_steps)
>>> assert failed_step.status == "failed"
EXAMPLE: Search only scenario steps, skip background steps.
>>> failed_step = select_step_with_status("failed", scenario.steps)
:param status: Step status to search for (as string).
:param steps: List of steps to search in (or scenario).
:returns: Step object, if found.
:returns: None, otherwise.
"""
for step in steps:
assert isinstance(step, Step), \
"TYPE-MISMATCH: step.class=%s" % step.__class__.__name__
if step.status == status:
return step
# -- OTHERWISE: No step with the given status found.
# KeyError("Step with status={0} not found".format(status))
return None
@classmethod
def describe_step(cls, step):
status = _text(step.status)
if cls.show_timings:
status += u" in %0.3fs" % step.duration
text = u'%s %s ... ' % (step.keyword, step.name)
text += u'%s\n' % status
if cls.show_multiline:
prefix = make_indentation(2)
if step.text:
text += ModelDescriptor.describe_docstring(step.text, prefix)
elif step.table:
text += ModelDescriptor.describe_table(step.table, prefix)
return text
@classmethod
def describe_tags(cls, tags):
text = u''
if tags:
text = u'@'+ u' @'.join(tags)
return text
@classmethod
def describe_scenario(cls, scenario):
"""
Describe the scenario and the test status.
NOTE: table, multiline text is missing in description.
:param scenario: Scenario that was tested.
:return: Textual description of the scenario.
"""
header_line = u'\n@scenario.begin\n'
if cls.show_tags and scenario.tags:
header_line += u'\n %s\n' % cls.describe_tags(scenario.tags)
header_line += u' %s: %s\n' % (scenario.keyword, scenario.name)
footer_line = u'\n@scenario.end\n' + u'-' * 80 + '\n'
text = u''
for step in scenario:
text += cls.describe_step(step)
step_indentation = make_indentation(4)
return header_line + indent(text, step_indentation) + footer_line
def _process_scenario(self, scenario, report):
"""
Process a scenario and append information to JUnit report object.
This corresponds to a JUnit testcase:
* testcase.@classname = f(filename) +'.'+ feature.name
* testcase.@name = scenario.name
* testcase.@status = scenario.status
* testcase.@time = scenario.duration
Distinguishes now between failures and errors.
Failures are AssertationErrors: expectation is violated/not met.
Errors are unexpected RuntimeErrors (all other exceptions).
If a failure/error occurs, the step, that caused the failure,
and its location are provided now.
:param scenario: Scenario to process.
:param report: Context object to store/add info to (outgoing param).
"""
assert isinstance(scenario, Scenario)
assert not isinstance(scenario, ScenarioOutline)
report.counts_tests += 1
classname = report.classname
feature = report.feature
feature_name = feature.name
if not feature_name:
feature_name = self.make_feature_filename(feature)
case = ElementTree.Element('testcase')
case.set(u'classname', u'%s.%s' % (classname, feature_name))
case.set(u'name', scenario.name or '')
case.set(u'status', scenario.status)
case.set(u'time', _text(round(scenario.duration, 6)))
step = None
if scenario.status == 'failed':
for status in ('failed', 'undefined'):
step = self.select_step_with_status(status, scenario)
if step:
break
assert step, "OOPS: No failed step found in scenario: %s" % scenario.name
assert step.status in ('failed', 'undefined')
element_name = 'failure'
if isinstance(step.exception, (AssertionError, type(None))):
# -- FAILURE: AssertionError
report.counts_failed += 1
else:
# -- UNEXPECTED RUNTIME-ERROR:
report.counts_errors += 1
element_name = 'error'
# -- COMMON-PART:
failure = ElementTree.Element(element_name)
step_text = self.describe_step(step).rstrip()
text = u"\nFailing step: %s\nLocation: %s\n" % (step_text, step.location)
message = _text(step.exception)
if len(message) > 80:
message = message[:80] + "..."
failure.set(u'type', step.exception.__class__.__name__)
failure.set(u'message', message)
text += _text(step.error_message)
failure.append(CDATA(text))
case.append(failure)
elif scenario.status in ('skipped', 'untested'):
report.counts_skipped += 1
step = self.select_step_with_status('undefined', scenario)
if step:
# -- UNDEFINED-STEP:
report.counts_failed += 1
failure = ElementTree.Element(u'failure')
failure.set(u'type', u'undefined')
failure.set(u'message', (u'Undefined Step: %s' % step.name))
case.append(failure)
else:
skip = ElementTree.Element(u'skipped')
case.append(skip)
# Create stdout section for each test case
stdout = ElementTree.Element(u'system-out')
text = self.describe_scenario(scenario)
# Append the captured standard output
if scenario.stdout:
output = _text(scenario.stdout)
text += u'\nCaptured stdout:\n%s\n' % output
stdout.append(CDATA(text))
case.append(stdout)
# Create stderr section for each test case
if scenario.stderr:
stderr = ElementTree.Element(u'system-err')
output = _text(scenario.stderr)
text = u'\nCaptured stderr:\n%s\n' % output
stderr.append(CDATA(text))
case.append(stderr)
report.testcases.append(case)
def _process_scenario_outline(self, scenario_outline, report):
assert isinstance(scenario_outline, ScenarioOutline)
for scenario in scenario_outline:
assert isinstance(scenario, Scenario)
self._process_scenario(scenario, report)
| bsd-2-clause |
nvoron23/scipy | scipy/weave/build_tools.py | 97 | 26432 | """ Tools for compiling C/C++ code to extension modules
The main function, build_extension(), takes the C/C++ file
along with some other options and builds a Python extension.
It uses distutils for most of the heavy lifting.
choose_compiler() is also useful (mainly on windows anyway)
for trying to determine whether MSVC++ or gcc is available.
MSVC doesn't handle templates as well, so some of the code emitted
by the python->C conversions need this info to choose what kind
of code to create.
The other main thing here is an alternative version of the MingW32
compiler class. The class makes it possible to build libraries with
gcc even if the original version of python was built using MSVC. It
does this by converting a pythonxx.lib file to a libpythonxx.a file.
Note that you need write access to the pythonxx/lib directory to do this.
"""
from __future__ import absolute_import, print_function
import sys
import os
import time
import tempfile
import commands
import subprocess
import warnings
from . import platform_info
# If linker is 'gcc', this will convert it to 'g++'
# necessary to make sure stdc++ is linked in cross-platform way.
import distutils.sysconfig
import distutils.dir_util
# some (most?) platforms will fail to link C++ correctly
# unless numpy.distutils is used.
from numpy.distutils.core import Extension
old_init_posix = distutils.sysconfig._init_posix
def _init_posix():
old_init_posix()
ld = distutils.sysconfig._config_vars['LDSHARED']
# distutils.sysconfig._config_vars['LDSHARED'] = ld.replace('gcc','g++')
# FreeBSD names gcc as cc, so the above find and replace doesn't work.
# So, assume first entry in ld is the name of the linker -- gcc or cc or
# whatever. This is a sane assumption, correct?
# If the linker is gcc, set it to g++
link_cmds = ld.split()
if gcc_exists(link_cmds[0]):
link_cmds[0] = 'g++'
ld = ' '.join(link_cmds)
if (sys.platform == 'darwin'):
# The Jaguar distributed python 2.2 has -arch i386 in the link line
# which doesn't seem right. It omits all kinds of warnings, so
# remove it.
ld = ld.replace('-arch i386','')
# The following line is a HACK to fix a problem with building the
# freetype shared library under Mac OS X:
ld += ' -framework AppKit'
# 2.3a1 on OS X emits a ton of warnings about long double. OPT
# appears to not have all the needed flags set while CFLAGS does.
cfg_vars = distutils.sysconfig._config_vars
cfg_vars['OPT'] = cfg_vars['CFLAGS']
distutils.sysconfig._config_vars['LDSHARED'] = ld
distutils.sysconfig._init_posix = _init_posix
# end force g++
class CompileError(Exception):
pass
def create_extension(module_path, **kw):
""" Create an Extension that can be buil by setup.py
See build_extension for information on keyword arguments.
"""
# this is a screwy trick to get rid of a ton of warnings on Unix
distutils.sysconfig.get_config_vars()
if 'OPT' in distutils.sysconfig._config_vars:
flags = distutils.sysconfig._config_vars['OPT']
flags = flags.replace('-Wall','')
distutils.sysconfig._config_vars['OPT'] = flags
# get the name of the module and the extension directory it lives in.
module_dir,cpp_name = os.path.split(os.path.abspath(module_path))
module_name,ext = os.path.splitext(cpp_name)
# the business end of the function
sources = kw.get('sources',[])
kw['sources'] = [module_path] + sources
#--------------------------------------------------------------------
# added access to environment variable that user can set to specify
# where python (and other) include files are located. This is
# very useful on systems where python is installed by the root, but
# the user has also installed numerous packages in their own
# location.
#--------------------------------------------------------------------
if 'PYTHONINCLUDE' in os.environ:
path_string = os.environ['PYTHONINCLUDE']
if sys.platform == "win32":
extra_include_dirs = path_string.split(';')
else:
extra_include_dirs = path_string.split(':')
include_dirs = kw.get('include_dirs',[])
kw['include_dirs'] = include_dirs + extra_include_dirs
# SunOS specific
# fix for issue with linking to libstdc++.a. see:
# http://mail.python.org/pipermail/python-dev/2001-March/013510.html
platform = sys.platform
version = sys.version.lower()
if platform[:5] == 'sunos' and 'gcc' in version:
extra_link_args = kw.get('extra_link_args',[])
kw['extra_link_args'] = ['-mimpure-text'] + extra_link_args
ext = Extension(module_name, **kw)
return ext
def build_extension(module_path,compiler_name='',build_dir=None,
temp_dir=None, verbose=0, **kw):
""" Build the file given by module_path into a Python extension module.
build_extensions uses distutils to build Python extension modules.
kw arguments not used are passed on to the distutils extension
module. Directory settings can handle absoulte settings, but don't
currently expand '~' or environment variables.
module_path -- the full path name to the c file to compile.
Something like: /full/path/name/module_name.c
The name of the c/c++ file should be the same as the
name of the module (i.e. the initmodule() routine)
compiler_name -- The name of the compiler to use. On Windows if it
isn't given, MSVC is used if it exists (is found).
gcc is used as a second choice. If neither are found,
the default distutils compiler is used. Acceptable
names are 'gcc', 'msvc' or any of the compiler names
shown by distutils.ccompiler.show_compilers()
build_dir -- The location where the resulting extension module
should be placed. This location must be writable. If
it isn't, several default locations are tried. If the
build_dir is not in the current python path, a warning
is emitted, and it is added to the end of the path.
build_dir defaults to the current directory.
temp_dir -- The location where temporary files (*.o or *.obj)
from the build are placed. This location must be
writable. If it isn't, several default locations are
tried. It defaults to tempfile.gettempdir()
verbose -- 0, 1, or 2. 0 is as quiet as possible. 1 prints
minimal information. 2 is noisy.
**kw -- keyword arguments. These are passed on to the
distutils extension module. Most of the keywords
are listed below.
Distutils keywords. These are cut and pasted from Greg Ward's
distutils.extension.Extension class for convenience:
sources : [string]
list of source filenames, relative to the distribution root
(where the setup script lives), in Unix form (slash-separated)
for portability. Source files may be C, C++, SWIG (.i),
platform-specific resource files, or whatever else is recognized
by the "build_ext" command as source for a Python extension.
Note: The module_path file is always appended to the front of this
list
include_dirs : [string]
list of directories to search for C/C++ header files (in Unix
form for portability)
define_macros : [(name : string, value : string|None)]
list of macros to define; each macro is defined using a 2-tuple,
where 'value' is either the string to define it to or None to
define it without a particular value (equivalent of "#define
FOO" in source or -DFOO on Unix C compiler command line)
undef_macros : [string]
list of macros to undefine explicitly
library_dirs : [string]
list of directories to search for C/C++ libraries at link time
libraries : [string]
list of library names (not filenames or paths) to link against
runtime_library_dirs : [string]
list of directories to search for C/C++ libraries at run time
(for shared extensions, this is when the extension is loaded)
extra_objects : [string]
list of extra files to link with (eg. object files not implied
by 'sources', static library that must be explicitly specified,
binary resource files, etc.)
extra_compile_args : [string]
any extra platform- and compiler-specific information to use
when compiling the source files in 'sources'. For platforms and
compilers where "command line" makes sense, this is typically a
list of command-line arguments, but for other platforms it could
be anything.
extra_link_args : [string]
any extra platform- and compiler-specific information to use
when linking object files together to create the extension (or
to create a new static Python interpreter). Similar
interpretation as for 'extra_compile_args'.
export_symbols : [string]
list of symbols to be exported from a shared extension. Not
used on all platforms, and not generally necessary for Python
extensions, which typically export exactly one symbol: "init" +
extension_name.
"""
success = 0
from numpy.distutils.core import setup
from numpy.distutils.log import set_verbosity
set_verbosity(-1)
# this is a screwy trick to get rid of a ton of warnings on Unix
import distutils.sysconfig
distutils.sysconfig.get_config_vars()
if 'OPT' in distutils.sysconfig._config_vars:
flags = distutils.sysconfig._config_vars['OPT']
flags = flags.replace('-Wall','')
distutils.sysconfig._config_vars['OPT'] = flags
# get the name of the module and the extension directory it lives in.
module_dir,cpp_name = os.path.split(os.path.abspath(module_path))
module_name,ext = os.path.splitext(cpp_name)
# configure temp and build directories
temp_dir = configure_temp_dir(temp_dir)
build_dir = configure_build_dir(build_dir or module_dir)
# dag. We keep having to add directories to the path to keep
# object files separated from each other. gcc2.x and gcc3.x C++
# object files are not compatible, so we'll stick them in a sub
# dir based on their version. This will add a SHA-256 check sum
# (truncated to 32 characters) of the compiler binary to the directory
# name to keep objects from different compilers in different locations.
compiler_dir = platform_info.get_compiler_dir(compiler_name)
temp_dir = os.path.join(temp_dir,compiler_dir)
distutils.dir_util.mkpath(temp_dir)
compiler_name = choose_compiler(compiler_name)
configure_sys_argv(compiler_name,temp_dir,build_dir)
# the business end of the function
try:
if verbose == 1:
print('Compiling code...')
# set compiler verboseness 2 or more makes it output results
if verbose > 1:
verb = 1
else:
verb = 0
t1 = time.time()
ext = create_extension(module_path,**kw)
# the switcheroo on SystemExit here is meant to keep command line
# sessions from exiting when compiles fail.
builtin = sys.modules['__builtin__']
old_SysExit = builtin.__dict__['SystemExit']
builtin.__dict__['SystemExit'] = CompileError
# change current working directory to 'build_dir' so compiler won't
# pick up anything by mistake
oldcwd = os.path.abspath(os.getcwd())
os.chdir(build_dir)
# distutils for MSVC messes with the environment, so we save the
# current state and restore them afterward.
import copy
environ = copy.deepcopy(os.environ)
try:
setup(name=module_name, ext_modules=[ext],verbose=verb)
finally:
# restore state
os.environ = environ
# restore SystemExit
builtin.__dict__['SystemExit'] = old_SysExit
# restore working directory to one before setup
os.chdir(oldcwd)
t2 = time.time()
if verbose == 1:
print('finished compiling (sec): ', t2 - t1)
success = 1
configure_python_path(build_dir)
except SyntaxError: # TypeError:
success = 0
# restore argv after our trick...
restore_sys_argv()
return success
old_argv = []
def configure_sys_argv(compiler_name,temp_dir,build_dir):
# We're gonna play some tricks with argv here to pass info to distutils
# which is really built for command line use. better way??
global old_argv
old_argv = sys.argv[:]
sys.argv = ['','build_ext','--build-lib', build_dir,
'--build-temp',temp_dir]
if compiler_name == 'gcc':
sys.argv.insert(2,'--compiler='+compiler_name)
elif compiler_name:
sys.argv.insert(2,'--compiler='+compiler_name)
def restore_sys_argv():
sys.argv = old_argv
def configure_python_path(build_dir):
# make sure the module lives in a directory on the python path.
python_paths = [os.path.abspath(x) for x in sys.path]
if os.path.abspath(build_dir) not in python_paths:
# print "warning: build directory was not part of python path."\
# " It has been appended to the path."
sys.path.append(os.path.abspath(build_dir))
def choose_compiler(compiler_name=''):
""" Try and figure out which compiler is gonna be used on windows.
On other platforms, it just returns whatever value it is given.
converts 'gcc' to 'mingw32' on win32
"""
if sys.platform == 'win32':
if not compiler_name:
# On Windows, default to MSVC and use gcc if it wasn't found
# wasn't found. If neither are found, go with whatever
# the default is for distutils -- and probably fail...
if msvc_exists():
compiler_name = 'msvc'
elif gcc_exists():
compiler_name = 'mingw32'
elif compiler_name == 'gcc':
compiler_name = 'mingw32'
else:
# don't know how to force gcc -- look into this.
if compiler_name == 'gcc':
compiler_name = 'unix'
return compiler_name
def gcc_exists(name='gcc'):
""" Test to make sure gcc is found."""
result = 0
cmd = [str(name), '-v']
try:
if sys.platform == 'win32':
p = subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
else:
p = subprocess.Popen(cmd, stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
str_result = p.stdout.read()
if 'specs' in str_result:
result = 1
except:
# This was needed because the msvc compiler messes with
# the path variable. and will occasionlly mess things up
# so much that gcc is lost in the path. (Occurs in test
# scripts)
result = not os.system(" ".join(cmd))
return result
def msvc_exists():
""" Determine whether MSVC is available on the machine.
"""
result = 0
try:
p = subprocess.Popen(['cl'], shell=True, stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
str_result = p.stdout.read()
# print str_result
if 'Microsoft' in str_result:
result = 1
except:
# assume we're ok if devstudio exists
import distutils.msvccompiler
try:
cc = distutils.msvccompiler.MSVCCompiler()
cc.initialize()
p = subprocess.Popen([cc.cc])
result = 1
except distutils.errors.DistutilsPlatformError:
pass
except WindowsError:
pass
return result
if os.name == 'nt':
def run_command(command):
""" not sure how to get exit status on nt. """
p = subprocess.Popen(['cl'], shell=True, stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
text = p.stdout.read()
return 0, text
else:
run_command = commands.getstatusoutput
def configure_temp_dir(temp_dir=None):
if temp_dir is None:
temp_dir = tempfile.gettempdir()
elif not os.path.exists(temp_dir) or not os.access(temp_dir,os.W_OK):
print("warning: specified temp_dir '%s' does not exist "
"or is not writable. Using the default temp directory" %
temp_dir)
temp_dir = tempfile.gettempdir()
# Final check that directories are writable.
if not os.access(temp_dir,os.W_OK):
msg = "Either the temp or build directory wasn't writable. Check" \
" these locations: '%s'" % temp_dir
raise ValueError(msg)
return temp_dir
def configure_build_dir(build_dir=None):
# make sure build_dir exists and is writable
if build_dir and (not os.path.exists(build_dir) or
not os.access(build_dir,os.W_OK)):
msg = "specified build_dir '%s' does not exist " \
"or is not writable. Trying default locations" % build_dir
warnings.warn(msg)
build_dir = None
if build_dir is None:
# Default to building in the home directory of the given module.
build_dir = os.curdir
# If it doesn't work use the current directory. This should always
# be writable.
if not os.access(build_dir,os.W_OK):
print("warning:, neither the module's directory nor the "
"current directory are writable. Using the temporary"
"directory.")
build_dir = tempfile.gettempdir()
# Final check that directories are writable.
if not os.access(build_dir,os.W_OK):
msg = "The build directory wasn't writable. Check" \
" this location: '%s'" % build_dir
raise ValueError(msg)
return os.path.abspath(build_dir)
if sys.platform == 'win32':
import distutils.cygwinccompiler
from distutils.version import StrictVersion
from distutils.errors import CompileError
from distutils.unixccompiler import UnixCCompiler
# the same as cygwin plus some additional parameters
class Mingw32CCompiler(distutils.cygwinccompiler.CygwinCCompiler):
""" A modified MingW32 compiler compatible with an MSVC built Python.
"""
compiler_type = 'mingw32'
def __init__(self,
verbose=0,
dry_run=0,
force=0):
distutils.cygwinccompiler.CygwinCCompiler.__init__(self,
verbose,dry_run, force)
# we need to support 3.2 which doesn't match the standard
# get_versions methods regex
if self.gcc_version is None:
import re
p = subprocess.Popen(['gcc', ' -dumpversion'], shell=True,
stdout=subprocess.PIPE)
out_string = p.stdout.read()
result = re.search('(\d+\.\d+)',out_string)
if result:
self.gcc_version = StrictVersion(result.group(1))
# A real mingw32 doesn't need to specify a different entry point,
# but cygwin 2.91.57 in no-cygwin-mode needs it.
if self.gcc_version <= "2.91.57":
entry_point = '--entry _DllMain@12'
else:
entry_point = ''
if self.linker_dll == 'dllwrap':
self.linker = 'dllwrap' + ' --driver-name g++'
elif self.linker_dll == 'gcc':
self.linker = 'g++'
# **changes: eric jones 4/11/01
# 1. Check for import library on Windows. Build if it doesn't exist.
if not import_library_exists():
build_import_library()
# **changes: eric jones 4/11/01
# 2. increased optimization and turned off all warnings
# 3. also added --driver-name g++
# self.set_executables(compiler='gcc -mno-cygwin -O2 -w',
# compiler_so='gcc -mno-cygwin -mdll -O2 -w',
# linker_exe='gcc -mno-cygwin',
# linker_so='%s --driver-name g++ -mno-cygwin -mdll -static %s'
# % (self.linker, entry_point))
if self.gcc_version <= "3.0.0":
self.set_executables(compiler='gcc -mno-cygwin -O2 -w',
compiler_so='gcc -mno-cygwin -mdll -O2 -w -Wstrict-prototypes',
linker_exe='g++ -mno-cygwin',
linker_so='%s -mno-cygwin -mdll -static %s'
% (self.linker, entry_point))
else:
self.set_executables(compiler='gcc -mno-cygwin -O2 -w',
compiler_so='gcc -O2 -w -Wstrict-prototypes',
linker_exe='g++ ',
linker_so='g++ -shared')
# added for python2.3 support
# we can't pass it through set_executables because pre 2.2 would fail
self.compiler_cxx = ['g++']
# Maybe we should also append -mthreads, but then the finished
# dlls need another dll (mingwm10.dll see Mingw32 docs)
# (-mthreads: Support thread-safe exception handling on `Mingw32')
# no additional libraries needed
self.dll_libraries = []
# __init__ ()
def link(self,
target_desc,
objects,
output_filename,
output_dir,
libraries,
library_dirs,
runtime_library_dirs,
export_symbols=None, # export_symbols, we do this in our def-file
debug=0,
extra_preargs=None,
extra_postargs=None,
build_temp=None,
target_lang=None):
if self.gcc_version < "3.0.0":
distutils.cygwinccompiler.CygwinCCompiler.link(self,
target_desc,
objects,
output_filename,
output_dir,
libraries,
library_dirs,
runtime_library_dirs,
None, # export_symbols, we do this in our def-file
debug,
extra_preargs,
extra_postargs,
build_temp,
target_lang)
else:
UnixCCompiler.link(self,
target_desc,
objects,
output_filename,
output_dir,
libraries,
library_dirs,
runtime_library_dirs,
None, # export_symbols, we do this in our def-file
debug,
extra_preargs,
extra_postargs,
build_temp,
target_lang)
# On windows platforms, we want to default to mingw32 (gcc)
# because msvc can't build blitz stuff.
# We should also check the version of gcc available...
# distutils.ccompiler._default_compilers['nt'] = 'mingw32'
# distutils.ccompiler._default_compilers = (('nt', 'mingw32'))
# reset the Mingw32 compiler in distutils to the one defined above
distutils.cygwinccompiler.Mingw32CCompiler = Mingw32CCompiler
def import_library_exists():
""" on windows platforms, make sure a gcc import library exists
"""
if os.name == 'nt':
lib_name = "libpython%d%d.a" % tuple(sys.version_info[:2])
full_path = os.path.join(sys.prefix,'libs',lib_name)
if not os.path.exists(full_path):
return 0
return 1
def build_import_library():
""" Build the import libraries for Mingw32-gcc on Windows
"""
from numpy.distutils import lib2def
# libfile, deffile = parse_cmd()
# if deffile is None:
# deffile = sys.stdout
# else:
# deffile = open(deffile, 'w')
lib_name = "python%d%d.lib" % tuple(sys.version_info[:2])
lib_file = os.path.join(sys.prefix,'libs',lib_name)
def_name = "python%d%d.def" % tuple(sys.version_info[:2])
def_file = os.path.join(sys.prefix,'libs',def_name)
nm_cmd = '%s %s' % (lib2def.DEFAULT_NM, lib_file)
nm_output = lib2def.getnm(nm_cmd)
dlist, flist = lib2def.parse_nm(nm_output)
lib2def.output_def(dlist, flist, lib2def.DEF_HEADER, open(def_file, 'w'))
out_name = "libpython%d%d.a" % tuple(sys.version_info[:2])
out_file = os.path.join(sys.prefix,'libs',out_name)
dll_name = "python%d%d.dll" % tuple(sys.version_info[:2])
args = (dll_name,def_file,out_file)
cmd = 'dlltool --dllname %s --def %s --output-lib %s' % args
success = not os.system(cmd)
# for now, fail silently
if not success:
print('WARNING: failed to build import library for gcc. Linking will fail.')
# if not success:
# msg = "Couldn't find import library, and failed to build it."
# raise DistutilsPlatformError, msg
| bsd-3-clause |
shiquanwang/pylearn2 | pylearn2/gui/tangent_plot.py | 5 | 1687 | """
Code for plotting curves with tangent lines.
"""
__author__ = "Ian Goodfellow"
try:
from matplotlib import pyplot
except Exception:
pyplot = None
def tangent_plot(x, y, s):
"""
Plots a curve with tangent lines.
Parameters
----------
x : list
List of x coordinates.
Assumed to be sorted into ascending order, so that the tangent
lines occupy 80 percent of the horizontal space between each pair
of points.
y : list
List of y coordinates
s : list
List of slopes
"""
assert isinstance(x, list)
assert isinstance(y, list)
assert isinstance(s, list)
n = len(x)
assert len(y) == n
assert len(s) == n
if pyplot is None:
raise RuntimeError("Could not import pyplot, can't run this code.")
pyplot.plot(x, y, color='b')
if n == 0:
pyplot.show()
return
pyplot.hold(True)
# Add dummy entries so that the for loop can use the same code on every
# entry
if n == 1:
x = [x[0] - 1] + x[0] + [x[0] + 1.]
else:
x = [x[0] - (x[1] - x[0])] + x + [x[-2] + (x[-1] - x[-2])]
y = [0.] + y + [0]
s = [0.] + s + [0]
for i in xrange(1, n + 1):
ld = 0.4 * (x[i] - x[i - 1])
lx = x[i] - ld
ly = y[i] - ld * s[i]
rd = 0.4 * (x[i + 1] - x[i])
rx = x[i] + rd
ry = y[i] + rd * s[i]
pyplot.plot([lx, rx], [ly, ry], color='g')
pyplot.show()
if __name__ == "__main__":
# Demo by plotting a quadratic function
import numpy as np
x = np.arange(-5., 5., .1)
y = 0.5 * (x ** 2)
x = list(x)
y = list(y)
tangent_plot(x, y, x)
| bsd-3-clause |
dursk/django | django/contrib/gis/geos/prototypes/prepared.py | 288 | 1214 | from ctypes import c_char
from django.contrib.gis.geos.libgeos import (
GEOM_PTR, PREPGEOM_PTR, GEOSFuncFactory,
)
from django.contrib.gis.geos.prototypes.errcheck import check_predicate
# Prepared geometry constructor and destructors.
geos_prepare = GEOSFuncFactory('GEOSPrepare', argtypes=[GEOM_PTR], restype=PREPGEOM_PTR)
prepared_destroy = GEOSFuncFactory('GEOSPreparedGeom_destroy', argtpes=[PREPGEOM_PTR])
# Prepared geometry binary predicate support.
class PreparedPredicate(GEOSFuncFactory):
argtypes = [PREPGEOM_PTR, GEOM_PTR]
restype = c_char
errcheck = staticmethod(check_predicate)
prepared_contains = PreparedPredicate('GEOSPreparedContains')
prepared_contains_properly = PreparedPredicate('GEOSPreparedContainsProperly')
prepared_covers = PreparedPredicate('GEOSPreparedCovers')
prepared_intersects = PreparedPredicate('GEOSPreparedIntersects')
# Functions added in GEOS 3.3
prepared_crosses = PreparedPredicate('GEOSPreparedCrosses')
prepared_disjoint = PreparedPredicate('GEOSPreparedDisjoint')
prepared_overlaps = PreparedPredicate('GEOSPreparedOverlaps')
prepared_touches = PreparedPredicate('GEOSPreparedTouches')
prepared_within = PreparedPredicate('GEOSPreparedWithin')
| bsd-3-clause |
visaxin/flask | flask/blueprints.py | 141 | 16871 | # -*- coding: utf-8 -*-
"""
flask.blueprints
~~~~~~~~~~~~~~~~
Blueprints are the recommended way to implement larger or more
pluggable applications in Flask 0.7 and later.
:copyright: (c) 2015 by Armin Ronacher.
:license: BSD, see LICENSE for more details.
"""
from functools import update_wrapper
from .helpers import _PackageBoundObject, _endpoint_from_view_func
class BlueprintSetupState(object):
"""Temporary holder object for registering a blueprint with the
application. An instance of this class is created by the
:meth:`~flask.Blueprint.make_setup_state` method and later passed
to all register callback functions.
"""
def __init__(self, blueprint, app, options, first_registration):
#: a reference to the current application
self.app = app
#: a reference to the blueprint that created this setup state.
self.blueprint = blueprint
#: a dictionary with all options that were passed to the
#: :meth:`~flask.Flask.register_blueprint` method.
self.options = options
#: as blueprints can be registered multiple times with the
#: application and not everything wants to be registered
#: multiple times on it, this attribute can be used to figure
#: out if the blueprint was registered in the past already.
self.first_registration = first_registration
subdomain = self.options.get('subdomain')
if subdomain is None:
subdomain = self.blueprint.subdomain
#: The subdomain that the blueprint should be active for, ``None``
#: otherwise.
self.subdomain = subdomain
url_prefix = self.options.get('url_prefix')
if url_prefix is None:
url_prefix = self.blueprint.url_prefix
#: The prefix that should be used for all URLs defined on the
#: blueprint.
self.url_prefix = url_prefix
#: A dictionary with URL defaults that is added to each and every
#: URL that was defined with the blueprint.
self.url_defaults = dict(self.blueprint.url_values_defaults)
self.url_defaults.update(self.options.get('url_defaults', ()))
def add_url_rule(self, rule, endpoint=None, view_func=None, **options):
"""A helper method to register a rule (and optionally a view function)
to the application. The endpoint is automatically prefixed with the
blueprint's name.
"""
if self.url_prefix:
rule = self.url_prefix + rule
options.setdefault('subdomain', self.subdomain)
if endpoint is None:
endpoint = _endpoint_from_view_func(view_func)
defaults = self.url_defaults
if 'defaults' in options:
defaults = dict(defaults, **options.pop('defaults'))
self.app.add_url_rule(rule, '%s.%s' % (self.blueprint.name, endpoint),
view_func, defaults=defaults, **options)
class Blueprint(_PackageBoundObject):
"""Represents a blueprint. A blueprint is an object that records
functions that will be called with the
:class:`~flask.blueprints.BlueprintSetupState` later to register functions
or other things on the main application. See :ref:`blueprints` for more
information.
.. versionadded:: 0.7
"""
warn_on_modifications = False
_got_registered_once = False
def __init__(self, name, import_name, static_folder=None,
static_url_path=None, template_folder=None,
url_prefix=None, subdomain=None, url_defaults=None,
root_path=None):
_PackageBoundObject.__init__(self, import_name, template_folder,
root_path=root_path)
self.name = name
self.url_prefix = url_prefix
self.subdomain = subdomain
self.static_folder = static_folder
self.static_url_path = static_url_path
self.deferred_functions = []
if url_defaults is None:
url_defaults = {}
self.url_values_defaults = url_defaults
def record(self, func):
"""Registers a function that is called when the blueprint is
registered on the application. This function is called with the
state as argument as returned by the :meth:`make_setup_state`
method.
"""
if self._got_registered_once and self.warn_on_modifications:
from warnings import warn
warn(Warning('The blueprint was already registered once '
'but is getting modified now. These changes '
'will not show up.'))
self.deferred_functions.append(func)
def record_once(self, func):
"""Works like :meth:`record` but wraps the function in another
function that will ensure the function is only called once. If the
blueprint is registered a second time on the application, the
function passed is not called.
"""
def wrapper(state):
if state.first_registration:
func(state)
return self.record(update_wrapper(wrapper, func))
def make_setup_state(self, app, options, first_registration=False):
"""Creates an instance of :meth:`~flask.blueprints.BlueprintSetupState`
object that is later passed to the register callback functions.
Subclasses can override this to return a subclass of the setup state.
"""
return BlueprintSetupState(self, app, options, first_registration)
def register(self, app, options, first_registration=False):
"""Called by :meth:`Flask.register_blueprint` to register a blueprint
on the application. This can be overridden to customize the register
behavior. Keyword arguments from
:func:`~flask.Flask.register_blueprint` are directly forwarded to this
method in the `options` dictionary.
"""
self._got_registered_once = True
state = self.make_setup_state(app, options, first_registration)
if self.has_static_folder:
state.add_url_rule(self.static_url_path + '/<path:filename>',
view_func=self.send_static_file,
endpoint='static')
for deferred in self.deferred_functions:
deferred(state)
def route(self, rule, **options):
"""Like :meth:`Flask.route` but for a blueprint. The endpoint for the
:func:`url_for` function is prefixed with the name of the blueprint.
"""
def decorator(f):
endpoint = options.pop("endpoint", f.__name__)
self.add_url_rule(rule, endpoint, f, **options)
return f
return decorator
def add_url_rule(self, rule, endpoint=None, view_func=None, **options):
"""Like :meth:`Flask.add_url_rule` but for a blueprint. The endpoint for
the :func:`url_for` function is prefixed with the name of the blueprint.
"""
if endpoint:
assert '.' not in endpoint, "Blueprint endpoints should not contain dots"
self.record(lambda s:
s.add_url_rule(rule, endpoint, view_func, **options))
def endpoint(self, endpoint):
"""Like :meth:`Flask.endpoint` but for a blueprint. This does not
prefix the endpoint with the blueprint name, this has to be done
explicitly by the user of this method. If the endpoint is prefixed
with a `.` it will be registered to the current blueprint, otherwise
it's an application independent endpoint.
"""
def decorator(f):
def register_endpoint(state):
state.app.view_functions[endpoint] = f
self.record_once(register_endpoint)
return f
return decorator
def app_template_filter(self, name=None):
"""Register a custom template filter, available application wide. Like
:meth:`Flask.template_filter` but for a blueprint.
:param name: the optional name of the filter, otherwise the
function name will be used.
"""
def decorator(f):
self.add_app_template_filter(f, name=name)
return f
return decorator
def add_app_template_filter(self, f, name=None):
"""Register a custom template filter, available application wide. Like
:meth:`Flask.add_template_filter` but for a blueprint. Works exactly
like the :meth:`app_template_filter` decorator.
:param name: the optional name of the filter, otherwise the
function name will be used.
"""
def register_template(state):
state.app.jinja_env.filters[name or f.__name__] = f
self.record_once(register_template)
def app_template_test(self, name=None):
"""Register a custom template test, available application wide. Like
:meth:`Flask.template_test` but for a blueprint.
.. versionadded:: 0.10
:param name: the optional name of the test, otherwise the
function name will be used.
"""
def decorator(f):
self.add_app_template_test(f, name=name)
return f
return decorator
def add_app_template_test(self, f, name=None):
"""Register a custom template test, available application wide. Like
:meth:`Flask.add_template_test` but for a blueprint. Works exactly
like the :meth:`app_template_test` decorator.
.. versionadded:: 0.10
:param name: the optional name of the test, otherwise the
function name will be used.
"""
def register_template(state):
state.app.jinja_env.tests[name or f.__name__] = f
self.record_once(register_template)
def app_template_global(self, name=None):
"""Register a custom template global, available application wide. Like
:meth:`Flask.template_global` but for a blueprint.
.. versionadded:: 0.10
:param name: the optional name of the global, otherwise the
function name will be used.
"""
def decorator(f):
self.add_app_template_global(f, name=name)
return f
return decorator
def add_app_template_global(self, f, name=None):
"""Register a custom template global, available application wide. Like
:meth:`Flask.add_template_global` but for a blueprint. Works exactly
like the :meth:`app_template_global` decorator.
.. versionadded:: 0.10
:param name: the optional name of the global, otherwise the
function name will be used.
"""
def register_template(state):
state.app.jinja_env.globals[name or f.__name__] = f
self.record_once(register_template)
def before_request(self, f):
"""Like :meth:`Flask.before_request` but for a blueprint. This function
is only executed before each request that is handled by a function of
that blueprint.
"""
self.record_once(lambda s: s.app.before_request_funcs
.setdefault(self.name, []).append(f))
return f
def before_app_request(self, f):
"""Like :meth:`Flask.before_request`. Such a function is executed
before each request, even if outside of a blueprint.
"""
self.record_once(lambda s: s.app.before_request_funcs
.setdefault(None, []).append(f))
return f
def before_app_first_request(self, f):
"""Like :meth:`Flask.before_first_request`. Such a function is
executed before the first request to the application.
"""
self.record_once(lambda s: s.app.before_first_request_funcs.append(f))
return f
def after_request(self, f):
"""Like :meth:`Flask.after_request` but for a blueprint. This function
is only executed after each request that is handled by a function of
that blueprint.
"""
self.record_once(lambda s: s.app.after_request_funcs
.setdefault(self.name, []).append(f))
return f
def after_app_request(self, f):
"""Like :meth:`Flask.after_request` but for a blueprint. Such a function
is executed after each request, even if outside of the blueprint.
"""
self.record_once(lambda s: s.app.after_request_funcs
.setdefault(None, []).append(f))
return f
def teardown_request(self, f):
"""Like :meth:`Flask.teardown_request` but for a blueprint. This
function is only executed when tearing down requests handled by a
function of that blueprint. Teardown request functions are executed
when the request context is popped, even when no actual request was
performed.
"""
self.record_once(lambda s: s.app.teardown_request_funcs
.setdefault(self.name, []).append(f))
return f
def teardown_app_request(self, f):
"""Like :meth:`Flask.teardown_request` but for a blueprint. Such a
function is executed when tearing down each request, even if outside of
the blueprint.
"""
self.record_once(lambda s: s.app.teardown_request_funcs
.setdefault(None, []).append(f))
return f
def context_processor(self, f):
"""Like :meth:`Flask.context_processor` but for a blueprint. This
function is only executed for requests handled by a blueprint.
"""
self.record_once(lambda s: s.app.template_context_processors
.setdefault(self.name, []).append(f))
return f
def app_context_processor(self, f):
"""Like :meth:`Flask.context_processor` but for a blueprint. Such a
function is executed each request, even if outside of the blueprint.
"""
self.record_once(lambda s: s.app.template_context_processors
.setdefault(None, []).append(f))
return f
def app_errorhandler(self, code):
"""Like :meth:`Flask.errorhandler` but for a blueprint. This
handler is used for all requests, even if outside of the blueprint.
"""
def decorator(f):
self.record_once(lambda s: s.app.errorhandler(code)(f))
return f
return decorator
def url_value_preprocessor(self, f):
"""Registers a function as URL value preprocessor for this
blueprint. It's called before the view functions are called and
can modify the url values provided.
"""
self.record_once(lambda s: s.app.url_value_preprocessors
.setdefault(self.name, []).append(f))
return f
def url_defaults(self, f):
"""Callback function for URL defaults for this blueprint. It's called
with the endpoint and values and should update the values passed
in place.
"""
self.record_once(lambda s: s.app.url_default_functions
.setdefault(self.name, []).append(f))
return f
def app_url_value_preprocessor(self, f):
"""Same as :meth:`url_value_preprocessor` but application wide.
"""
self.record_once(lambda s: s.app.url_value_preprocessors
.setdefault(None, []).append(f))
return f
def app_url_defaults(self, f):
"""Same as :meth:`url_defaults` but application wide.
"""
self.record_once(lambda s: s.app.url_default_functions
.setdefault(None, []).append(f))
return f
def errorhandler(self, code_or_exception):
"""Registers an error handler that becomes active for this blueprint
only. Please be aware that routing does not happen local to a
blueprint so an error handler for 404 usually is not handled by
a blueprint unless it is caused inside a view function. Another
special case is the 500 internal server error which is always looked
up from the application.
Otherwise works as the :meth:`~flask.Flask.errorhandler` decorator
of the :class:`~flask.Flask` object.
"""
def decorator(f):
self.record_once(lambda s: s.app._register_error_handler(
self.name, code_or_exception, f))
return f
return decorator
def register_error_handler(self, code_or_exception, f):
"""Non-decorator version of the :meth:`errorhandler` error attach
function, akin to the :meth:`~flask.Flask.register_error_handler`
application-wide function of the :class:`~flask.Flask` object but
for error handlers limited to this blueprint.
.. versionadded:: 1.0
"""
self.record_once(lambda s: s.app._register_error_handler(
self.name, code_or_exception, f))
| bsd-3-clause |
netsamir/dotfiles | dotbot/lib/pyyaml/tests/lib/test_input_output.py | 55 | 6210 |
import yaml
import codecs, StringIO, tempfile, os, os.path
def _unicode_open(file, encoding, errors='strict'):
info = codecs.lookup(encoding)
if isinstance(info, tuple):
reader = info[2]
writer = info[3]
else:
reader = info.streamreader
writer = info.streamwriter
srw = codecs.StreamReaderWriter(file, reader, writer, errors)
srw.encoding = encoding
return srw
def test_unicode_input(unicode_filename, verbose=False):
data = open(unicode_filename, 'rb').read().decode('utf-8')
value = ' '.join(data.split())
output = yaml.load(_unicode_open(StringIO.StringIO(data.encode('utf-8')), 'utf-8'))
assert output == value, (output, value)
for input in [data, data.encode('utf-8'),
codecs.BOM_UTF8+data.encode('utf-8'),
codecs.BOM_UTF16_BE+data.encode('utf-16-be'),
codecs.BOM_UTF16_LE+data.encode('utf-16-le')]:
if verbose:
print "INPUT:", repr(input[:10]), "..."
output = yaml.load(input)
assert output == value, (output, value)
output = yaml.load(StringIO.StringIO(input))
assert output == value, (output, value)
test_unicode_input.unittest = ['.unicode']
def test_unicode_input_errors(unicode_filename, verbose=False):
data = open(unicode_filename, 'rb').read().decode('utf-8')
for input in [data.encode('latin1', 'ignore'),
data.encode('utf-16-be'), data.encode('utf-16-le'),
codecs.BOM_UTF8+data.encode('utf-16-be'),
codecs.BOM_UTF16_BE+data.encode('utf-16-le'),
codecs.BOM_UTF16_LE+data.encode('utf-8')+'!']:
try:
yaml.load(input)
except yaml.YAMLError, exc:
if verbose:
print exc
else:
raise AssertionError("expected an exception")
try:
yaml.load(StringIO.StringIO(input))
except yaml.YAMLError, exc:
if verbose:
print exc
else:
raise AssertionError("expected an exception")
test_unicode_input_errors.unittest = ['.unicode']
def test_unicode_output(unicode_filename, verbose=False):
data = open(unicode_filename, 'rb').read().decode('utf-8')
value = ' '.join(data.split())
for allow_unicode in [False, True]:
data1 = yaml.dump(value, allow_unicode=allow_unicode)
for encoding in [None, 'utf-8', 'utf-16-be', 'utf-16-le']:
stream = StringIO.StringIO()
yaml.dump(value, _unicode_open(stream, 'utf-8'), encoding=encoding, allow_unicode=allow_unicode)
data2 = stream.getvalue()
data3 = yaml.dump(value, encoding=encoding, allow_unicode=allow_unicode)
stream = StringIO.StringIO()
yaml.dump(value, stream, encoding=encoding, allow_unicode=allow_unicode)
data4 = stream.getvalue()
for copy in [data1, data2, data3, data4]:
if allow_unicode:
try:
copy[4:].encode('ascii')
except (UnicodeDecodeError, UnicodeEncodeError), exc:
if verbose:
print exc
else:
raise AssertionError("expected an exception")
else:
copy[4:].encode('ascii')
assert isinstance(data1, str), (type(data1), encoding)
data1.decode('utf-8')
assert isinstance(data2, str), (type(data2), encoding)
data2.decode('utf-8')
if encoding is None:
assert isinstance(data3, unicode), (type(data3), encoding)
assert isinstance(data4, unicode), (type(data4), encoding)
else:
assert isinstance(data3, str), (type(data3), encoding)
data3.decode(encoding)
assert isinstance(data4, str), (type(data4), encoding)
data4.decode(encoding)
test_unicode_output.unittest = ['.unicode']
def test_file_output(unicode_filename, verbose=False):
data = open(unicode_filename, 'rb').read().decode('utf-8')
handle, filename = tempfile.mkstemp()
os.close(handle)
try:
stream = StringIO.StringIO()
yaml.dump(data, stream, allow_unicode=True)
data1 = stream.getvalue()
stream = open(filename, 'wb')
yaml.dump(data, stream, allow_unicode=True)
stream.close()
data2 = open(filename, 'rb').read()
stream = open(filename, 'wb')
yaml.dump(data, stream, encoding='utf-16-le', allow_unicode=True)
stream.close()
data3 = open(filename, 'rb').read().decode('utf-16-le')[1:].encode('utf-8')
stream = _unicode_open(open(filename, 'wb'), 'utf-8')
yaml.dump(data, stream, allow_unicode=True)
stream.close()
data4 = open(filename, 'rb').read()
assert data1 == data2, (data1, data2)
assert data1 == data3, (data1, data3)
assert data1 == data4, (data1, data4)
finally:
if os.path.exists(filename):
os.unlink(filename)
test_file_output.unittest = ['.unicode']
def test_unicode_transfer(unicode_filename, verbose=False):
data = open(unicode_filename, 'rb').read().decode('utf-8')
for encoding in [None, 'utf-8', 'utf-16-be', 'utf-16-le']:
input = data
if encoding is not None:
input = (u'\ufeff'+input).encode(encoding)
output1 = yaml.emit(yaml.parse(input), allow_unicode=True)
stream = StringIO.StringIO()
yaml.emit(yaml.parse(input), _unicode_open(stream, 'utf-8'),
allow_unicode=True)
output2 = stream.getvalue()
if encoding is None:
assert isinstance(output1, unicode), (type(output1), encoding)
else:
assert isinstance(output1, str), (type(output1), encoding)
output1.decode(encoding)
assert isinstance(output2, str), (type(output2), encoding)
output2.decode('utf-8')
test_unicode_transfer.unittest = ['.unicode']
if __name__ == '__main__':
import test_appliance
test_appliance.run(globals())
| unlicense |
calfonso/ansible | test/units/modules/cloud/amazon/test_aws_direct_connect_link_aggregation_group.py | 89 | 7309 | # (c) 2017 Red Hat Inc.
#
# This file is part of Ansible
#
# Ansible is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# Ansible is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Ansible. If not, see <http://www.gnu.org/licenses/>.
import pytest
import os
import collections
from units.utils.amazon_placebo_fixtures import placeboify, maybe_sleep
from ansible.modules.cloud.amazon import aws_direct_connect_link_aggregation_group as lag_module
from ansible.module_utils.ec2 import get_aws_connection_info, boto3_conn
@pytest.fixture(scope="module")
def dependencies():
# each LAG dict will contain the keys: module, connections, virtual_interfaces
Dependencies = collections.namedtuple("Dependencies", ["lag_1", "lag_2"])
lag_1 = dict()
lag_2 = dict()
vanilla_params = {"name": "ansible_lag_1",
"location": "EqSe2",
"num_connections": 1,
"min_links": 0,
"bandwidth": "1Gbps"}
for lag in ("ansible_lag_1", "ansible_lag_2"):
params = dict(vanilla_params)
params["name"] = lag
if lag == "ansible_lag_1":
lag_1["module"] = FakeModule(**params)
else:
lag_2["module"] = FakeModule(**params)
if os.getenv("PLACEBO_RECORD"):
region, ec2_url, aws_connect_kwargs = get_aws_connection_info(lag_1["module"], boto3=True)
client = boto3_conn(lag_1["module"], conn_type="client", resource="directconnect", region=region, endpoint=ec2_url, **aws_connect_kwargs)
# See if link aggregation groups exist
for name in ("ansible_lag_1", "ansible_lag_2"):
lag_id = lag_module.create_lag(client, num_connections=1, location="EqSe2", bandwidth="1Gbps", name=name, connection_id=None)
if name == "ansible_lag_1":
lag_1["lag_id"] = lag_id
lag_1["name"] = name
else:
lag_2["lag_id"] = lag_id
lag_2["name"] = name
yield Dependencies(lag_1=lag_1, lag_2=lag_2)
else:
lag_1.update(lag_id="dxlag-fgkk4dja", name="ansible_lag_1")
lag_2.update(lag_id="dxlag-fgytkicv", name="ansible_lag_2")
yield Dependencies(lag_1=lag_1, lag_2=lag_2)
if os.getenv("PLACEBO_RECORD"):
# clean up
lag_module.ensure_absent(client, lag_1["lag_id"], lag_1["name"], True, True, True, 120)
lag_module.ensure_absent(client, lag_2["lag_id"], lag_2["name"], True, True, True, 120)
class FakeModule(object):
def __init__(self, **kwargs):
self.params = kwargs
def fail_json(self, *args, **kwargs):
self.exit_args = args
self.exit_kwargs = kwargs
raise Exception("FAIL")
def exit_json(self, *args, **kwargs):
self.exit_args = args
self.exit_kwargs = kwargs
def test_nonexistent_lag_status(placeboify, maybe_sleep):
client = placeboify.client("directconnect")
exists = lag_module.lag_exists(client=client,
lag_id="doesntexist",
lag_name="doesntexist",
verify=True)
assert not exists
def test_lag_status(placeboify, maybe_sleep, dependencies):
client = placeboify.client("directconnect")
status = lag_module.lag_status(client, lag_id=dependencies.lag_1.get("lag_id"))
assert status.get("lagId") == dependencies.lag_1.get("lag_id")
assert status.get("lagName") == "ansible_lag_1"
def test_lag_exists(placeboify, maybe_sleep, dependencies):
client = placeboify.client("directconnect")
exists = lag_module.lag_exists(client=client,
lag_id=dependencies.lag_1.get("lag_id"),
lag_name=None,
verify=True)
assert exists
def test_lag_exists_using_name(placeboify, maybe_sleep, dependencies):
client = placeboify.client("directconnect")
exists = lag_module.lag_exists(client=client,
lag_id=None,
lag_name=dependencies.lag_1.get("name"),
verify=True)
assert exists
def test_nonexistent_lag_does_not_exist(placeboify, maybe_sleep):
client = placeboify.client("directconnect")
exists = lag_module.lag_exists(client=client,
lag_id="dxlag-XXXXXXXX",
lag_name="doesntexist",
verify=True)
assert not exists
def test_lag_changed_true(placeboify, maybe_sleep, dependencies):
client = placeboify.client("directconnect")
status = lag_module.lag_status(client=client, lag_id=dependencies.lag_1.get("lag_id"))
assert lag_module.lag_changed(status, "new_name", 1)
def test_lag_changed_true_no(placeboify, maybe_sleep, dependencies):
client = placeboify.client("directconnect")
status = lag_module.lag_status(client=client, lag_id=dependencies.lag_1.get("lag_id"))
assert not lag_module.lag_changed(status, "ansible_lag_1", 0)
def test_update_lag(placeboify, maybe_sleep, dependencies):
client = placeboify.client("directconnect")
status_before = lag_module.lag_status(client=client, lag_id=dependencies.lag_2.get("lag_id"))
lag_module.update_lag(client,
lag_id=dependencies.lag_2.get("lag_id"),
lag_name="ansible_lag_2_update",
min_links=0,
wait=False,
wait_timeout=0,
num_connections=1)
status_after = lag_module.lag_status(client=client, lag_id=dependencies.lag_2.get("lag_id"))
assert status_before != status_after
# remove the lag name from the statuses and verify it was the only thing changed
del status_before['lagName']
del status_after['lagName']
assert status_before == status_after
def test_delete_nonexistent_lag(placeboify, maybe_sleep):
client = placeboify.client("directconnect")
changed = lag_module.ensure_absent(client, "dxlag-XXXXXXXX", "doesntexist", True, True, True, 120)
assert not changed
def test_delete_lag_with_connections_without_force_delete(placeboify, maybe_sleep, dependencies):
client = placeboify.client("directconnect")
with pytest.raises(Exception) as error_message:
lag_module.ensure_absent(client, dependencies.lag_1.get("lag_id"), "ansible_lag_1", False, True, True, 120)
assert "To force deletion of the LAG use delete_force: True" in error_message
def test_delete_lag_with_connections(placeboify, maybe_sleep, dependencies):
client = placeboify.client("directconnect")
changed = lag_module.ensure_absent(client, dependencies.lag_1.get("lag_id"), "ansible_lag_1", True, True, True, 120)
assert changed
| gpl-3.0 |
verycumbersome/the-blue-alliance | controllers/suggestions/suggest_event_media_review_controller.py | 3 | 3584 | import datetime
import os
import json
import logging
from google.appengine.ext import ndb
from consts.account_permissions import AccountPermissions
from consts.media_type import MediaType
from controllers.suggestions.suggestions_review_base_controller import SuggestionsReviewBaseController
from helpers.media_manipulator import MediaManipulator
from helpers.suggestions.media_creator import MediaCreator
from models.media import Media
from models.suggestion import Suggestion
from template_engine import jinja2_engine
class SuggestEventMediaReviewController(SuggestionsReviewBaseController):
def __init__(self, *args, **kw):
self.preferred_keys = []
self.REQUIRED_PERMISSIONS.append(AccountPermissions.REVIEW_EVENT_MEDIA)
super(SuggestEventMediaReviewController, self).__init__(*args, **kw)
"""
View the list of suggestions.
"""
def get(self):
suggestions = Suggestion.query().filter(
Suggestion.review_state == Suggestion.REVIEW_PENDING).filter(
Suggestion.target_model == "event_media").fetch(limit=50)
# Quick and dirty way to group images together
suggestions = sorted(suggestions, key=lambda x: 0 if x.contents['media_type_enum'] in MediaType.image_types else 1)
reference_keys = []
for suggestion in suggestions:
reference_key = suggestion.contents['reference_key']
reference = Media.create_reference(
suggestion.contents['reference_type'],
reference_key)
reference_keys.append(reference)
if 'details_json' in suggestion.contents:
suggestion.details = json.loads(suggestion.contents['details_json'])
if 'image_partial' in suggestion.details:
suggestion.details['thumbnail'] = suggestion.details['image_partial'].replace('_l', '_m')
reference_futures = ndb.get_multi_async(reference_keys)
references = map(lambda r: r.get_result(), reference_futures)
suggestions_and_references = zip(suggestions, references)
self.template_values.update({
"suggestions_and_references": suggestions_and_references,
})
self.response.out.write(jinja2_engine.render('suggestions/suggest_event_media_review_list.html', self.template_values))
def create_target_model(self, suggestion):
# Setup
# Remove preferred reference from another Media if specified
event_reference = Media.create_reference(
suggestion.contents['reference_type'],
suggestion.contents['reference_key'])
media = MediaCreator.create_media_model(suggestion, event_reference, [])
# Do all DB writes
return MediaManipulator.createOrUpdate(media)
def post(self):
self.preferred_keys = self.request.POST.getall("preferred_keys[]")
accept_keys = []
reject_keys = []
for value in self.request.POST.values():
logging.debug(value)
split_value = value.split('::')
if len(split_value) == 2:
key = split_value[1]
else:
continue
if value.startswith('accept'):
accept_keys.append(key)
elif value.startswith('reject'):
reject_keys.append(key)
# Process accepts
for accept_key in accept_keys:
self._process_accepted(accept_key)
# Process rejects
self._process_rejected(reject_keys)
self.redirect("/suggest/event/media/review")
| mit |
mepesh/eqapp_rev_2 | eqapp_rev_2.py | 1 | 1226 | from flask import Flask, redirect, render_template
from datetime import datetime
import csv,random
app = Flask(__name__)
#creating csv file
with open('templates/eqdata.csv','wb') as fwrite:
writer = csv.writer(fwrite)
for i in range(1,10):
writer.writerow((i,datetime.now().strftime("%Y-%m-%d"),
datetime.now().strftime('%H:%M:%S'),'apple','ball','cat',
random.uniform(4,8)))
@app.route('/')
def main():
return render_template('eqMain.html')
@app.route('/index')
def tab1():
return render_template('tab1_index.html')
@app.route('/eqhis')
def history():
return render_template('tab2_eqhis.html')
@app.route('/eqrealdata')
def real():
#reading the created csv file
with open('templates/eqdata.csv', 'rb') as fread:
reader = csv.reader(fread)
dict={}
for a in reader:
dict[a[0]]=[ a[1], a[2], a[3], a[4], a[5],a[6]]
#publishing the values to web
return render_template('tab3_eqrealdata.html', result=dict)
@app.route('/about')
def about():
return render_template('tab4_about.html')
if __name__ == '__main__':
app.run(debug=True)
| apache-2.0 |
albertomurillo/ansible | lib/ansible/plugins/callback/mail.py | 69 | 8479 | # -*- coding: utf-8 -*-
# Copyright: (c) 2012, Dag Wieers <dag@wieers.com>
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
DOCUMENTATION = '''
callback: mail
type: notification
short_description: Sends failure events via email
description:
- This callback will report failures via email
version_added: '2.0'
author:
- Dag Wieers (@dagwieers)
requirements:
- whitelisting in configuration
options:
mta:
description: Mail Transfer Agent, server that accepts SMTP
env:
- name: SMTPHOST
ini:
- section: callback_mail
key: smtphost
version_added: '2.5'
default: localhost
mtaport:
description: Mail Transfer Agent Port, port at which server SMTP
ini:
- section: callback_mail
key: smtpport
version_added: '2.5'
default: 25
to:
description: Mail recipient
ini:
- section: callback_mail
key: to
version_added: '2.5'
default: root
sender:
description: Mail sender
ini:
- section: callback_mail
key: sender
version_added: '2.5'
cc:
description: CC'd recipient
ini:
- section: callback_mail
key: cc
version_added: '2.5'
bcc:
description: BCC'd recipient
ini:
- section: callback_mail
key: bcc
version_added: '2.5'
note:
- "TODO: expand configuration options now that plugins can leverage Ansible's configuration"
'''
import json
import os
import re
import smtplib
from ansible.module_utils.six import string_types
from ansible.module_utils._text import to_bytes
from ansible.parsing.ajson import AnsibleJSONEncoder
from ansible.plugins.callback import CallbackBase
class CallbackModule(CallbackBase):
''' This Ansible callback plugin mails errors to interested parties. '''
CALLBACK_VERSION = 2.0
CALLBACK_TYPE = 'notification'
CALLBACK_NAME = 'mail'
CALLBACK_NEEDS_WHITELIST = True
def __init__(self, display=None):
super(CallbackModule, self).__init__(display=display)
self.sender = None
self.to = 'root'
self.smtphost = os.getenv('SMTPHOST', 'localhost')
self.smtpport = 25
self.cc = None
self.bcc = None
def set_options(self, task_keys=None, var_options=None, direct=None):
super(CallbackModule, self).set_options(task_keys=task_keys, var_options=var_options, direct=direct)
self.sender = self.get_option('sender')
self.to = self.get_option('to')
self.smtphost = self.get_option('mta')
self.smtpport = int(self.get_option('mtaport'))
self.cc = self.get_option('cc')
self.bcc = self.get_option('bcc')
def mail(self, subject='Ansible error mail', body=None):
if body is None:
body = subject
smtp = smtplib.SMTP(self.smtphost, port=self.smtpport)
b_sender = to_bytes(self.sender)
b_to = to_bytes(self.to)
b_cc = to_bytes(self.cc)
b_bcc = to_bytes(self.bcc)
b_subject = to_bytes(subject)
b_body = to_bytes(body)
b_content = b'From: %s\n' % b_sender
b_content += b'To: %s\n' % b_to
if self.cc:
b_content += b'Cc: %s\n' % b_cc
b_content += b'Subject: %s\n\n' % b_subject
b_content += b_body
b_addresses = b_to.split(b',')
if self.cc:
b_addresses += b_cc.split(b',')
if self.bcc:
b_addresses += b_bcc.split(b',')
for b_address in b_addresses:
smtp.sendmail(b_sender, b_address, b_content)
smtp.quit()
def subject_msg(self, multiline, failtype, linenr):
return '%s: %s' % (failtype, multiline.strip('\r\n').splitlines()[linenr])
def indent(self, multiline, indent=8):
return re.sub('^', ' ' * indent, multiline, flags=re.MULTILINE)
def body_blob(self, multiline, texttype):
''' Turn some text output in a well-indented block for sending in a mail body '''
intro = 'with the following %s:\n\n' % texttype
blob = ''
for line in multiline.strip('\r\n').splitlines():
blob += '%s\n' % line
return intro + self.indent(blob) + '\n'
def mail_result(self, result, failtype):
host = result._host.get_name()
if not self.sender:
self.sender = '"Ansible: %s" <root>' % host
# Add subject
if self.itembody:
subject = self.itemsubject
elif result._result.get('failed_when_result') is True:
subject = "Failed due to 'failed_when' condition"
elif result._result.get('msg'):
subject = self.subject_msg(result._result['msg'], failtype, 0)
elif result._result.get('stderr'):
subject = self.subject_msg(result._result['stderr'], failtype, -1)
elif result._result.get('stdout'):
subject = self.subject_msg(result._result['stdout'], failtype, -1)
elif result._result.get('exception'): # Unrelated exceptions are added to output :-/
subject = self.subject_msg(result._result['exception'], failtype, -1)
else:
subject = '%s: %s' % (failtype, result._task.name or result._task.action)
# Make playbook name visible (e.g. in Outlook/Gmail condensed view)
body = 'Playbook: %s\n' % os.path.basename(self.playbook._file_name)
if result._task.name:
body += 'Task: %s\n' % result._task.name
body += 'Module: %s\n' % result._task.action
body += 'Host: %s\n' % host
body += '\n'
# Add task information (as much as possible)
body += 'The following task failed:\n\n'
if 'invocation' in result._result:
body += self.indent('%s: %s\n' % (result._task.action, json.dumps(result._result['invocation']['module_args'], indent=4)))
elif result._task.name:
body += self.indent('%s (%s)\n' % (result._task.name, result._task.action))
else:
body += self.indent('%s\n' % result._task.action)
body += '\n'
# Add item / message
if self.itembody:
body += self.itembody
elif result._result.get('failed_when_result') is True:
body += "due to the following condition:\n\n" + self.indent('failed_when:\n- ' + '\n- '.join(result._task.failed_when)) + '\n\n'
elif result._result.get('msg'):
body += self.body_blob(result._result['msg'], 'message')
# Add stdout / stderr / exception / warnings / deprecations
if result._result.get('stdout'):
body += self.body_blob(result._result['stdout'], 'standard output')
if result._result.get('stderr'):
body += self.body_blob(result._result['stderr'], 'error output')
if result._result.get('exception'): # Unrelated exceptions are added to output :-/
body += self.body_blob(result._result['exception'], 'exception')
if result._result.get('warnings'):
for i in range(len(result._result.get('warnings'))):
body += self.body_blob(result._result['warnings'][i], 'exception %d' % (i + 1))
if result._result.get('deprecations'):
for i in range(len(result._result.get('deprecations'))):
body += self.body_blob(result._result['deprecations'][i], 'exception %d' % (i + 1))
body += 'and a complete dump of the error:\n\n'
body += self.indent('%s: %s' % (failtype, json.dumps(result._result, cls=AnsibleJSONEncoder, indent=4)))
self.mail(subject=subject, body=body)
def v2_playbook_on_start(self, playbook):
self.playbook = playbook
self.itembody = ''
def v2_runner_on_failed(self, result, ignore_errors=False):
if ignore_errors:
return
self.mail_result(result, 'Failed')
def v2_runner_on_unreachable(self, result):
self.mail_result(result, 'Unreachable')
def v2_runner_on_async_failed(self, result):
self.mail_result(result, 'Async failure')
def v2_runner_item_on_failed(self, result):
# Pass item information to task failure
self.itemsubject = result._result['msg']
self.itembody += self.body_blob(json.dumps(result._result, cls=AnsibleJSONEncoder, indent=4), "failed item dump '%(item)s'" % result._result)
| gpl-3.0 |
sl2017/campos | campos_event/controllers/main.py | 1 | 25825 | # -*- coding: utf-8 -*-
##############################################################################
#
# This file is part of CampOS Event, an Odoo module.
#
# Copyright (c) 2015 Stein & Gabelgaard ApS
# http://www.steingabelgaard.dk
# Hans Henrik Gaelgaard
#
# CampOS Event is free software: you can redistribute it and/or
# modify it under the terms of the GNU Affero General Public License
# as published by the Free Software Foundation, either version 3 of
# the License, or (at your option) any later version.
#
# CampOS Event is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
#
# You should have received a copy of the
# GNU Affero General Public License
# along with CampOS Event.
# If not, see <http://www.gnu.org/licenses/>.
#
##############################################################################
from openerp import tools, fields
from openerp import SUPERUSER_ID
from openerp.addons.web import http
from openerp.addons.web.controllers.main import login_redirect
from openerp.addons.web.http import request
from openerp.addons.website.controllers.main import Website as controllers
from openerp.addons.website.models.website import slug
from openerp.tools.translate import _
import datetime
from openerp.tools import DEFAULT_SERVER_DATE_FORMAT
import logging
_logger = logging.getLogger(__name__)
class CampOsEvent(http.Controller):
# @http.route('/camp_os_event/camp_os_event/', auth='public')
# def index(self, **kw):
# return "Hello, world"
# @http.route('/camp_os_event/camp_os_event/objects/', auth='public')
# def list(self, **kw):
# return http.request.render('camp_os_event.listing', {
# 'root': '/camp_os_event/camp_os_event',
# 'objects': http.request.env['camp_os_event.camp_os_event'].search([]),
# })
# @http.route('/camp_os_event/camp_os_event/objects/<model("camp_os_event.camp_os_event"):obj>/', auth='public')
# def object(self, obj, **kw):
# return http.request.render('camp_os_event.object', {
# 'object': obj
# })
@http.route(
['/campos/jobber/signup',
'/campos/jobber/signup/<model("campos.job"):job>'],
type='http', auth="public", website=True)
def jobber_signup(self, job=None, **kwargs):
error = {}
default = {'staff_qty_pre_reg': '1'}
comm_id = False
scoutorg_id = False
if job:
comm_id = job.committee_id.id
committee = request.registry['campos.committee']
committee_ids = committee.search(
request.cr,
SUPERUSER_ID,
['|',('website_published', '=', True),('id', '=', comm_id)],
context=request.context)
committees = committee.browse(
request.cr,
SUPERUSER_ID,
committee_ids,
context=request.context)
scout_org = request.registry['campos.scout.org']
scout_org_ids = scout_org.search(
request.cr,
SUPERUSER_ID,
[('country_id.code', '=', 'DK')],
context=request.context)
scoutorgs = scout_org.browse(
request.cr,
SUPERUSER_ID,
scout_org_ids,
context=request.context)
if 'website_campos_jobber_signup_error' in request.session:
error = request.session.pop('website_campos_jobber_signup_error')
default = request.session.pop(
'website_campos_jobber_signup_default')
return request.render("campos_event.jobber_signup", {
'committees': committees,
'error': error,
'default': default,
'job' : job,
'comm_id' : comm_id,
'scoutorgs' : scoutorgs,
'scoutorg_id': scoutorg_id,
})
@http.route('/campos/jobber/thankyou',
methods=['POST'], type='http', auth="public", website=True)
def jobs_thankyou(self, **post):
error = {}
for field_name in ["name", "email", "street", "zip", "city"]:
if not post.get(field_name):
error[field_name] = 'Missing %s' % field_name
if not (post.get('phone') or post.get('mobile')):
error['phone'] = 'Missing phone or mobile number'
error['mobile'] = 'At least one of phone or mobile is neesed '
if error:
request.session['website_campos_jobber_signup_error'] = error
request.session['website_campos_jobber_signup_default'] = post
return request.redirect('/campos/jobber/signup')
# public user can't create applicants (duh)
env = request.env(user=SUPERUSER_ID)
value = {
'staff': True,
'scoutgroup': False,
'participant': False,
}
for f in ['email', 'name', 'phone', 'street', 'zip', 'city', 'mobile','skype']:
value[f] = post.get(f)
partner_id = env['res.partner'].create(value).id
value = {
'event_id': 1,
'partner_id': partner_id,
'contact_partner_id': partner_id,
'econ_partner_id': partner_id,
}
for f in ['name', 'organization_id', 'staff_qty_pre_reg']:
value[f] = post.get(f)
reg_id = env['event.registration'].create(value).id
value = {
'partner_id': partner_id,
'registration_id': reg_id,
'state' : 'reg',
}
for f in ['committee_id', 'job_id', 'my_comm_contact', 'qualifications', 'workas_planner', 'workas_jobber']:
value[f] = post.get(f)
if post.get('job_id'):
job = env['campos.job'].suspend_security().browse(int(post.get('job_id')))
if job:
value['committee_id'] = job.committee_id.id
if post.get('workas_both'):
value['workas_planner'] = True
value['workas_jobber'] = True
part = env['campos.event.participant'].create(value)
template = part.env.ref('campos_event.request_signupconfirm')
assert template._name == 'email.template'
try:
template.send_mail(part.id)
except:
pass
return request.render("campos_event.jobber_thankyou", {'par': part})
@http.route(
['/campos/jobber/joblist',
'/campos/jobber/joblist/<model("campos.job.tag"):tag>',
'/campos/jobber/jobcom/<model("campos.committee"):comm>'],
type='http', auth="public", website=True)
def jobber_joblist(self, tag=None, comm=None, search=None, **kwargs):
request = http.request
if tag:
jobs = tag.job_ids
list_title = _("Jobs tagged: ") + tag.name
elif comm:
jobs = request.env['campos.job'].search([('active','=', True),('openjob', '=', True), '|',('committee_id', '=', comm.id),('committee_id', 'child_of', comm.id)])
list_title = _("Jobs for: ") + comm.name
elif search:
jobs = request.env['campos.job'].search([('active','=', True),('openjob', '=', True), '|','|','|','|',('name', 'ilike', search),('teaser', 'ilike', search),('desc', 'ilike', search),('committee_id.display_name', 'ilike', search), ('tag_ids.name', 'ilike', search)])
list_title = _("Search Result")
else:
jobs = request.env['campos.job'].search([('active','=', True),('openjob', '=', True)], order='write_date DESC')
list_title = _("Ledige job")
for j in jobs:
_logger.info("job %s %s", j.name, j.openjob)
jobs = jobs.filtered(lambda r: r.openjob == True)
nav_tags = request.env['campos.job.tag'].search([])
nav_tags = nav_tags.filtered(lambda r: any([j.openjob for j in r.job_ids]))
nav_comm = request.env['campos.committee'].search([('parent_id', '=', False),('website_published', '=', True)])
return request.render("campos_event.jobber_latest_jobs", {'jobs' : jobs,
'list_title' : list_title,
'nav_tags' : nav_tags,
'nav_comm' : nav_comm})
@http.route(
['/campos/jobber/view/<model("campos.job"):job>'],
type='http', auth="public", website=True)
def jobber_jobview(self, job=None, **kwargs):
nav_tags = request.env['campos.job.tag'].search([])
nav_tags = nav_tags.filtered(lambda r: any([j.openjob for j in r.job_ids]))
nav_comm = request.env['campos.committee'].search([('parent_id', '=', False),('website_published', '=', True)])
return request.render("campos_event.jobber_job_view", {'job' : job,
'nav_tags' : nav_tags,
'nav_comm' : nav_comm})
@http.route(
['/campos/confirm/<mode>/<token>'],
type='http', auth="public", website=True)
def confirm_reg(self, mode=None, token=None, **kwargs):
request = http.request
error = {}
default = {}
if token:
_logger.info("Token %s", token)
par = request.env['campos.event.participant'].sudo().search([('confirm_token', '=', token)])
if len(par) == 1:
if mode == 'reg':
if par.state == 'reg':
par.sudo().state = 'draft'
return request.render("campos_event.reg_confirmed", {'par': par})
if mode == 'zx':
return request.render("campos_event.zx_confirm_prompt", {'par': par,
'mode': mode,
'token': token,
'error': error,
'default': default,
})
if mode == 'sp':
return request.render("campos_event.sp_confirm_prompt", {'par': par,
'mode': mode,
'token': token,
'error': error,
'default': default,
})
return request.render("campos_event.unknown_token")
@http.route(
['/campos/submit/confirm/<mode>'],
type='http', auth="public", website=True)
def confirm_submit(self, mode=None, **post):
request = http.request
fieldlist = {'sp': ['sharepoint_mailaddress'],
'zx': ['zexpense_firsttime_pwd']}
datefield = {'sp': 'sharepoint_mail_created',
'zx': 'zexpense_access_created'}
env = request.env(user=SUPERUSER_ID)
if post:
_logger.info('Confirm par: %d', post.get('par_id'))
par = env['campos.event.participant'].browse(int(post.get('par_id')))
values = {}
for f in fieldlist[mode]:
values[f] = post.get(f)
values[datefield[mode]] = fields.Date.today()
_logger.info("Confirm par val %s", values)
par.write(values)
return request.render("campos_event.participant updated", {'par': par})
return request.render("campos_event.unknown_token")
@http.route(['/campos/jobber/ask',
'/campos/jobber/ask/<model("campos.job"):job>'],
type='http', auth="public", website=True)
def jobs_ask(self, job=None, **post):
error = {}
default = {}
if post:
for field_name in ["name", "email", "description"]:
if not post.get(field_name):
error[field_name] = 'Missing %s' % field_name
default[field_name] = post.get(field_name, False)
if not error:
# public user can't create applicants (duh)
env = request.env(user=SUPERUSER_ID)
job = env['campos.job'].search([('id', '=', int(post.get('job_id')))])
if job.par_contact_id:
user = env['res.users'].sudo().search([('participant_id', '=', job.par_contact_id.id)]).id
else:
user = False
value = {
'name': "WEB Question re %s" % job.name,
'email_from': "%s <%s>" % (post.get('name'), post.get('email')),
'description': post.get('description'),
'project_id': env.ref('campos_event.project_job_ask').id,
'user_id': user,
'model_reference': '%s,%d' % ('campos.job', job.id)
}
env['project.issue'].create(value)
return request.render("campos_event.jobber_job_ask_thankyou")
return request.render("campos_event.jobber_job_ask", {'error': error,
'default': default,
'job': job,})
# Jobbers from Scout Groups to "Jobpulje"
@http.route(
['/campos/jobpulje/signup',
],
type='http', auth="public", website=True)
def jobpulje_signup(self, **kwargs):
error = {}
default = {'staff_qty_pre_reg': '1'}
comm_id = False
scoutorg_id = False
if 'website_campos_jobber_signup_error' in request.session:
error = request.session.pop('website_campos_jobber_signup_error')
default = request.session.pop(
'website_campos_jobber_signup_default')
return request.render("campos_event.jobpulje_signup", {
'error': error,
'default': default,
})
@http.route('/campos/jobpulje/thankyou',
methods=['POST'], type='http', auth="public", website=True)
def jobpulje_thankyou(self, **post):
error = {}
_logger.info('MyPOST %s', post)
for field_name in ["name", "email", "street", "zip", "city"]:
if not post.get(field_name):
error[field_name] = 'Missing %s' % field_name
if not (post.get('phone') or post.get('mobile')):
error['phone'] = 'Missing phone or mobile number'
error['mobile'] = 'At least one of phone or mobile is neesed '
birthdate = False
cpr = False
try:
year = post.get('cpr_number')[4:6]
if year > '17':
year = '19%s' % year
else:
year = '20%s' % year
date_tx = '%s%s' % (post.get('cpr_number')[:4], year)
birthdate = datetime.datetime.strptime(date_tx, '%d%m%Y')
cpr = post.get('cpr_number')[-4:]
except:
error['cpr_number'] = 'Invalid date in CPR number'
if error:
request.session['website_campos_jobber_signup_error'] = error
request.session['website_campos_jobber_signup_default'] = post
return request.redirect('/campos/jobpulje/signup')
# public user can't create applicants (duh)
env = request.env(user=SUPERUSER_ID)
value = {
'staff': True,
'scoutgroup': False,
'participant': False,
}
for f in ['email', 'name', 'phone', 'street', 'zip', 'city', 'mobile','skype']:
value[f] = post.get(f)
if value[f]:
value[f] = value[f].strip()
participant_number = post.get('participant_number')
domain = [('birthdate', '=', birthdate.strftime(DEFAULT_SERVER_DATE_FORMAT))]
if value['email']:
domain += [('email', '=ilike', value['email'])]
if participant_number:
participant_number = participant_number.strip()
domain += [('participant_number', '=', participant_number)]
part = False
if len(domain) > 1:
part = env['campos.event.participant'].search(domain)
if part:
part = part[0]
if not part:
partner_id = env['res.partner'].create(value).id
value = {
'event_id': 1,
'partner_id': partner_id,
'contact_partner_id': partner_id,
'econ_partner_id': partner_id,
}
for f in ['name', 'staff_qty_pre_reg']:
value[f] = post.get(f)
reg_id = env['event.registration'].create(value).id
value = {
'partner_id': partner_id,
'registration_id': reg_id,
'birthdate': birthdate,
'state': 'approved',
'signup_state' : 'groupsignup',
'committee_id': 774,
'primary_committee_id': 774,
'transport_to_camp': False,
'transport_from_camp': False,
}
for f in ['committee_id', 'qualifications']:
value[f] = post.get(f)
part = env['campos.event.participant'].create(value)
else:
part.write({'staff': True,
'state': 'draft',
'signup_state' : 'groupsignup',
'committee_id': 774,
'primary_committee_id': 774})
ckr = env['campos.ckr.check'].create({'participant_id': part.id,
'cpr': cpr,
'state': 'sentin'})
env['campos.committee.function'].create({'participant_id': part.id,
'committee_id': part.primary_committee_id.id,
'function_type_id': 39})
message = _('<span>Jobberpulje Signup</span>')
for f in ["participant_number", "name", "email", "street", "zip", "city", "phone", "mobile"]:
message += '<div> • <b>%s</b>: ' % f
message += '%s</div>' % post.get(f)
part.message_post(body=message)
template = part.primary_committee_id.template_id
assert template._name == 'email.template'
try:
template.send_mail(part.id)
except:
_logger.info("New jobberpulje mail %s %s FAILED", part.primary_committee_id.name, part.name)
return request.render("campos_event.jobpulje_thankyou", {'par': part})
# External Jobbers: Partners and Local peaple
@http.route(
['/campos/extern/signup/<string:jobbertype>',
],
type='http', auth="public", website=True)
def extern_signup(self, jobbertype=None, **kwargs):
error = {}
default = {'staff_qty_pre_reg': '1'}
comm_id = False
scoutorg_id = False
committee = request.registry['campos.committee']
if jobbertype == 'extpartner':
committee_ids = committee.search(
request.cr,
SUPERUSER_ID,
[('extpartner', '=', True)],
context=request.context)
committees = committee.browse(
request.cr,
SUPERUSER_ID,
committee_ids,
context=request.context)
else:
committees = False
env = request.env(user=SUPERUSER_ID)
days = env['event.day'].search([])
jobs = request.env['campos.job'].search([('active','=', True),('publish_local', '=', True)])
if 'website_campos_jobber_signup_error' in request.session:
error = request.session.pop('website_campos_jobber_signup_error')
default = request.session.pop(
'website_campos_jobber_signup_default')
return request.render("campos_event.extern_signup_%s" % (jobbertype), {
'committees': committees,
'jobs': jobs,
'error': error,
'default': default,
'type': jobbertype,
'days': days,
})
@http.route('/campos/extern/thankyou',
methods=['POST'], type='http', auth="public", website=True)
def extern_thankyou(self, **post):
error = {}
_logger.info('MyPOST %s', post)
for field_name in ["name", "email", "street", "zip", "city"]:
if not post.get(field_name):
error[field_name] = 'Missing %s' % field_name
if not (post.get('phone') or post.get('mobile')):
error['phone'] = 'Missing phone or mobile number'
error['mobile'] = 'At least one of phone or mobile is neesed '
birthdate = False
cpr = False
try:
year = post.get('cpr_number')[4:6]
if year > '17':
year = '19%s' % year
else:
year = '20%s' % year
date_tx = '%s%s' % (post.get('cpr_number')[:4], year)
birthdate = datetime.datetime.strptime(date_tx, '%d%m%Y')
cpr = post.get('cpr_number')[-4:]
except:
error['cpr_number'] = 'Invalid date in CPR number'
if error:
request.session['website_campos_jobber_signup_error'] = error
request.session['website_campos_jobber_signup_default'] = post
return request.redirect('/campos/extern/signup/%s' % post.get('type'))
# public user can't create applicants (duh)
env = request.env(user=SUPERUSER_ID)
value = {
'staff': True,
'scoutgroup': False,
'participant': False,
}
for f in ['email', 'name', 'phone', 'street', 'zip', 'city', 'mobile','skype']:
value[f] = post.get(f)
partner_id = env['res.partner'].create(value).id
value = {
'event_id': 1,
'partner_id': partner_id,
'contact_partner_id': partner_id,
'econ_partner_id': partner_id,
}
for f in ['name', 'staff_qty_pre_reg']:
value[f] = post.get(f)
reg_id = env['event.registration'].create(value).id
value = {
'partner_id': partner_id,
'registration_id': reg_id,
'birthdate': birthdate,
'state': 'approved' if post.get('type') =='extpartner' else 'draft',
'signup_state' : 'dayjobber',
'job_id': post.get('job_id'),
'primary_committee_id': post.get('committee_id'),
'transport_to_camp': False,
'transport_from_camp': False,
}
for f in ['committee_id', 'qualifications']:
value[f] = post.get(f)
part = env['campos.event.participant'].create(value)
ckr = env['campos.ckr.check'].create({'participant_id': part.id,
'cpr': cpr,
'state': 'sentin'})
for d in part.camp_day_ids:
d.will_participate = post.get('day_%d' % (d.day_id.id), False)
active_days = part.camp_day_ids.filtered('will_participate').sorted(key=lambda r: r.the_date)
if post.get('car_reg_number', False):
car = env['campos.event.car'].create({'participant_id': part.id,
'reg_number': post.get('car_reg_number', False),
'park_permit_start_date': active_days[0].the_date,
'park_permit_end_date': active_days[-1].the_date,
'phone_number': part.mobile,
})
if post.get('type') =='extpartner':
env['campos.committee.function'].create({'participant_id': part.id,
'committee_id': part.primary_committee_id.id,
'function_type_id': 37})
template = False
if part.primary_committee_id and part.primary_committee_id.template_id:
template = part.primary_committee_id.template_id
else:
template = env.ref('campos_event.default_extern_jobber_mail')
if template:
assert template._name == 'email.template'
try:
template.send_mail(part.id)
except:
_logger.info("New External partner jobber mail %s %s FAILED", part.primary_committee_id.name, part.name)
return request.render("campos_event.extern_thankyou", {'par': part})
| agpl-3.0 |
karan1276/servo | tests/wpt/web-platform-tests/tools/pytest/_pytest/runner.py | 173 | 17105 | """ basic collect and runtest protocol implementations """
import bdb
import sys
from time import time
import py
import pytest
from _pytest._code.code import TerminalRepr, ExceptionInfo
def pytest_namespace():
return {
'fail' : fail,
'skip' : skip,
'importorskip' : importorskip,
'exit' : exit,
}
#
# pytest plugin hooks
def pytest_addoption(parser):
group = parser.getgroup("terminal reporting", "reporting", after="general")
group.addoption('--durations',
action="store", type=int, default=None, metavar="N",
help="show N slowest setup/test durations (N=0 for all)."),
def pytest_terminal_summary(terminalreporter):
durations = terminalreporter.config.option.durations
if durations is None:
return
tr = terminalreporter
dlist = []
for replist in tr.stats.values():
for rep in replist:
if hasattr(rep, 'duration'):
dlist.append(rep)
if not dlist:
return
dlist.sort(key=lambda x: x.duration)
dlist.reverse()
if not durations:
tr.write_sep("=", "slowest test durations")
else:
tr.write_sep("=", "slowest %s test durations" % durations)
dlist = dlist[:durations]
for rep in dlist:
nodeid = rep.nodeid.replace("::()::", "::")
tr.write_line("%02.2fs %-8s %s" %
(rep.duration, rep.when, nodeid))
def pytest_sessionstart(session):
session._setupstate = SetupState()
def pytest_sessionfinish(session):
session._setupstate.teardown_all()
class NodeInfo:
def __init__(self, location):
self.location = location
def pytest_runtest_protocol(item, nextitem):
item.ihook.pytest_runtest_logstart(
nodeid=item.nodeid, location=item.location,
)
runtestprotocol(item, nextitem=nextitem)
return True
def runtestprotocol(item, log=True, nextitem=None):
hasrequest = hasattr(item, "_request")
if hasrequest and not item._request:
item._initrequest()
rep = call_and_report(item, "setup", log)
reports = [rep]
if rep.passed:
reports.append(call_and_report(item, "call", log))
reports.append(call_and_report(item, "teardown", log,
nextitem=nextitem))
# after all teardown hooks have been called
# want funcargs and request info to go away
if hasrequest:
item._request = False
item.funcargs = None
return reports
def pytest_runtest_setup(item):
item.session._setupstate.prepare(item)
def pytest_runtest_call(item):
try:
item.runtest()
except Exception:
# Store trace info to allow postmortem debugging
type, value, tb = sys.exc_info()
tb = tb.tb_next # Skip *this* frame
sys.last_type = type
sys.last_value = value
sys.last_traceback = tb
del tb # Get rid of it in this namespace
raise
def pytest_runtest_teardown(item, nextitem):
item.session._setupstate.teardown_exact(item, nextitem)
def pytest_report_teststatus(report):
if report.when in ("setup", "teardown"):
if report.failed:
# category, shortletter, verbose-word
return "error", "E", "ERROR"
elif report.skipped:
return "skipped", "s", "SKIPPED"
else:
return "", "", ""
#
# Implementation
def call_and_report(item, when, log=True, **kwds):
call = call_runtest_hook(item, when, **kwds)
hook = item.ihook
report = hook.pytest_runtest_makereport(item=item, call=call)
if log:
hook.pytest_runtest_logreport(report=report)
if check_interactive_exception(call, report):
hook.pytest_exception_interact(node=item, call=call, report=report)
return report
def check_interactive_exception(call, report):
return call.excinfo and not (
hasattr(report, "wasxfail") or
call.excinfo.errisinstance(skip.Exception) or
call.excinfo.errisinstance(bdb.BdbQuit))
def call_runtest_hook(item, when, **kwds):
hookname = "pytest_runtest_" + when
ihook = getattr(item.ihook, hookname)
return CallInfo(lambda: ihook(item=item, **kwds), when=when)
class CallInfo:
""" Result/Exception info a function invocation. """
#: None or ExceptionInfo object.
excinfo = None
def __init__(self, func, when):
#: context of invocation: one of "setup", "call",
#: "teardown", "memocollect"
self.when = when
self.start = time()
try:
self.result = func()
except KeyboardInterrupt:
self.stop = time()
raise
except:
self.excinfo = ExceptionInfo()
self.stop = time()
def __repr__(self):
if self.excinfo:
status = "exception: %s" % str(self.excinfo.value)
else:
status = "result: %r" % (self.result,)
return "<CallInfo when=%r %s>" % (self.when, status)
def getslaveinfoline(node):
try:
return node._slaveinfocache
except AttributeError:
d = node.slaveinfo
ver = "%s.%s.%s" % d['version_info'][:3]
node._slaveinfocache = s = "[%s] %s -- Python %s %s" % (
d['id'], d['sysplatform'], ver, d['executable'])
return s
class BaseReport(object):
def __init__(self, **kw):
self.__dict__.update(kw)
def toterminal(self, out):
if hasattr(self, 'node'):
out.line(getslaveinfoline(self.node))
longrepr = self.longrepr
if longrepr is None:
return
if hasattr(longrepr, 'toterminal'):
longrepr.toterminal(out)
else:
try:
out.line(longrepr)
except UnicodeEncodeError:
out.line("<unprintable longrepr>")
def get_sections(self, prefix):
for name, content in self.sections:
if name.startswith(prefix):
yield prefix, content
passed = property(lambda x: x.outcome == "passed")
failed = property(lambda x: x.outcome == "failed")
skipped = property(lambda x: x.outcome == "skipped")
@property
def fspath(self):
return self.nodeid.split("::")[0]
def pytest_runtest_makereport(item, call):
when = call.when
duration = call.stop-call.start
keywords = dict([(x,1) for x in item.keywords])
excinfo = call.excinfo
sections = []
if not call.excinfo:
outcome = "passed"
longrepr = None
else:
if not isinstance(excinfo, ExceptionInfo):
outcome = "failed"
longrepr = excinfo
elif excinfo.errisinstance(pytest.skip.Exception):
outcome = "skipped"
r = excinfo._getreprcrash()
longrepr = (str(r.path), r.lineno, r.message)
else:
outcome = "failed"
if call.when == "call":
longrepr = item.repr_failure(excinfo)
else: # exception in setup or teardown
longrepr = item._repr_failure_py(excinfo,
style=item.config.option.tbstyle)
for rwhen, key, content in item._report_sections:
sections.append(("Captured %s %s" %(key, rwhen), content))
return TestReport(item.nodeid, item.location,
keywords, outcome, longrepr, when,
sections, duration)
class TestReport(BaseReport):
""" Basic test report object (also used for setup and teardown calls if
they fail).
"""
def __init__(self, nodeid, location, keywords, outcome,
longrepr, when, sections=(), duration=0, **extra):
#: normalized collection node id
self.nodeid = nodeid
#: a (filesystempath, lineno, domaininfo) tuple indicating the
#: actual location of a test item - it might be different from the
#: collected one e.g. if a method is inherited from a different module.
self.location = location
#: a name -> value dictionary containing all keywords and
#: markers associated with a test invocation.
self.keywords = keywords
#: test outcome, always one of "passed", "failed", "skipped".
self.outcome = outcome
#: None or a failure representation.
self.longrepr = longrepr
#: one of 'setup', 'call', 'teardown' to indicate runtest phase.
self.when = when
#: list of (secname, data) extra information which needs to
#: marshallable
self.sections = list(sections)
#: time it took to run just the test
self.duration = duration
self.__dict__.update(extra)
def __repr__(self):
return "<TestReport %r when=%r outcome=%r>" % (
self.nodeid, self.when, self.outcome)
class TeardownErrorReport(BaseReport):
outcome = "failed"
when = "teardown"
def __init__(self, longrepr, **extra):
self.longrepr = longrepr
self.sections = []
self.__dict__.update(extra)
def pytest_make_collect_report(collector):
call = CallInfo(collector._memocollect, "memocollect")
longrepr = None
if not call.excinfo:
outcome = "passed"
else:
from _pytest import nose
skip_exceptions = (Skipped,) + nose.get_skip_exceptions()
if call.excinfo.errisinstance(skip_exceptions):
outcome = "skipped"
r = collector._repr_failure_py(call.excinfo, "line").reprcrash
longrepr = (str(r.path), r.lineno, r.message)
else:
outcome = "failed"
errorinfo = collector.repr_failure(call.excinfo)
if not hasattr(errorinfo, "toterminal"):
errorinfo = CollectErrorRepr(errorinfo)
longrepr = errorinfo
rep = CollectReport(collector.nodeid, outcome, longrepr,
getattr(call, 'result', None))
rep.call = call # see collect_one_node
return rep
class CollectReport(BaseReport):
def __init__(self, nodeid, outcome, longrepr, result,
sections=(), **extra):
self.nodeid = nodeid
self.outcome = outcome
self.longrepr = longrepr
self.result = result or []
self.sections = list(sections)
self.__dict__.update(extra)
@property
def location(self):
return (self.fspath, None, self.fspath)
def __repr__(self):
return "<CollectReport %r lenresult=%s outcome=%r>" % (
self.nodeid, len(self.result), self.outcome)
class CollectErrorRepr(TerminalRepr):
def __init__(self, msg):
self.longrepr = msg
def toterminal(self, out):
out.line(self.longrepr, red=True)
class SetupState(object):
""" shared state for setting up/tearing down test items or collectors. """
def __init__(self):
self.stack = []
self._finalizers = {}
def addfinalizer(self, finalizer, colitem):
""" attach a finalizer to the given colitem.
if colitem is None, this will add a finalizer that
is called at the end of teardown_all().
"""
assert colitem and not isinstance(colitem, tuple)
assert py.builtin.callable(finalizer)
#assert colitem in self.stack # some unit tests don't setup stack :/
self._finalizers.setdefault(colitem, []).append(finalizer)
def _pop_and_teardown(self):
colitem = self.stack.pop()
self._teardown_with_finalization(colitem)
def _callfinalizers(self, colitem):
finalizers = self._finalizers.pop(colitem, None)
exc = None
while finalizers:
fin = finalizers.pop()
try:
fin()
except Exception:
# XXX Only first exception will be seen by user,
# ideally all should be reported.
if exc is None:
exc = sys.exc_info()
if exc:
py.builtin._reraise(*exc)
def _teardown_with_finalization(self, colitem):
self._callfinalizers(colitem)
if hasattr(colitem, "teardown"):
colitem.teardown()
for colitem in self._finalizers:
assert colitem is None or colitem in self.stack \
or isinstance(colitem, tuple)
def teardown_all(self):
while self.stack:
self._pop_and_teardown()
for key in list(self._finalizers):
self._teardown_with_finalization(key)
assert not self._finalizers
def teardown_exact(self, item, nextitem):
needed_collectors = nextitem and nextitem.listchain() or []
self._teardown_towards(needed_collectors)
def _teardown_towards(self, needed_collectors):
while self.stack:
if self.stack == needed_collectors[:len(self.stack)]:
break
self._pop_and_teardown()
def prepare(self, colitem):
""" setup objects along the collector chain to the test-method
and teardown previously setup objects."""
needed_collectors = colitem.listchain()
self._teardown_towards(needed_collectors)
# check if the last collection node has raised an error
for col in self.stack:
if hasattr(col, '_prepare_exc'):
py.builtin._reraise(*col._prepare_exc)
for col in needed_collectors[len(self.stack):]:
self.stack.append(col)
try:
col.setup()
except Exception:
col._prepare_exc = sys.exc_info()
raise
def collect_one_node(collector):
ihook = collector.ihook
ihook.pytest_collectstart(collector=collector)
rep = ihook.pytest_make_collect_report(collector=collector)
call = rep.__dict__.pop("call", None)
if call and check_interactive_exception(call, rep):
ihook.pytest_exception_interact(node=collector, call=call, report=rep)
return rep
# =============================================================
# Test OutcomeExceptions and helpers for creating them.
class OutcomeException(Exception):
""" OutcomeException and its subclass instances indicate and
contain info about test and collection outcomes.
"""
def __init__(self, msg=None, pytrace=True):
Exception.__init__(self, msg)
self.msg = msg
self.pytrace = pytrace
def __repr__(self):
if self.msg:
val = self.msg
if isinstance(val, bytes):
val = py._builtin._totext(val, errors='replace')
return val
return "<%s instance>" %(self.__class__.__name__,)
__str__ = __repr__
class Skipped(OutcomeException):
# XXX hackish: on 3k we fake to live in the builtins
# in order to have Skipped exception printing shorter/nicer
__module__ = 'builtins'
class Failed(OutcomeException):
""" raised from an explicit call to pytest.fail() """
__module__ = 'builtins'
class Exit(KeyboardInterrupt):
""" raised for immediate program exits (no tracebacks/summaries)"""
def __init__(self, msg="unknown reason"):
self.msg = msg
KeyboardInterrupt.__init__(self, msg)
# exposed helper methods
def exit(msg):
""" exit testing process as if KeyboardInterrupt was triggered. """
__tracebackhide__ = True
raise Exit(msg)
exit.Exception = Exit
def skip(msg=""):
""" skip an executing test with the given message. Note: it's usually
better to use the pytest.mark.skipif marker to declare a test to be
skipped under certain conditions like mismatching platforms or
dependencies. See the pytest_skipping plugin for details.
"""
__tracebackhide__ = True
raise Skipped(msg=msg)
skip.Exception = Skipped
def fail(msg="", pytrace=True):
""" explicitly fail an currently-executing test with the given Message.
:arg pytrace: if false the msg represents the full failure information
and no python traceback will be reported.
"""
__tracebackhide__ = True
raise Failed(msg=msg, pytrace=pytrace)
fail.Exception = Failed
def importorskip(modname, minversion=None):
""" return imported module if it has at least "minversion" as its
__version__ attribute. If no minversion is specified the a skip
is only triggered if the module can not be imported.
"""
__tracebackhide__ = True
compile(modname, '', 'eval') # to catch syntaxerrors
try:
__import__(modname)
except ImportError:
skip("could not import %r" %(modname,))
mod = sys.modules[modname]
if minversion is None:
return mod
verattr = getattr(mod, '__version__', None)
if minversion is not None:
try:
from pkg_resources import parse_version as pv
except ImportError:
skip("we have a required version for %r but can not import "
"no pkg_resources to parse version strings." %(modname,))
if verattr is None or pv(verattr) < pv(minversion):
skip("module %r has __version__ %r, required is: %r" %(
modname, verattr, minversion))
return mod
| mpl-2.0 |
ghchinoy/tensorflow | tensorflow/python/kernel_tests/distributions/gamma_test.py | 44 | 15465 | # Copyright 2016 The TensorFlow Authors. All Rights Reserved.
#
# Licensed 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.
# ==============================================================================
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import importlib
import numpy as np
from tensorflow.python.eager import backprop
from tensorflow.python.framework import constant_op
from tensorflow.python.framework import tensor_shape
from tensorflow.python.framework import test_util
from tensorflow.python.ops import math_ops
from tensorflow.python.ops import nn_ops
from tensorflow.python.ops.distributions import gamma as gamma_lib
from tensorflow.python.ops.distributions import kullback_leibler
from tensorflow.python.platform import test
from tensorflow.python.platform import tf_logging
def try_import(name): # pylint: disable=invalid-name
module = None
try:
module = importlib.import_module(name)
except ImportError as e:
tf_logging.warning("Could not import %s: %s" % (name, str(e)))
return module
special = try_import("scipy.special")
stats = try_import("scipy.stats")
@test_util.run_all_in_graph_and_eager_modes
class GammaTest(test.TestCase):
def testGammaShape(self):
alpha = constant_op.constant([3.0] * 5)
beta = constant_op.constant(11.0)
gamma = gamma_lib.Gamma(concentration=alpha, rate=beta)
self.assertEqual(self.evaluate(gamma.batch_shape_tensor()), (5,))
self.assertEqual(gamma.batch_shape, tensor_shape.TensorShape([5]))
self.assertAllEqual(self.evaluate(gamma.event_shape_tensor()), [])
self.assertEqual(gamma.event_shape, tensor_shape.TensorShape([]))
def testGammaLogPDF(self):
batch_size = 6
alpha = constant_op.constant([2.0] * batch_size)
beta = constant_op.constant([3.0] * batch_size)
alpha_v = 2.0
beta_v = 3.0
x = np.array([2.5, 2.5, 4.0, 0.1, 1.0, 2.0], dtype=np.float32)
gamma = gamma_lib.Gamma(concentration=alpha, rate=beta)
log_pdf = gamma.log_prob(x)
self.assertEqual(log_pdf.get_shape(), (6,))
pdf = gamma.prob(x)
self.assertEqual(pdf.get_shape(), (6,))
if not stats:
return
expected_log_pdf = stats.gamma.logpdf(x, alpha_v, scale=1 / beta_v)
self.assertAllClose(self.evaluate(log_pdf), expected_log_pdf)
self.assertAllClose(self.evaluate(pdf), np.exp(expected_log_pdf))
def testGammaLogPDFBoundary(self):
# When concentration = 1, we have an exponential distribution. Check that at
# 0 we have finite log prob.
rate = np.array([0.1, 0.5, 1., 2., 5., 10.], dtype=np.float32)
gamma = gamma_lib.Gamma(concentration=1., rate=rate)
log_pdf = gamma.log_prob(0.)
self.assertAllClose(np.log(rate), self.evaluate(log_pdf))
def testGammaLogPDFMultidimensional(self):
batch_size = 6
alpha = constant_op.constant([[2.0, 4.0]] * batch_size)
beta = constant_op.constant([[3.0, 4.0]] * batch_size)
alpha_v = np.array([2.0, 4.0])
beta_v = np.array([3.0, 4.0])
x = np.array([[2.5, 2.5, 4.0, 0.1, 1.0, 2.0]], dtype=np.float32).T
gamma = gamma_lib.Gamma(concentration=alpha, rate=beta)
log_pdf = gamma.log_prob(x)
log_pdf_values = self.evaluate(log_pdf)
self.assertEqual(log_pdf.get_shape(), (6, 2))
pdf = gamma.prob(x)
pdf_values = self.evaluate(pdf)
self.assertEqual(pdf.get_shape(), (6, 2))
if not stats:
return
expected_log_pdf = stats.gamma.logpdf(x, alpha_v, scale=1 / beta_v)
self.assertAllClose(log_pdf_values, expected_log_pdf)
self.assertAllClose(pdf_values, np.exp(expected_log_pdf))
def testGammaLogPDFMultidimensionalBroadcasting(self):
batch_size = 6
alpha = constant_op.constant([[2.0, 4.0]] * batch_size)
beta = constant_op.constant(3.0)
alpha_v = np.array([2.0, 4.0])
beta_v = 3.0
x = np.array([[2.5, 2.5, 4.0, 0.1, 1.0, 2.0]], dtype=np.float32).T
gamma = gamma_lib.Gamma(concentration=alpha, rate=beta)
log_pdf = gamma.log_prob(x)
log_pdf_values = self.evaluate(log_pdf)
self.assertEqual(log_pdf.get_shape(), (6, 2))
pdf = gamma.prob(x)
pdf_values = self.evaluate(pdf)
self.assertEqual(pdf.get_shape(), (6, 2))
if not stats:
return
expected_log_pdf = stats.gamma.logpdf(x, alpha_v, scale=1 / beta_v)
self.assertAllClose(log_pdf_values, expected_log_pdf)
self.assertAllClose(pdf_values, np.exp(expected_log_pdf))
def testGammaCDF(self):
batch_size = 6
alpha = constant_op.constant([2.0] * batch_size)
beta = constant_op.constant([3.0] * batch_size)
alpha_v = 2.0
beta_v = 3.0
x = np.array([2.5, 2.5, 4.0, 0.1, 1.0, 2.0], dtype=np.float32)
gamma = gamma_lib.Gamma(concentration=alpha, rate=beta)
cdf = gamma.cdf(x)
self.assertEqual(cdf.get_shape(), (6,))
if not stats:
return
expected_cdf = stats.gamma.cdf(x, alpha_v, scale=1 / beta_v)
self.assertAllClose(self.evaluate(cdf), expected_cdf)
def testGammaMean(self):
alpha_v = np.array([1.0, 3.0, 2.5])
beta_v = np.array([1.0, 4.0, 5.0])
gamma = gamma_lib.Gamma(concentration=alpha_v, rate=beta_v)
self.assertEqual(gamma.mean().get_shape(), (3,))
if not stats:
return
expected_means = stats.gamma.mean(alpha_v, scale=1 / beta_v)
self.assertAllClose(self.evaluate(gamma.mean()), expected_means)
def testGammaModeAllowNanStatsIsFalseWorksWhenAllBatchMembersAreDefined(self):
alpha_v = np.array([5.5, 3.0, 2.5])
beta_v = np.array([1.0, 4.0, 5.0])
gamma = gamma_lib.Gamma(concentration=alpha_v, rate=beta_v)
expected_modes = (alpha_v - 1) / beta_v
self.assertEqual(gamma.mode().get_shape(), (3,))
self.assertAllClose(self.evaluate(gamma.mode()), expected_modes)
def testGammaModeAllowNanStatsFalseRaisesForUndefinedBatchMembers(self):
# Mode will not be defined for the first entry.
alpha_v = np.array([0.5, 3.0, 2.5])
beta_v = np.array([1.0, 4.0, 5.0])
gamma = gamma_lib.Gamma(
concentration=alpha_v, rate=beta_v, allow_nan_stats=False)
with self.assertRaisesOpError("x < y"):
self.evaluate(gamma.mode())
def testGammaModeAllowNanStatsIsTrueReturnsNaNforUndefinedBatchMembers(self):
# Mode will not be defined for the first entry.
alpha_v = np.array([0.5, 3.0, 2.5])
beta_v = np.array([1.0, 4.0, 5.0])
gamma = gamma_lib.Gamma(
concentration=alpha_v, rate=beta_v, allow_nan_stats=True)
expected_modes = (alpha_v - 1) / beta_v
expected_modes[0] = np.nan
self.assertEqual(gamma.mode().get_shape(), (3,))
self.assertAllClose(self.evaluate(gamma.mode()), expected_modes)
def testGammaVariance(self):
alpha_v = np.array([1.0, 3.0, 2.5])
beta_v = np.array([1.0, 4.0, 5.0])
gamma = gamma_lib.Gamma(concentration=alpha_v, rate=beta_v)
self.assertEqual(gamma.variance().get_shape(), (3,))
if not stats:
return
expected_variances = stats.gamma.var(alpha_v, scale=1 / beta_v)
self.assertAllClose(self.evaluate(gamma.variance()), expected_variances)
def testGammaStd(self):
alpha_v = np.array([1.0, 3.0, 2.5])
beta_v = np.array([1.0, 4.0, 5.0])
gamma = gamma_lib.Gamma(concentration=alpha_v, rate=beta_v)
self.assertEqual(gamma.stddev().get_shape(), (3,))
if not stats:
return
expected_stddev = stats.gamma.std(alpha_v, scale=1. / beta_v)
self.assertAllClose(self.evaluate(gamma.stddev()), expected_stddev)
def testGammaEntropy(self):
alpha_v = np.array([1.0, 3.0, 2.5])
beta_v = np.array([1.0, 4.0, 5.0])
gamma = gamma_lib.Gamma(concentration=alpha_v, rate=beta_v)
self.assertEqual(gamma.entropy().get_shape(), (3,))
if not stats:
return
expected_entropy = stats.gamma.entropy(alpha_v, scale=1 / beta_v)
self.assertAllClose(self.evaluate(gamma.entropy()), expected_entropy)
def testGammaSampleSmallAlpha(self):
alpha_v = 0.05
beta_v = 1.0
alpha = constant_op.constant(alpha_v)
beta = constant_op.constant(beta_v)
n = 100000
gamma = gamma_lib.Gamma(concentration=alpha, rate=beta)
samples = gamma.sample(n, seed=137)
sample_values = self.evaluate(samples)
self.assertEqual(samples.get_shape(), (n,))
self.assertEqual(sample_values.shape, (n,))
self.assertTrue(self._kstest(alpha_v, beta_v, sample_values))
if not stats:
return
self.assertAllClose(
sample_values.mean(),
stats.gamma.mean(alpha_v, scale=1 / beta_v),
atol=.01)
self.assertAllClose(
sample_values.var(),
stats.gamma.var(alpha_v, scale=1 / beta_v),
atol=.15)
def testGammaSample(self):
alpha_v = 4.0
beta_v = 3.0
alpha = constant_op.constant(alpha_v)
beta = constant_op.constant(beta_v)
n = 100000
gamma = gamma_lib.Gamma(concentration=alpha, rate=beta)
samples = gamma.sample(n, seed=137)
sample_values = self.evaluate(samples)
self.assertEqual(samples.get_shape(), (n,))
self.assertEqual(sample_values.shape, (n,))
self.assertTrue(self._kstest(alpha_v, beta_v, sample_values))
if not stats:
return
self.assertAllClose(
sample_values.mean(),
stats.gamma.mean(alpha_v, scale=1 / beta_v),
atol=.01)
self.assertAllClose(
sample_values.var(),
stats.gamma.var(alpha_v, scale=1 / beta_v),
atol=.15)
def testGammaFullyReparameterized(self):
alpha = constant_op.constant(4.0)
beta = constant_op.constant(3.0)
with backprop.GradientTape() as tape:
tape.watch(alpha)
tape.watch(beta)
gamma = gamma_lib.Gamma(concentration=alpha, rate=beta)
samples = gamma.sample(100)
grad_alpha, grad_beta = tape.gradient(samples, [alpha, beta])
self.assertIsNotNone(grad_alpha)
self.assertIsNotNone(grad_beta)
def testGammaSampleMultiDimensional(self):
alpha_v = np.array([np.arange(1, 101, dtype=np.float32)]) # 1 x 100
beta_v = np.array([np.arange(1, 11, dtype=np.float32)]).T # 10 x 1
gamma = gamma_lib.Gamma(concentration=alpha_v, rate=beta_v)
n = 10000
samples = gamma.sample(n, seed=137)
sample_values = self.evaluate(samples)
self.assertEqual(samples.get_shape(), (n, 10, 100))
self.assertEqual(sample_values.shape, (n, 10, 100))
zeros = np.zeros_like(alpha_v + beta_v) # 10 x 100
alpha_bc = alpha_v + zeros
beta_bc = beta_v + zeros
if not stats:
return
self.assertAllClose(
sample_values.mean(axis=0),
stats.gamma.mean(alpha_bc, scale=1 / beta_bc),
atol=0.,
rtol=.05)
self.assertAllClose(
sample_values.var(axis=0),
stats.gamma.var(alpha_bc, scale=1 / beta_bc),
atol=10.0,
rtol=0.)
fails = 0
trials = 0
for ai, a in enumerate(np.reshape(alpha_v, [-1])):
for bi, b in enumerate(np.reshape(beta_v, [-1])):
s = sample_values[:, bi, ai]
trials += 1
fails += 0 if self._kstest(a, b, s) else 1
self.assertLess(fails, trials * 0.03)
def _kstest(self, alpha, beta, samples):
# Uses the Kolmogorov-Smirnov test for goodness of fit.
if not stats:
return True # If we can't test, return that the test passes.
ks, _ = stats.kstest(samples, stats.gamma(alpha, scale=1 / beta).cdf)
# Return True when the test passes.
return ks < 0.02
def testGammaPdfOfSampleMultiDims(self):
gamma = gamma_lib.Gamma(concentration=[7., 11.], rate=[[5.], [6.]])
num = 50000
samples = gamma.sample(num, seed=137)
pdfs = gamma.prob(samples)
sample_vals, pdf_vals = self.evaluate([samples, pdfs])
self.assertEqual(samples.get_shape(), (num, 2, 2))
self.assertEqual(pdfs.get_shape(), (num, 2, 2))
self._assertIntegral(sample_vals[:, 0, 0], pdf_vals[:, 0, 0], err=0.02)
self._assertIntegral(sample_vals[:, 0, 1], pdf_vals[:, 0, 1], err=0.02)
self._assertIntegral(sample_vals[:, 1, 0], pdf_vals[:, 1, 0], err=0.02)
self._assertIntegral(sample_vals[:, 1, 1], pdf_vals[:, 1, 1], err=0.02)
if not stats:
return
self.assertAllClose(
stats.gamma.mean([[7., 11.], [7., 11.]],
scale=1 / np.array([[5., 5.], [6., 6.]])),
sample_vals.mean(axis=0),
atol=.1)
self.assertAllClose(
stats.gamma.var([[7., 11.], [7., 11.]],
scale=1 / np.array([[5., 5.], [6., 6.]])),
sample_vals.var(axis=0),
atol=.1)
def _assertIntegral(self, sample_vals, pdf_vals, err=1e-3):
s_p = zip(sample_vals, pdf_vals)
prev = (0, 0)
total = 0
for k in sorted(s_p, key=lambda x: x[0]):
pair_pdf = (k[1] + prev[1]) / 2
total += (k[0] - prev[0]) * pair_pdf
prev = k
self.assertNear(1., total, err=err)
def testGammaNonPositiveInitializationParamsRaises(self):
alpha_v = constant_op.constant(0.0, name="alpha")
beta_v = constant_op.constant(1.0, name="beta")
with self.assertRaisesOpError("x > 0"):
gamma = gamma_lib.Gamma(
concentration=alpha_v, rate=beta_v, validate_args=True)
self.evaluate(gamma.mean())
alpha_v = constant_op.constant(1.0, name="alpha")
beta_v = constant_op.constant(0.0, name="beta")
with self.assertRaisesOpError("x > 0"):
gamma = gamma_lib.Gamma(
concentration=alpha_v, rate=beta_v, validate_args=True)
self.evaluate(gamma.mean())
def testGammaWithSoftplusConcentrationRate(self):
alpha_v = constant_op.constant([0.0, -2.1], name="alpha")
beta_v = constant_op.constant([1.0, -3.6], name="beta")
gamma = gamma_lib.GammaWithSoftplusConcentrationRate(
concentration=alpha_v, rate=beta_v)
self.assertAllEqual(
self.evaluate(nn_ops.softplus(alpha_v)),
self.evaluate(gamma.concentration))
self.assertAllEqual(
self.evaluate(nn_ops.softplus(beta_v)), self.evaluate(gamma.rate))
def testGammaGammaKL(self):
alpha0 = np.array([3.])
beta0 = np.array([1., 2., 3., 1.5, 2.5, 3.5])
alpha1 = np.array([0.4])
beta1 = np.array([0.5, 1., 1.5, 2., 2.5, 3.])
# Build graph.
g0 = gamma_lib.Gamma(concentration=alpha0, rate=beta0)
g1 = gamma_lib.Gamma(concentration=alpha1, rate=beta1)
x = g0.sample(int(1e4), seed=0)
kl_sample = math_ops.reduce_mean(g0.log_prob(x) - g1.log_prob(x), 0)
kl_actual = kullback_leibler.kl_divergence(g0, g1)
# Execute graph.
[kl_sample_, kl_actual_] = self.evaluate([kl_sample, kl_actual])
self.assertEqual(beta0.shape, kl_actual.get_shape())
if not special:
return
kl_expected = ((alpha0 - alpha1) * special.digamma(alpha0)
+ special.gammaln(alpha1)
- special.gammaln(alpha0)
+ alpha1 * np.log(beta0)
- alpha1 * np.log(beta1)
+ alpha0 * (beta1 / beta0 - 1.))
self.assertAllClose(kl_expected, kl_actual_, atol=0., rtol=1e-6)
self.assertAllClose(kl_sample_, kl_actual_, atol=0., rtol=1e-1)
if __name__ == "__main__":
test.main()
| apache-2.0 |
kkuunnddaannkk/vispy | vispy/visuals/collections/__init__.py | 21 | 1112 | # -*- coding: utf-8 -*-
# -----------------------------------------------------------------------------
# Copyright (c) 2015, Vispy Development Team.
# Distributed under the (new) BSD License. See LICENSE.txt for more info.
# -----------------------------------------------------------------------------
"""
Collections allow batch rendering of object of the same type:
- Points
- Line segments
- Polylines (paths)
- Raw Triangles
- Polygons
Each collection has several modes:
- raw (point, segment, path, triangle, polygon)
- agg (point, segment, path, polygon)
- agg+ (path, polygon)
Note: Storage of shared attributes requires non-clamped textures which is not
the case on all graphic cards. This means such shared attributes must be
normalized on CPU and scales back on GPU (in shader code).
"""
from . path_collection import PathCollection # noqa
from . point_collection import PointCollection # noqa
from . polygon_collection import PolygonCollection # noqa
from . segment_collection import SegmentCollection # noqa
from . triangle_collection import TriangleCollection # noqa
| bsd-3-clause |
markovmodel/PyEMMA | pyemma/coordinates/data/_base/random_accessible.py | 2 | 5928 | from abc import ABCMeta, abstractmethod
import numpy as np
import numbers
class NotRandomAccessibleException(Exception):
pass
class TrajectoryRandomAccessible(object):
def __init__(self):
super(TrajectoryRandomAccessible, self).__init__()
self._ra_cuboid = NotImplementedRandomAccessStrategy(self)
self._ra_linear_strategy = NotImplementedRandomAccessStrategy(self)
self._ra_linear_itraj_strategy = NotImplementedRandomAccessStrategy(self)
self._ra_jagged = NotImplementedRandomAccessStrategy(self)
self._is_random_accessible = False
@property
def is_random_accessible(self):
"""
Check if self._is_random_accessible is set to true and if all the random access strategies are implemented.
Returns
-------
bool : Returns True if random accessible via strategies and False otherwise.
"""
return self._is_random_accessible and \
not isinstance(self.ra_itraj_cuboid, NotImplementedRandomAccessStrategy) and \
not isinstance(self.ra_linear, NotImplementedRandomAccessStrategy) and \
not isinstance(self.ra_itraj_jagged, NotImplementedRandomAccessStrategy) and \
not isinstance(self.ra_itraj_linear, NotImplementedRandomAccessStrategy)
@property
def ra_itraj_cuboid(self):
"""
Implementation of random access with slicing that can be up to 3-dimensional, where the first dimension
corresponds to the trajectory index, the second dimension corresponds to the frames and the third dimension
corresponds to the dimensions of the frames.
The with the frame slice selected frames will be loaded from each in the trajectory-slice selected trajectories
and then sliced with the dimension slice. For example: The data consists out of three trajectories with length
10, 20, 10, respectively. The slice `data[:, :15, :3]` returns a 3D array of shape (3, 10, 3), where the first
component corresponds to the three trajectories, the second component corresponds to 10 frames (note that
the last 5 frames are being truncated as the other two trajectories only have 10 frames) and the third component
corresponds to the selected first three dimensions.
:return: Returns an object that allows access by slices in the described manner.
"""
if not self._is_random_accessible:
raise NotRandomAccessibleException()
return self._ra_cuboid
@property
def ra_itraj_jagged(self):
"""
Behaves like ra_itraj_cuboid just that the trajectories are not truncated and returned as a list.
:return: Returns an object that allows access by slices in the described manner.
"""
if not self._is_random_accessible:
raise NotRandomAccessibleException()
return self._ra_jagged
@property
def ra_linear(self):
"""
Implementation of random access that takes a (maximal) two-dimensional slice where the first component
corresponds to the frames and the second component corresponds to the dimensions. Here it is assumed that
the frame indexing is contiguous, i.e., the first frame of the second trajectory has the index of the last frame
of the first trajectory plus one.
:return: Returns an object that allows access by slices in the described manner.
"""
if not self._is_random_accessible:
raise NotRandomAccessibleException()
return self._ra_linear_strategy
@property
def ra_itraj_linear(self):
"""
Implementation of random access that takes arguments as the default random access (i.e., up to three dimensions
with trajs, frames and dims, respectively), but which considers the frame indexing to be contiguous. Therefore,
it returns a simple 2D array.
:return: A 2D array of the sliced data containing [frames, dims].
"""
if not self._is_random_accessible:
raise NotRandomAccessibleException()
return self._ra_linear_itraj_strategy
class RandomAccessStrategy(metaclass=ABCMeta):
"""
Abstract parent class for all random access strategies. It holds its corresponding data source and
implements `__getitem__` as well as `__getslice__`, which both get delegated to `_handle_slice`.
"""
def __init__(self, source, max_slice_dimension=-1):
self._source = source
self._max_slice_dimension = max_slice_dimension
@abstractmethod
def _handle_slice(self, idx):
raise NotImplementedError()
@property
def max_slice_dimension(self):
"""
Property that returns how many dimensions the slice can have.
Returns
-------
int : the maximal slice dimension
"""
return self._max_slice_dimension
def __getitem__(self, idx):
return self._handle_slice(idx)
def __getslice__(self, start, stop):
"""For slices of the form data[1:3]."""
return self.__getitem__(slice(start, stop))
def _get_indices(self, item, length):
if isinstance(item, slice):
item = np.array(range(*item.indices(length)))
elif not isinstance(item, np.ndarray):
if isinstance(item, list):
item = np.array(item)
else:
item = np.arange(0, length)[item]
if isinstance(item, numbers.Integral):
item = np.array([item])
return item
def _max(self, elems):
if isinstance(elems, numbers.Integral):
elems = [elems]
return max(elems)
class NotImplementedRandomAccessStrategy(RandomAccessStrategy):
def _handle_slice(self, idx):
raise NotImplementedError("Requested random access strategy is not implemented for the current data source.")
| lgpl-3.0 |
rkokkelk/CouchPotatoServer | libs/suds/sax/attribute.py | 203 | 5788 | # This program is free software; you can redistribute it and/or modify
# it under the terms of the (LGPL) GNU Lesser General Public License as
# published by the Free Software Foundation; either version 3 of the
# License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Library Lesser General Public License for more details at
# ( http://www.gnu.org/licenses/lgpl.html ).
#
# You should have received a copy of the GNU Lesser General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
# written by: Jeff Ortel ( jortel@redhat.com )
"""
Provides XML I{attribute} classes.
"""
import suds.sax
from logging import getLogger
from suds import *
from suds.sax import *
from suds.sax.text import Text
log = getLogger(__name__)
class Attribute:
"""
An XML attribute object.
@ivar parent: The node containing this attribute
@type parent: L{element.Element}
@ivar prefix: The I{optional} namespace prefix.
@type prefix: basestring
@ivar name: The I{unqualified} name of the attribute
@type name: basestring
@ivar value: The attribute's value
@type value: basestring
"""
def __init__(self, name, value=None):
"""
@param name: The attribute's name with I{optional} namespace prefix.
@type name: basestring
@param value: The attribute's value
@type value: basestring
"""
self.parent = None
self.prefix, self.name = splitPrefix(name)
self.setValue(value)
def clone(self, parent=None):
"""
Clone this object.
@param parent: The parent for the clone.
@type parent: L{element.Element}
@return: A copy of this object assigned to the new parent.
@rtype: L{Attribute}
"""
a = Attribute(self.qname(), self.value)
a.parent = parent
return a
def qname(self):
"""
Get the B{fully} qualified name of this attribute
@return: The fully qualified name.
@rtype: basestring
"""
if self.prefix is None:
return self.name
else:
return ':'.join((self.prefix, self.name))
def setValue(self, value):
"""
Set the attributes value
@param value: The new value (may be None)
@type value: basestring
@return: self
@rtype: L{Attribute}
"""
if isinstance(value, Text):
self.value = value
else:
self.value = Text(value)
return self
def getValue(self, default=Text('')):
"""
Get the attributes value with optional default.
@param default: An optional value to be return when the
attribute's has not been set.
@type default: basestring
@return: The attribute's value, or I{default}
@rtype: L{Text}
"""
if self.hasText():
return self.value
else:
return default
def hasText(self):
"""
Get whether the attribute has I{text} and that it is not an empty
(zero length) string.
@return: True when has I{text}.
@rtype: boolean
"""
return ( self.value is not None and len(self.value) )
def namespace(self):
"""
Get the attributes namespace. This may either be the namespace
defined by an optional prefix, or its parent's namespace.
@return: The attribute's namespace
@rtype: (I{prefix}, I{name})
"""
if self.prefix is None:
return Namespace.default
else:
return self.resolvePrefix(self.prefix)
def resolvePrefix(self, prefix):
"""
Resolve the specified prefix to a known namespace.
@param prefix: A declared prefix
@type prefix: basestring
@return: The namespace that has been mapped to I{prefix}
@rtype: (I{prefix}, I{name})
"""
ns = Namespace.default
if self.parent is not None:
ns = self.parent.resolvePrefix(prefix)
return ns
def match(self, name=None, ns=None):
"""
Match by (optional) name and/or (optional) namespace.
@param name: The optional attribute tag name.
@type name: str
@param ns: An optional namespace.
@type ns: (I{prefix}, I{name})
@return: True if matched.
@rtype: boolean
"""
if name is None:
byname = True
else:
byname = ( self.name == name )
if ns is None:
byns = True
else:
byns = ( self.namespace()[1] == ns[1] )
return ( byname and byns )
def __eq__(self, rhs):
""" equals operator """
return rhs is not None and \
isinstance(rhs, Attribute) and \
self.prefix == rhs.name and \
self.name == rhs.name
def __repr__(self):
""" get a string representation """
return \
'attr (prefix=%s, name=%s, value=(%s))' %\
(self.prefix, self.name, self.value)
def __str__(self):
""" get an xml string representation """
return unicode(self).encode('utf-8')
def __unicode__(self):
""" get an xml string representation """
n = self.qname()
if self.hasText():
v = self.value.escape()
else:
v = self.value
return u'%s="%s"' % (n, v)
| gpl-3.0 |
mtesauro/gauntlt-demo | examples/webgoat/vuln-04/http_attack.py | 2 | 1399 | #Python attack file
import requests
import json
url1 = "http://127.0.0.1:8080/WebGoat/login.mvc"
url2 = "http://127.0.0.1:8080/WebGoat/j_spring_security_check"
payload = {'username':'guest','password':'guest'}
session = requests.Session()
first_request = session.get(url1)
login = session.post(url2, data=payload)
url3 = "http://127.0.0.1:8080/WebGoat/service/lessonmenu.mvc"
second_request = session.get(url3)
text = second_request.text
i = text.index("Discover Clues in the HTML")
text = text[i:]
j = text.index('link') + 7
text = text[j:]
k = text.index('"')
text = text[:k]
# Send the attack string to WebGoat to get the exercise's response
url4 = "http://127.0.0.1:8080/WebGoat/" + text
third = session.get(url4)
third_response = third.text
#Parse the response to get the username and password
i = third_response.index('<!-- FIXME') + 11
third_response = third_response[i:]
j = third_response.index(':')
username = third_response[:j]
third_response = third_response[j+1:]
k = third_response.index('-->')
password = third_response[:k]
#log into the exercise using the found username and password
payload2 = {'Username':username,'Password':password}
login2 = session.post(url4, data=payload2)
#confirm is was successful
fourth = session.get(url3)
confirm_text = fourth.text
i = confirm_text.find("true")
if i is not -1:
print 'Vulnerability Exploited'
else:
print 'Success'
| mit |
beomyeol/models | neural_gpu/wmt_utils.py | 3 | 16405 | # Copyright 2015 Google Inc. All Rights Reserved.
#
# Licensed 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.
# ==============================================================================
"""Utilities for downloading data from WMT, tokenizing, vocabularies."""
import gzip
import os
import re
import tarfile
from six.moves import urllib
import tensorflow as tf
# Special vocabulary symbols - we always put them at the start.
_PAD = b"_PAD"
_GO = b"_GO"
_EOS = b"_EOS"
_UNK = b"_CHAR_UNK"
_SPACE = b"_SPACE"
_START_VOCAB = [_PAD, _GO, _EOS, _UNK, _SPACE]
PAD_ID = 0
GO_ID = 1
EOS_ID = 2
UNK_ID = 3
SPACE_ID = 4
# Regular expressions used to tokenize.
_CHAR_MARKER = "_CHAR_"
_CHAR_MARKER_LEN = len(_CHAR_MARKER)
_SPEC_CHARS = "" + chr(226) + chr(153) + chr(128)
_PUNCTUATION = "][.,!?\"':;%$#@&*+}{|><=/^~)(_`,0123456789" + _SPEC_CHARS + "-"
_WORD_SPLIT = re.compile(b"([" + _PUNCTUATION + "])")
_OLD_WORD_SPLIT = re.compile(b"([.,!?\"':;)(])")
_DIGIT_RE = re.compile(br"\d")
# URLs for WMT data.
_WMT_ENFR_TRAIN_URL = "http://www.statmt.org/wmt10/training-giga-fren.tar"
_WMT_ENFR_DEV_URL = "http://www.statmt.org/wmt15/dev-v2.tgz"
def maybe_download(directory, filename, url):
"""Download filename from url unless it's already in directory."""
if not tf.gfile.Exists(directory):
print "Creating directory %s" % directory
os.mkdir(directory)
filepath = os.path.join(directory, filename)
if not tf.gfile.Exists(filepath):
print "Downloading %s to %s" % (url, filepath)
filepath, _ = urllib.request.urlretrieve(url, filepath)
statinfo = os.stat(filepath)
print "Succesfully downloaded", filename, statinfo.st_size, "bytes"
return filepath
def gunzip_file(gz_path, new_path):
"""Unzips from gz_path into new_path."""
print "Unpacking %s to %s" % (gz_path, new_path)
with gzip.open(gz_path, "rb") as gz_file:
with open(new_path, "wb") as new_file:
for line in gz_file:
new_file.write(line)
def get_wmt_enfr_train_set(directory):
"""Download the WMT en-fr training corpus to directory unless it's there."""
train_path = os.path.join(directory, "giga-fren.release2.fixed")
if not (tf.gfile.Exists(train_path +".fr") and
tf.gfile.Exists(train_path +".en")):
corpus_file = maybe_download(directory, "training-giga-fren.tar",
_WMT_ENFR_TRAIN_URL)
print "Extracting tar file %s" % corpus_file
with tarfile.open(corpus_file, "r") as corpus_tar:
corpus_tar.extractall(directory)
gunzip_file(train_path + ".fr.gz", train_path + ".fr")
gunzip_file(train_path + ".en.gz", train_path + ".en")
return train_path
def get_wmt_enfr_dev_set(directory):
"""Download the WMT en-fr training corpus to directory unless it's there."""
dev_name = "newstest2013"
dev_path = os.path.join(directory, dev_name)
if not (tf.gfile.Exists(dev_path + ".fr") and
tf.gfile.Exists(dev_path + ".en")):
dev_file = maybe_download(directory, "dev-v2.tgz", _WMT_ENFR_DEV_URL)
print "Extracting tgz file %s" % dev_file
with tarfile.open(dev_file, "r:gz") as dev_tar:
fr_dev_file = dev_tar.getmember("dev/" + dev_name + ".fr")
en_dev_file = dev_tar.getmember("dev/" + dev_name + ".en")
fr_dev_file.name = dev_name + ".fr" # Extract without "dev/" prefix.
en_dev_file.name = dev_name + ".en"
dev_tar.extract(fr_dev_file, directory)
dev_tar.extract(en_dev_file, directory)
return dev_path
def is_char(token):
if len(token) > _CHAR_MARKER_LEN:
if token[:_CHAR_MARKER_LEN] == _CHAR_MARKER:
return True
return False
def basic_detokenizer(tokens):
"""Reverse the process of the basic tokenizer below."""
result = []
previous_nospace = True
for t in tokens:
if is_char(t):
result.append(t[_CHAR_MARKER_LEN:])
previous_nospace = True
elif t == _SPACE:
result.append(" ")
previous_nospace = True
elif previous_nospace:
result.append(t)
previous_nospace = False
else:
result.extend([" ", t])
previous_nospace = False
return "".join(result)
old_style = False
def basic_tokenizer(sentence):
"""Very basic tokenizer: split the sentence into a list of tokens."""
words = []
if old_style:
for space_separated_fragment in sentence.strip().split():
words.extend(re.split(_OLD_WORD_SPLIT, space_separated_fragment))
return [w for w in words if w]
for space_separated_fragment in sentence.strip().split():
tokens = [t for t in re.split(_WORD_SPLIT, space_separated_fragment) if t]
first_is_char = False
for i, t in enumerate(tokens):
if len(t) == 1 and t in _PUNCTUATION:
tokens[i] = _CHAR_MARKER + t
if i == 0:
first_is_char = True
if words and words[-1] != _SPACE and (first_is_char or is_char(words[-1])):
tokens = [_SPACE] + tokens
spaced_tokens = []
for i, tok in enumerate(tokens):
spaced_tokens.append(tokens[i])
if i < len(tokens) - 1:
if tok != _SPACE and not (is_char(tok) or is_char(tokens[i+1])):
spaced_tokens.append(_SPACE)
words.extend(spaced_tokens)
return words
def space_tokenizer(sentence):
return sentence.strip().split()
def is_pos_tag(token):
"""Check if token is a part-of-speech tag."""
return(token in ["CC", "CD", "DT", "EX", "FW", "IN", "JJ", "JJR",
"JJS", "LS", "MD", "NN", "NNS", "NNP", "NNPS", "PDT",
"POS", "PRP", "PRP$", "RB", "RBR", "RBS", "RP", "SYM", "TO",
"UH", "VB", "VBD", "VBG", "VBN", "VBP", "VBZ", "WDT", "WP",
"WP$", "WRB", ".", ",", ":", ")", "-LRB-", "(", "-RRB-",
"HYPH", "$", "``", "''", "ADD", "AFX", "QTR", "BES", "-DFL-",
"GW", "HVS", "NFP"])
def parse_constraints(inpt, res):
ntags = len(res)
nwords = len(inpt)
npostags = len([x for x in res if is_pos_tag(x)])
nclose = len([x for x in res if x[0] == "/"])
nopen = ntags - nclose - npostags
return (abs(npostags - nwords), abs(nclose - nopen))
def create_vocabulary(vocabulary_path, data_path, max_vocabulary_size,
tokenizer=None, normalize_digits=False):
"""Create vocabulary file (if it does not exist yet) from data file.
Data file is assumed to contain one sentence per line. Each sentence is
tokenized and digits are normalized (if normalize_digits is set).
Vocabulary contains the most-frequent tokens up to max_vocabulary_size.
We write it to vocabulary_path in a one-token-per-line format, so that later
token in the first line gets id=0, second line gets id=1, and so on.
Args:
vocabulary_path: path where the vocabulary will be created.
data_path: data file that will be used to create vocabulary.
max_vocabulary_size: limit on the size of the created vocabulary.
tokenizer: a function to use to tokenize each data sentence;
if None, basic_tokenizer will be used.
normalize_digits: Boolean; if true, all digits are replaced by 0s.
"""
if not tf.gfile.Exists(vocabulary_path):
print "Creating vocabulary %s from data %s" % (vocabulary_path, data_path)
vocab, chars = {}, {}
for c in _PUNCTUATION:
chars[c] = 1
# Read French file.
with tf.gfile.GFile(data_path + ".fr", mode="rb") as f:
counter = 0
for line_in in f:
line = " ".join(line_in.split())
counter += 1
if counter % 100000 == 0:
print " processing fr line %d" % counter
for c in line:
if c in chars:
chars[c] += 1
else:
chars[c] = 1
tokens = tokenizer(line) if tokenizer else basic_tokenizer(line)
tokens = [t for t in tokens if not is_char(t) and t != _SPACE]
for w in tokens:
word = re.sub(_DIGIT_RE, b"0", w) if normalize_digits else w
if word in vocab:
vocab[word] += 1000000000 # We want target words first.
else:
vocab[word] = 1000000000
# Read English file.
with tf.gfile.GFile(data_path + ".en", mode="rb") as f:
counter = 0
for line_in in f:
line = " ".join(line_in.split())
counter += 1
if counter % 100000 == 0:
print " processing en line %d" % counter
for c in line:
if c in chars:
chars[c] += 1
else:
chars[c] = 1
tokens = tokenizer(line) if tokenizer else basic_tokenizer(line)
tokens = [t for t in tokens if not is_char(t) and t != _SPACE]
for w in tokens:
word = re.sub(_DIGIT_RE, b"0", w) if normalize_digits else w
if word in vocab:
vocab[word] += 1
else:
vocab[word] = 1
sorted_vocab = sorted(vocab, key=vocab.get, reverse=True)
sorted_chars = sorted(chars, key=vocab.get, reverse=True)
sorted_chars = [_CHAR_MARKER + c for c in sorted_chars]
vocab_list = _START_VOCAB + sorted_chars + sorted_vocab
if tokenizer:
vocab_list = _START_VOCAB + sorted_vocab
if len(vocab_list) > max_vocabulary_size:
vocab_list = vocab_list[:max_vocabulary_size]
with tf.gfile.GFile(vocabulary_path, mode="wb") as vocab_file:
for w in vocab_list:
vocab_file.write(w + b"\n")
def initialize_vocabulary(vocabulary_path):
"""Initialize vocabulary from file.
We assume the vocabulary is stored one-item-per-line, so a file:
dog
cat
will result in a vocabulary {"dog": 0, "cat": 1}, and this function will
also return the reversed-vocabulary ["dog", "cat"].
Args:
vocabulary_path: path to the file containing the vocabulary.
Returns:
a pair: the vocabulary (a dictionary mapping string to integers), and
the reversed vocabulary (a list, which reverses the vocabulary mapping).
Raises:
ValueError: if the provided vocabulary_path does not exist.
"""
if tf.gfile.Exists(vocabulary_path):
rev_vocab = []
with tf.gfile.GFile(vocabulary_path, mode="rb") as f:
rev_vocab.extend(f.readlines())
rev_vocab = [line.strip() for line in rev_vocab]
vocab = dict([(x, y) for (y, x) in enumerate(rev_vocab)])
return vocab, rev_vocab
else:
raise ValueError("Vocabulary file %s not found.", vocabulary_path)
def sentence_to_token_ids_raw(sentence, vocabulary,
tokenizer=None, normalize_digits=old_style):
"""Convert a string to list of integers representing token-ids.
For example, a sentence "I have a dog" may become tokenized into
["I", "have", "a", "dog"] and with vocabulary {"I": 1, "have": 2,
"a": 4, "dog": 7"} this function will return [1, 2, 4, 7].
Args:
sentence: the sentence in bytes format to convert to token-ids.
vocabulary: a dictionary mapping tokens to integers.
tokenizer: a function to use to tokenize each sentence;
if None, basic_tokenizer will be used.
normalize_digits: Boolean; if true, all digits are replaced by 0s.
Returns:
a list of integers, the token-ids for the sentence.
"""
if tokenizer:
words = tokenizer(sentence)
else:
words = basic_tokenizer(sentence)
result = []
for w in words:
if normalize_digits:
w = re.sub(_DIGIT_RE, b"0", w)
if w in vocabulary:
result.append(vocabulary[w])
else:
if tokenizer:
result.append(UNK_ID)
else:
result.append(SPACE_ID)
for c in w:
result.append(vocabulary.get(_CHAR_MARKER + c, UNK_ID))
result.append(SPACE_ID)
while result and result[0] == SPACE_ID:
result = result[1:]
while result and result[-1] == SPACE_ID:
result = result[:-1]
return result
def sentence_to_token_ids(sentence, vocabulary,
tokenizer=None, normalize_digits=old_style):
"""Convert a string to list of integers representing token-ids, tab=0."""
tab_parts = sentence.strip().split("\t")
toks = [sentence_to_token_ids_raw(t, vocabulary, tokenizer, normalize_digits)
for t in tab_parts]
res = []
for t in toks:
res.extend(t)
res.append(0)
return res[:-1]
def data_to_token_ids(data_path, target_path, vocabulary_path,
tokenizer=None, normalize_digits=False):
"""Tokenize data file and turn into token-ids using given vocabulary file.
This function loads data line-by-line from data_path, calls the above
sentence_to_token_ids, and saves the result to target_path. See comment
for sentence_to_token_ids on the details of token-ids format.
Args:
data_path: path to the data file in one-sentence-per-line format.
target_path: path where the file with token-ids will be created.
vocabulary_path: path to the vocabulary file.
tokenizer: a function to use to tokenize each sentence;
if None, basic_tokenizer will be used.
normalize_digits: Boolean; if true, all digits are replaced by 0s.
"""
if not tf.gfile.Exists(target_path):
print "Tokenizing data in %s" % data_path
vocab, _ = initialize_vocabulary(vocabulary_path)
with tf.gfile.GFile(data_path, mode="rb") as data_file:
with tf.gfile.GFile(target_path, mode="w") as tokens_file:
counter = 0
for line in data_file:
counter += 1
if counter % 100000 == 0:
print " tokenizing line %d" % counter
token_ids = sentence_to_token_ids(line, vocab, tokenizer,
normalize_digits)
tokens_file.write(" ".join([str(tok) for tok in token_ids]) + "\n")
def prepare_wmt_data(data_dir, vocabulary_size,
tokenizer=None, normalize_digits=False):
"""Get WMT data into data_dir, create vocabularies and tokenize data.
Args:
data_dir: directory in which the data sets will be stored.
vocabulary_size: size of the joint vocabulary to create and use.
tokenizer: a function to use to tokenize each data sentence;
if None, basic_tokenizer will be used.
normalize_digits: Boolean; if true, all digits are replaced by 0s.
Returns:
A tuple of 6 elements:
(1) path to the token-ids for English training data-set,
(2) path to the token-ids for French training data-set,
(3) path to the token-ids for English development data-set,
(4) path to the token-ids for French development data-set,
(5) path to the vocabulary file,
(6) path to the vocabulary file (for compatibility with non-joint vocab).
"""
# Get wmt data to the specified directory.
train_path = get_wmt_enfr_train_set(data_dir)
dev_path = get_wmt_enfr_dev_set(data_dir)
# Create vocabularies of the appropriate sizes.
vocab_path = os.path.join(data_dir, "vocab%d.txt" % vocabulary_size)
create_vocabulary(vocab_path, train_path, vocabulary_size,
tokenizer=tokenizer, normalize_digits=normalize_digits)
# Create token ids for the training data.
fr_train_ids_path = train_path + (".ids%d.fr" % vocabulary_size)
en_train_ids_path = train_path + (".ids%d.en" % vocabulary_size)
data_to_token_ids(train_path + ".fr", fr_train_ids_path, vocab_path,
tokenizer=tokenizer, normalize_digits=normalize_digits)
data_to_token_ids(train_path + ".en", en_train_ids_path, vocab_path,
tokenizer=tokenizer, normalize_digits=normalize_digits)
# Create token ids for the development data.
fr_dev_ids_path = dev_path + (".ids%d.fr" % vocabulary_size)
en_dev_ids_path = dev_path + (".ids%d.en" % vocabulary_size)
data_to_token_ids(dev_path + ".fr", fr_dev_ids_path, vocab_path,
tokenizer=tokenizer, normalize_digits=normalize_digits)
data_to_token_ids(dev_path + ".en", en_dev_ids_path, vocab_path,
tokenizer=tokenizer, normalize_digits=normalize_digits)
return (en_train_ids_path, fr_train_ids_path,
en_dev_ids_path, fr_dev_ids_path,
vocab_path, vocab_path)
| apache-2.0 |
hakehuang/rt-thread | bsp/beaglebone/rtconfig.py | 28 | 2652 | import os
# toolchains options
ARCH='arm'
CPU='am335x'
CROSS_TOOL='gcc'
if os.getenv('RTT_CC'):
CROSS_TOOL = os.getenv('RTT_CC')
if CROSS_TOOL == 'gcc':
PLATFORM = 'gcc'
EXEC_PATH = r'C:\Program Files (x86)\CodeSourcery\Sourcery_CodeBench_Lite_for_ARM_EABI\bin'
elif CROSS_TOOL == 'keil':
PLATFORM = 'armcc'
EXEC_PATH = 'C:/Keil'
elif CROSS_TOOL == 'iar':
print '================ERROR============================'
print 'Not support IAR yet!'
print '================================================='
exit(0)
if os.getenv('RTT_EXEC_PATH'):
EXEC_PATH = os.getenv('RTT_EXEC_PATH')
BUILD = 'debug'
if PLATFORM == 'gcc':
# toolchains
PREFIX = 'arm-none-eabi-'
CC = PREFIX + 'gcc'
CXX = PREFIX + 'g++'
AS = PREFIX + 'gcc'
AR = PREFIX + 'ar'
LINK = PREFIX + 'gcc'
TARGET_EXT = 'elf'
SIZE = PREFIX + 'size'
OBJDUMP = PREFIX + 'objdump'
OBJCPY = PREFIX + 'objcopy'
DEVICE = ' -Wall -march=armv7-a -mtune=cortex-a8'+\
' -ftree-vectorize -ffast-math -mfpu=vfpv3-d16 -mfloat-abi=softfp'
#DEVICE = ' '
CFLAGS = DEVICE
AFLAGS = ' -c' + DEVICE + ' -x assembler-with-cpp -D__ASSEMBLY__'
LFLAGS = DEVICE + ' -Wl,--gc-sections,-Map=rtthread-beaglebone.map,-cref,-u,Reset_Handler -T beaglebone_ram.lds'
CPATH = ''
LPATH = ''
if BUILD == 'debug':
CFLAGS += ' -O0 -gdwarf-2 -Wall'
AFLAGS += ' -gdwarf-2'
else:
CFLAGS += ' -O2 -Wall'
POST_ACTION = OBJCPY + ' -O binary $TARGET rtthread.bin\n' +\
SIZE + ' $TARGET \n'
elif PLATFORM == 'armcc':
# toolchains
CC = 'armcc'
CXX = 'armcc'
AS = 'armasm'
AR = 'armar'
LINK = 'armlink'
TARGET_EXT = 'axf'
DEVICE = ' --device DARMP'
CFLAGS = DEVICE + ' --apcs=interwork'
AFLAGS = DEVICE
LFLAGS = DEVICE + ' --info sizes --info totals --info unused --info veneers --list rtthread-beaglebone.map --scatter beaglebone_ram.sct'
CFLAGS += ' -I' + EXEC_PATH + '/ARM/RV31/INC'
LFLAGS += ' --libpath ' + EXEC_PATH + '/ARM/RV31/LIB'
EXEC_PATH += '/arm/bin40/'
if BUILD == 'debug':
CFLAGS += ' -g -O0'
AFLAGS += ' -g'
else:
CFLAGS += ' -O2'
POST_ACTION = 'fromelf --bin $TARGET --output rtthread.bin \nfromelf -z $TARGET'
elif PLATFORM == 'iar':
# toolchains
CC = 'iccarm'
AS = 'iasmarm'
AR = 'iarchive'
LINK = 'ilinkarm'
TARGET_EXT = 'out'
DEVICE = ' --cpu DARMP'
CFLAGS = ''
AFLAGS = ''
LFLAGS = ' --config beaglebone_ram.icf'
EXEC_PATH += '/arm/bin/'
RT_USING_MINILIBC = False
POST_ACTION = ''
| gpl-2.0 |
andela-brotich/CP2-bucket-list-api | app/mod_bucketlists/controller.py | 2 | 10484 | from flask import Blueprint, request, jsonify, abort
from flask import url_for
from flask_httpauth import HTTPTokenAuth
from itsdangerous import BadTimeSignature, BadSignature
from app import token_signer, db, app
from app.mod_auth.models import User
from app.mod_bucketlists.models import BucketList, BucketListItem
"""
Creates the bucketlist and manipulates the items in the bucketlist
"""
mod_bucketlists = Blueprint('bucketlists', __name__, url_prefix='/bucketlists')
auth = HTTPTokenAuth('Token')
user_id = None
@app.errorhandler(401)
def custom401(error):
return jsonify(error.description), 401
@app.errorhandler(403)
def custom400(error):
return jsonify(error.description), 403
@auth.verify_token
def verify_token(token):
"""Receives token and verifies it, the username
must return True or error response"""
if token:
try:
user_name = token_signer.unsign(token)
user = User.query.filter_by(username=user_name.decode()).scalar()
if user:
global user_id
user_id = user.id
if token != user.token.decode():
abort(403, {
'error': {
'message': 'expired token supplied'
}
})
return True
except (BadTimeSignature, BadSignature):
abort(403, {
'error': {
'message': 'invalid token supplied'
}
})
return abort(401, {
'error': {
'message': 'no token to submitted'
}
})
@mod_bucketlists.route('/', methods=['GET'])
@auth.login_required
def get_bucketlists():
page_no = request.args.get('pag_no', 1)
limit = request.args.get('limit', 20)
search_name = request.args.get('q', '')
bucket_lists = BucketList.query.filter_by(created_by=user_id) \
.filter(BucketList.name.like('%{}%'.format(search_name))) \
.paginate(int(page_no), int(limit))
return jsonify({
'data': [
{
'id': bucket_list.id,
'name': bucket_list.name,
'created_by': bucket_list.created_by,
'date_created': bucket_list.date_created,
'date_modified': bucket_list.date_modified
} for bucket_list in bucket_lists.items
],
'next': '{}?q={}&limit={}&page={}'.format(
str(url_for('bucketlists.get_bucketlists', _external=True)),
str(search_name),
str(limit),
str(page_no + 1)) if bucket_lists.has_next else None,
'prev': '{}?q={}&limit={}&page={}'.format(
str(url_for('bucketlists.get_bucketlists', _external=True)),
str(search_name),
str(limit),
str(page_no - 1)) if bucket_lists.has_prev else None
})
@mod_bucketlists.route('/', methods=['POST'])
@auth.login_required
def create_bucketlist():
"""
Creates and views the bucketlist
Returns:
JSON file with the bucketlist, 201 on create and 200 on retrieve
"""
bucketlist_name = request.form.get('bucket_name')
if BucketList.query.filter_by(name=bucketlist_name).scalar():
return abort(400, {
'error': {
'message': 'bucket with same name already exists'
}
})
bucket_list = BucketList(bucketlist_name, user_id)
bucket_list.save()
bucket_list.refresh_from_db()
return jsonify({
'data': {
'id': bucket_list.id,
'name': bucket_list.name,
'created_by': bucket_list.created_by,
'date_created': bucket_list.date_created,
'date_modified': bucket_list.date_modified
}
}), 201
@mod_bucketlists.route('/<id>', methods=['GET'])
@auth.login_required
def get_bucketlist(id):
bucket_list = BucketList.query.filter_by(id=id, created_by=user_id).scalar()
if not bucket_list:
return jsonify({
'error': {
'message': 'bucket list not found'
}
}), 404
bucket_list_items = BucketListItem.query.filter_by(bucketlist_id=bucket_list.id).all()
return jsonify({
'data': {
'id': bucket_list.id,
'name': bucket_list.name,
'date_created': bucket_list.date_created,
'date_modified': bucket_list.date_modified,
'created_by': bucket_list.created_by,
'items': [
{
'id': bucket_list_item.id,
'name': bucket_list_item.name,
'date_created': bucket_list_item.date_created,
'date_modified': bucket_list_item.date_modified,
'done': bucket_list_item.done
} for bucket_list_item in bucket_list_items
]
}
})
@mod_bucketlists.route('/<id>', methods=['PUT'])
@auth.login_required
def update_bucketlist(id):
bucket_list = BucketList.query.filter_by(id=id, created_by=user_id).scalar()
if not bucket_list:
return jsonify({
'error': {
'message': 'bucket list not found'
}
}), 404
new_bucketlist_name = request.form.get('name')
if not new_bucketlist_name:
return abort(400, {
'error': {
'message': 'name data field missing/empty from POST request'
}
})
if new_bucketlist_name == bucket_list.name:
return abort(403, {
'error': {
'message': 'new BucketList name is equal to new name'
}
})
bucket_list.name = new_bucketlist_name
bucket_list.save()
bucket_list.refresh_from_db()
return jsonify({
'data': {
'id': bucket_list.id,
'name': bucket_list.name,
'date_created': bucket_list.date_created,
'date_modified': bucket_list.date_modified,
'created_by': bucket_list.created_by
}
})
@mod_bucketlists.route('/<id>', methods=['DELETE'])
@auth.login_required
def get_bucketlist_all(id):
"""
Get a single bucketlist and items if available. It allows manipulate the bucketlist details
Args:
id: The id of the bucketlist
Returns:
JSON files with bucketlists details and items; 200 on successfully request
"""
bucket_list = BucketList.query.filter_by(id=id, created_by=user_id).scalar()
if not bucket_list:
return jsonify({
'error': {
'message': 'bucket list not found'
}
}), 404
BucketList.query.filter_by(id=id, created_by=user_id).delete()
bucket_list_items = BucketListItem.query.filter_by(bucketlist_id=bucket_list.id).all()
for bucket_list_item in bucket_list_items:
db.session.delete(bucket_list_item)
db.session.commit()
if not BucketList.query.filter_by(id=id, created_by=user_id).scalar():
return jsonify({
'message': 'successfully deleted bucketlist'
})
@mod_bucketlists.route('/<id>/items/', methods=['POST'])
@auth.login_required
def create_bucketlist_item(id):
"""
Creates a new item in the bucketlist
Args:
id: the bucketlist id to create the item in
Returns:
JSON file with details of created bucketlist item; 201 on succeful request
"""
bucket_list = BucketList.query.filter_by(id=id, created_by=user_id).scalar()
if not bucket_list:
return jsonify({
'error': {
'message': 'bucketlist list does not exists'
}
}), 404
if request.method == 'POST':
name = request.form.get('name')
description = request.form.get('description')
if not name:
return abort(400, {
'error': {
'message': 'name data field missing/empty from POST request'
}
})
bucketlist_item = BucketListItem.query.filter_by(name=name).all()
if bucketlist_item:
return abort(403, {
'error': {
'message': 'cannot create bucketlist item'
}
})
bucketlist_item = BucketListItem(name, description, bucket_list.id)
bucketlist_item.save()
bucketlist_item.refresh_from_db()
return jsonify({
'data': {
'id': bucketlist_item.id,
'name': bucketlist_item.name,
'description': bucketlist_item.description,
'date_created': bucketlist_item.date_created,
'date_modified': bucketlist_item.date_modified,
'done': bucketlist_item.done
}
}), 201
@mod_bucketlists.route('/<id>/items/<item_id>', methods=['PUT', 'DELETE'])
@auth.login_required
def modify_bucketlist_item(id, item_id):
"""
Updates or deletes the bucketlist items
Args:
id: bucketlist id
item_id: bucketlist item id
Returns:
JSON file with the details of the modified bucketlist item; 200 on successful request
"""
bucketlist_item = BucketListItem.query.filter_by(bucketlist_id=id, id=item_id).scalar()
if not bucketlist_item:
return jsonify({
'error': {
'message': 'bucketlist item not found'
}
}), 404
if request.method == 'PUT':
done_status = request.form.get('done', '').lower()
if done_status and done_status not in ('true', 'false'):
return abort(400, {
'error': {
'message': 'done status should be true or false'
}
})
bucketlist_item.name = request.form.get('name', bucketlist_item.name)
bucketlist_item.done = done_status == 'true'
bucketlist_item.description = request.form.get('description', bucketlist_item.description)
bucketlist_item.save()
bucketlist_item.refresh_from_db()
return jsonify({
'data': {
'id': bucketlist_item.id,
'name': bucketlist_item.name,
'description': bucketlist_item.description,
'date_created': bucketlist_item.date_created,
'date_modified': bucketlist_item.date_modified,
'done': bucketlist_item.done
}
})
| mit |
openstack/manila | manila/tests/test_api.py | 1 | 2636 | # Copyright 2010 United States Government as represented by the
# Administrator of the National Aeronautics and Space Administration.
# All Rights Reserved.
#
# Licensed 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.
"""Unit tests for the API endpoint."""
import http.client as http_client
import io
import webob
class FakeHttplibSocket(object):
"""A fake socket implementation for http_client.HTTPResponse, trivial."""
def __init__(self, response_string):
self.response_string = response_string
self._buffer = io.StringIO(response_string)
def makefile(self, _mode, _other):
"""Returns the socket's internal buffer."""
return self._buffer
class FakeHttplibConnection(object):
"""A fake http_client.HTTPConnection for boto.
requests made via this connection actually get translated and routed into
our WSGI app, we then wait for the response and turn it back into
the http_client.HTTPResponse that boto expects.
"""
def __init__(self, app, host, is_secure=False):
self.app = app
self.host = host
def request(self, method, path, data, headers):
req = webob.Request.blank(path)
req.method = method
req.body = data
req.headers = headers
req.headers['Accept'] = 'text/html'
req.host = self.host
# Call the WSGI app, get the HTTP response
resp = str(req.get_response(self.app))
# For some reason, the response doesn't have "HTTP/1.0 " prepended; I
# guess that's a function the web server usually provides.
resp = "HTTP/1.0 %s" % resp
self.sock = FakeHttplibSocket(resp)
self.http_response = http_client.HTTPResponse(self.sock)
# NOTE(vish): boto is accessing private variables for some reason
self._HTTPConnection__response = self.http_response
self.http_response.begin()
def getresponse(self):
return self.http_response
def getresponsebody(self):
return self.sock.response_string
def close(self):
"""Required for compatibility with boto/tornado."""
pass
| apache-2.0 |
grhawk/ASE | ase/optimize/fire.py | 10 | 1688 | import numpy as np
from ase.optimize.optimize import Optimizer
class FIRE(Optimizer):
def __init__(self, atoms, restart=None, logfile='-', trajectory=None,
dt=0.1, maxmove=0.2, dtmax=1.0, Nmin=5, finc=1.1, fdec=0.5,
astart=0.1, fa=0.99, a=0.1):
Optimizer.__init__(self, atoms, restart, logfile, trajectory)
self.dt = dt
self.Nsteps = 0
self.maxmove = maxmove
self.dtmax = dtmax
self.Nmin = Nmin
self.finc = finc
self.fdec = fdec
self.astart = astart
self.fa = fa
self.a = a
def initialize(self):
self.v = None
def read(self):
self.v, self.dt = self.load()
def step(self,f):
atoms = self.atoms
if self.v is None:
self.v = np.zeros((len(atoms), 3))
else:
vf = np.vdot(f, self.v)
if vf > 0.0:
self.v = (1.0 - self.a) * self.v + self.a * f / np.sqrt(
np.vdot(f, f)) * np.sqrt(np.vdot(self.v, self.v))
if self.Nsteps > self.Nmin:
self.dt = min(self.dt * self.finc, self.dtmax)
self.a *= self.fa
self.Nsteps += 1
else:
self.v[:] *= 0.0
self.a = self.astart
self.dt *= self.fdec
self.Nsteps = 0
self.v += self.dt * f
dr = self.dt * self.v
normdr = np.sqrt(np.vdot(dr, dr))
if normdr > self.maxmove:
dr = self.maxmove * dr / normdr
r = atoms.get_positions()
atoms.set_positions(r + dr)
self.dump((self.v, self.dt))
| gpl-2.0 |
nicoTrombon/DjangoPolls | env/Lib/site-packages/django/contrib/gis/gdal/field.py | 122 | 6400 | from ctypes import byref, c_int
from datetime import date, datetime, time
from django.contrib.gis.gdal.base import GDALBase
from django.contrib.gis.gdal.error import GDALException
from django.contrib.gis.gdal.prototypes import ds as capi
from django.utils.encoding import force_text
# For more information, see the OGR C API source code:
# http://www.gdal.org/ogr/ogr__api_8h.html
#
# The OGR_Fld_* routines are relevant here.
class Field(GDALBase):
"""
This class wraps an OGR Field, and needs to be instantiated
from a Feature object.
"""
def __init__(self, feat, index):
"""
Initializes on the feature object and the integer index of
the field within the feature.
"""
# Setting the feature pointer and index.
self._feat = feat
self._index = index
# Getting the pointer for this field.
fld_ptr = capi.get_feat_field_defn(feat.ptr, index)
if not fld_ptr:
raise GDALException('Cannot create OGR Field, invalid pointer given.')
self.ptr = fld_ptr
# Setting the class depending upon the OGR Field Type (OFT)
self.__class__ = OGRFieldTypes[self.type]
# OFTReal with no precision should be an OFTInteger.
if isinstance(self, OFTReal) and self.precision == 0:
self.__class__ = OFTInteger
self._double = True
def __str__(self):
"Returns the string representation of the Field."
return str(self.value).strip()
# #### Field Methods ####
def as_double(self):
"Retrieves the Field's value as a double (float)."
return capi.get_field_as_double(self._feat.ptr, self._index)
def as_int(self):
"Retrieves the Field's value as an integer."
return capi.get_field_as_integer(self._feat.ptr, self._index)
def as_string(self):
"Retrieves the Field's value as a string."
string = capi.get_field_as_string(self._feat.ptr, self._index)
return force_text(string, encoding=self._feat.encoding, strings_only=True)
def as_datetime(self):
"Retrieves the Field's value as a tuple of date & time components."
yy, mm, dd, hh, mn, ss, tz = [c_int() for i in range(7)]
status = capi.get_field_as_datetime(
self._feat.ptr, self._index, byref(yy), byref(mm), byref(dd),
byref(hh), byref(mn), byref(ss), byref(tz))
if status:
return (yy, mm, dd, hh, mn, ss, tz)
else:
raise GDALException('Unable to retrieve date & time information from the field.')
# #### Field Properties ####
@property
def name(self):
"Returns the name of this Field."
name = capi.get_field_name(self.ptr)
return force_text(name, encoding=self._feat.encoding, strings_only=True)
@property
def precision(self):
"Returns the precision of this Field."
return capi.get_field_precision(self.ptr)
@property
def type(self):
"Returns the OGR type of this Field."
return capi.get_field_type(self.ptr)
@property
def type_name(self):
"Return the OGR field type name for this Field."
return capi.get_field_type_name(self.type)
@property
def value(self):
"Returns the value of this Field."
# Default is to get the field as a string.
return self.as_string()
@property
def width(self):
"Returns the width of this Field."
return capi.get_field_width(self.ptr)
# ### The Field sub-classes for each OGR Field type. ###
class OFTInteger(Field):
_double = False
@property
def value(self):
"Returns an integer contained in this field."
if self._double:
# If this is really from an OFTReal field with no precision,
# read as a double and cast as Python int (to prevent overflow).
return int(self.as_double())
else:
return self.as_int()
@property
def type(self):
"""
GDAL uses OFTReals to represent OFTIntegers in created
shapefiles -- forcing the type here since the underlying field
type may actually be OFTReal.
"""
return 0
class OFTReal(Field):
@property
def value(self):
"Returns a float contained in this field."
return self.as_double()
# String & Binary fields, just subclasses
class OFTString(Field):
pass
class OFTWideString(Field):
pass
class OFTBinary(Field):
pass
# OFTDate, OFTTime, OFTDateTime fields.
class OFTDate(Field):
@property
def value(self):
"Returns a Python `date` object for the OFTDate field."
try:
yy, mm, dd, hh, mn, ss, tz = self.as_datetime()
return date(yy.value, mm.value, dd.value)
except (ValueError, GDALException):
return None
class OFTDateTime(Field):
@property
def value(self):
"Returns a Python `datetime` object for this OFTDateTime field."
# TODO: Adapt timezone information.
# See http://lists.osgeo.org/pipermail/gdal-dev/2006-February/007990.html
# The `tz` variable has values of: 0=unknown, 1=localtime (ambiguous),
# 100=GMT, 104=GMT+1, 80=GMT-5, etc.
try:
yy, mm, dd, hh, mn, ss, tz = self.as_datetime()
return datetime(yy.value, mm.value, dd.value, hh.value, mn.value, ss.value)
except (ValueError, GDALException):
return None
class OFTTime(Field):
@property
def value(self):
"Returns a Python `time` object for this OFTTime field."
try:
yy, mm, dd, hh, mn, ss, tz = self.as_datetime()
return time(hh.value, mn.value, ss.value)
except (ValueError, GDALException):
return None
# List fields are also just subclasses
class OFTIntegerList(Field):
pass
class OFTRealList(Field):
pass
class OFTStringList(Field):
pass
class OFTWideStringList(Field):
pass
# Class mapping dictionary for OFT Types and reverse mapping.
OGRFieldTypes = {
0: OFTInteger,
1: OFTIntegerList,
2: OFTReal,
3: OFTRealList,
4: OFTString,
5: OFTStringList,
6: OFTWideString,
7: OFTWideStringList,
8: OFTBinary,
9: OFTDate,
10: OFTTime,
11: OFTDateTime,
}
ROGRFieldTypes = {cls: num for num, cls in OGRFieldTypes.items()}
| bsd-3-clause |
nysan/yocto-autobuilder | lib/python2.6/site-packages/Jinja2-2.5.5-py2.6.egg/jinja2/_stringdefs.py | 412 | 404256 | # -*- coding: utf-8 -*-
"""
jinja2._stringdefs
~~~~~~~~~~~~~~~~~~
Strings of all Unicode characters of a certain category.
Used for matching in Unicode-aware languages. Run to regenerate.
Inspired by chartypes_create.py from the MoinMoin project, original
implementation from Pygments.
:copyright: Copyright 2006-2009 by the Jinja team, see AUTHORS.
:license: BSD, see LICENSE for details.
"""
Cc = u'\x00\x01\x02\x03\x04\x05\x06\x07\x08\t\n\x0b\x0c\r\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f\x7f\x80\x81\x82\x83\x84\x85\x86\x87\x88\x89\x8a\x8b\x8c\x8d\x8e\x8f\x90\x91\x92\x93\x94\x95\x96\x97\x98\x99\x9a\x9b\x9c\x9d\x9e\x9f'
Cf = u'\xad\u0600\u0601\u0602\u0603\u06dd\u070f\u17b4\u17b5\u200b\u200c\u200d\u200e\u200f\u202a\u202b\u202c\u202d\u202e\u2060\u2061\u2062\u2063\u206a\u206b\u206c\u206d\u206e\u206f\ufeff\ufff9\ufffa\ufffb'
Cn = 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d4\uabd5\uabd6\uabd7\uabd8\uabd9\uabda\uabdb\uabdc\uabdd\uabde\uabdf\uabe0\uabe1\uabe2\uabe3\uabe4\uabe5\uabe6\uabe7\uabe8\uabe9\uabea\uabeb\uabec\uabed\uabee\uabef\uabf0\uabf1\uabf2\uabf3\uabf4\uabf5\uabf6\uabf7\uabf8\uabf9\uabfa\uabfb\uabfc\uabfd\uabfe\uabff\ud7a4\ud7a5\ud7a6\ud7a7\ud7a8\ud7a9\ud7aa\ud7ab\ud7ac\ud7ad\ud7ae\ud7af\ud7b0\ud7b1\ud7b2\ud7b3\ud7b4\ud7b5\ud7b6\ud7b7\ud7b8\ud7b9\ud7ba\ud7bb\ud7bc\ud7bd\ud7be\ud7bf\ud7c0\ud7c1\ud7c2\ud7c3\ud7c4\ud7c5\ud7c6\ud7c7\ud7c8\ud7c9\ud7ca\ud7cb\ud7cc\ud7cd\ud7ce\ud7cf\ud7d0\ud7d1\ud7d2\ud7d3\ud7d4\ud7d5\ud7d6\ud7d7\ud7d8\ud7d9\ud7da\ud7db\ud7dc\ud7dd\ud7de\ud7df\ud7e0\ud7e1\ud7e2\ud7e3\ud7e4\ud7e5\ud7e6\ud7e7\ud7e8\ud7e9\ud7ea\ud7eb\ud7ec\ud7ed\ud7ee\ud7ef\ud7f0\ud7f1\ud7f2\ud7f3\ud7f4\ud7f5\ud7f6\ud7f7\ud7f8\ud7f9\ud7fa\ud7fb\ud7fc\ud7fd\ud7fe\ud7ff\ufa2e\ufa2f\ufa6b\ufa6c\ufa6d\ufa6e\ufa6f\ufada\ufadb\ufadc\ufadd\ufade\ufadf\ufae0\ufae1\ufae2\ufae3\ufae4\ufae5\ufae6\ufae7\ufae8\ufae9\ufaea\ufaeb\ufaec\ufaed\ufaee\ufaef\ufaf0\ufaf1\ufaf2\ufaf3\ufaf4\ufaf5\ufaf6\ufaf7\ufaf8\ufaf9\ufafa\ufafb\ufafc\ufafd\ufafe\ufaff\ufb07\ufb08\ufb09\ufb0a\ufb0b\ufb0c\ufb0d\ufb0e\ufb0f\ufb10\ufb11\ufb12\ufb18\ufb19\ufb1a\ufb1b\ufb1c\ufb37\ufb3d\ufb3f\ufb42\ufb45\ufbb2\ufbb3\ufbb4\ufbb5\ufbb6\ufbb7\ufbb8\ufbb9\ufbba\ufbbb\ufbbc\ufbbd\ufbbe\ufbbf\ufbc0\ufbc1\ufbc2\ufbc3\ufbc4\ufbc5\ufbc6\ufbc7\ufbc8\ufbc9\ufbca\ufbcb\ufbcc\ufbcd\ufbce\ufbcf\ufbd0\ufbd1\ufbd2\ufd40\ufd41\ufd42\ufd43\ufd44\ufd45\ufd46\ufd47\ufd48\ufd49\ufd4a\ufd4b\ufd4c\ufd4d\ufd4e\ufd4f\ufd90\ufd91\ufdc8\ufdc9\ufdca\ufdcb\ufdcc\ufdcd\ufdce\ufdcf\ufdd0\ufdd1\ufdd2\ufdd3\ufdd4\ufdd5\ufdd6\ufdd7\ufdd8\ufdd9\ufdda\ufddb\ufddc\ufddd\ufdde\ufddf\ufde0\ufde1\ufde2\ufde3\ufde4\ufde5\ufde6\ufde7\ufde8\ufde9\ufdea\ufdeb\ufdec\ufded\ufdee\ufdef\ufdfe\ufdff\ufe1a\ufe1b\ufe1c\ufe1d\ufe1e\ufe1f\ufe24\ufe25\ufe26\ufe27\ufe28\ufe29\ufe2a\ufe2b\ufe2c\ufe2d\ufe2e\ufe2f\ufe53\ufe67\ufe6c\ufe6d\ufe6e\ufe6f\ufe75\ufefd\ufefe\uff00\uffbf\uffc0\uffc1\uffc8\uffc9\uffd0\uffd1\uffd8\uffd9\uffdd\uffde\uffdf\uffe7\uffef\ufff0\ufff1\ufff2\ufff3\ufff4\ufff5\ufff6\ufff7\ufff8\ufffe'
Co = 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try:
Cs = eval(r"'\ud800\ud801\ud802\ud803\ud804\ud805\ud806\ud807\ud808\ud809\ud80a\ud80b\ud80c\ud80d\ud80e\ud80f\ud810\ud811\ud812\ud813\ud814\ud815\ud816\ud817\ud818\ud819\ud81a\ud81b\ud81c\ud81d\ud81e\ud81f\ud820\ud821\ud822\ud823\ud824\ud825\ud826\ud827\ud828\ud829\ud82a\ud82b\ud82c\ud82d\ud82e\ud82f\ud830\ud831\ud832\ud833\ud834\ud835\ud836\ud837\ud838\ud839\ud83a\ud83b\ud83c\ud83d\ud83e\ud83f\ud840\ud841\ud842\ud843\ud844\ud845\ud846\ud847\ud848\ud849\ud84a\ud84b\ud84c\ud84d\ud84e\ud84f\ud850\ud851\ud852\ud853\ud854\ud855\ud856\ud857\ud858\ud859\ud85a\ud85b\ud85c\ud85d\ud85e\ud85f\ud860\ud861\ud862\ud863\ud864\ud865\ud866\ud867\ud868\ud869\ud86a\ud86b\ud86c\ud86d\ud86e\ud86f\ud870\ud871\ud872\ud873\ud874\ud875\ud876\ud877\ud878\ud879\ud87a\ud87b\ud87c\ud87d\ud87e\ud87f\ud880\ud881\ud882\ud883\ud884\ud885\ud886\ud887\ud888\ud889\ud88a\ud88b\ud88c\ud88d\ud88e\ud88f\ud890\ud891\ud892\ud893\ud894\ud895\ud896\ud897\ud898\ud899\ud89a\ud89b\ud89c\ud89d\ud89e\ud89f\ud8a0\ud8a1\ud8a2\ud8a3\ud8a4\ud8a5\ud8a6\ud8a7\ud8a8\ud8a9\ud8aa\ud8ab\ud8ac\ud8ad\ud8ae\ud8af\ud8b0\ud8b1\ud8b2\ud8b3\ud8b4\ud8b5\ud8b6\ud8b7\ud8b8\ud8b9\ud8ba\ud8bb\ud8bc\ud8bd\ud8be\ud8bf\ud8c0\ud8c1\ud8c2\ud8c3\ud8c4\ud8c5\ud8c6\ud8c7\ud8c8\ud8c9\ud8ca\ud8cb\ud8cc\ud8cd\ud8ce\ud8cf\ud8d0\ud8d1\ud8d2\ud8d3\ud8d4\ud8d5\ud8d6\ud8d7\ud8d8\ud8d9\ud8da\ud8db\ud8dc\ud8dd\ud8de\ud8df\ud8e0\ud8e1\ud8e2\ud8e3\ud8e4\ud8e5\ud8e6\ud8e7\ud8e8\ud8e9\ud8ea\ud8eb\ud8ec\ud8ed\ud8ee\ud8ef\ud8f0\ud8f1\ud8f2\ud8f3\ud8f4\ud8f5\ud8f6\ud8f7\ud8f8\ud8f9\ud8fa\ud8fb\ud8fc\ud8fd\ud8fe\ud8ff\ud900\ud901\ud902\ud903\ud904\ud905\ud906\ud907\ud908\ud909\ud90a\ud90b\ud90c\ud90d\ud90e\ud90f\ud910\ud911\ud912\ud913\ud914\ud915\ud916\ud917\ud918\ud919\ud91a\ud91b\ud91c\ud91d\ud91e\ud91f\ud920\ud921\ud922\ud923\ud924\ud925\ud926\ud927\ud928\ud929\ud92a\ud92b\ud92c\ud92d\ud92e\ud92f\ud930\ud931\ud932\ud933\ud934\ud935\ud936\ud937\ud938\ud939\ud93a\ud93b\ud93c\ud93d\ud93e\ud93f\ud940\ud941\ud942\ud943\ud944\ud945\ud946\ud947\ud948\ud949\ud94a\ud94b\ud94c\ud94d\ud94e\ud94f\ud950\ud951\ud952\ud953\ud954\ud955\ud956\ud957\ud958\ud959\ud95a\ud95b\ud95c\ud95d\ud95e\ud95f\ud960\ud961\ud962\ud963\ud964\ud965\ud966\ud967\ud968\ud969\ud96a\ud96b\ud96c\ud96d\ud96e\ud96f\ud970\ud971\ud972\ud973\ud974\ud975\ud976\ud977\ud978\ud979\ud97a\ud97b\ud97c\ud97d\ud97e\ud97f\ud980\ud981\ud982\ud983\ud984\ud985\ud986\ud987\ud988\ud989\ud98a\ud98b\ud98c\ud98d\ud98e\ud98f\ud990\ud991\ud992\ud993\ud994\ud995\ud996\ud997\ud998\ud999\ud99a\ud99b\ud99c\ud99d\ud99e\ud99f\ud9a0\ud9a1\ud9a2\ud9a3\ud9a4\ud9a5\ud9a6\ud9a7\ud9a8\ud9a9\ud9aa\ud9ab\ud9ac\ud9ad\ud9ae\ud9af\ud9b0\ud9b1\ud9b2\ud9b3\ud9b4\ud9b5\ud9b6\ud9b7\ud9b8\ud9b9\ud9ba\ud9bb\ud9bc\ud9bd\ud9be\ud9bf\ud9c0\ud9c1\ud9c2\ud9c3\ud9c4\ud9c5\ud9c6\ud9c7\ud9c8\ud9c9\ud9ca\ud9cb\ud9cc\ud9cd\ud9ce\ud9cf\ud9d0\ud9d1\ud9d2\ud9d3\ud9d4\ud9d5\ud9d6\ud9d7\ud9d8\ud9d9\ud9da\ud9db\ud9dc\ud9dd\ud9de\ud9df\ud9e0\ud9e1\ud9e2\ud9e3\ud9e4\ud9e5\ud9e6\ud9e7\ud9e8\ud9e9\ud9ea\ud9eb\ud9ec\ud9ed\ud9ee\ud9ef\ud9f0\ud9f1\ud9f2\ud9f3\ud9f4\ud9f5\ud9f6\ud9f7\ud9f8\ud9f9\ud9fa\ud9fb\ud9fc\ud9fd\ud9fe\ud9ff\uda00\uda01\uda02\uda03\uda04\uda05\uda06\uda07\uda08\uda09\uda0a\uda0b\uda0c\uda0d\uda0e\uda0f\uda10\uda11\uda12\uda13\uda14\uda15\uda16\uda17\uda18\uda19\uda1a\uda1b\uda1c\uda1d\uda1e\uda1f\uda20\uda21\uda22\uda23\uda24\uda25\uda26\uda27\uda28\uda29\uda2a\uda2b\uda2c\uda2d\uda2e\uda2f\uda30\uda31\uda32\uda33\uda34\uda35\uda36\uda37\uda38\uda39\uda3a\uda3b\uda3c\uda3d\uda3e\uda3f\uda40\uda41\uda42\uda43\uda44\uda45\uda46\uda47\uda48\uda49\uda4a\uda4b\uda4c\uda4d\uda4e\uda4f\uda50\uda51\uda52\uda53\uda54\uda55\uda56\uda57\uda58\uda59\uda5a\uda5b\uda5c\uda5d\uda5e\uda5f\uda60\uda61\uda62\uda63\uda64\uda65\uda66\uda67\uda68\uda69\uda6a\uda6b\uda6c\uda6d\uda6e\uda6f\uda70\uda71\uda72\uda73\uda74\uda75\uda76\uda77\uda78\uda79\uda7a\uda7b\uda7c\uda7d\uda7e\uda7f\uda80\uda81\uda82\uda83\uda84\uda85\uda86\uda87\uda88\uda89\uda8a\uda8b\uda8c\uda8d\uda8e\uda8f\uda90\uda91\uda92\uda93\uda94\uda95\uda96\uda97\uda98\uda99\uda9a\uda9b\uda9c\uda9d\uda9e\uda9f\udaa0\udaa1\udaa2\udaa3\udaa4\udaa5\udaa6\udaa7\udaa8\udaa9\udaaa\udaab\udaac\udaad\udaae\udaaf\udab0\udab1\udab2\udab3\udab4\udab5\udab6\udab7\udab8\udab9\udaba\udabb\udabc\udabd\udabe\udabf\udac0\udac1\udac2\udac3\udac4\udac5\udac6\udac7\udac8\udac9\udaca\udacb\udacc\udacd\udace\udacf\udad0\udad1\udad2\udad3\udad4\udad5\udad6\udad7\udad8\udad9\udada\udadb\udadc\udadd\udade\udadf\udae0\udae1\udae2\udae3\udae4\udae5\udae6\udae7\udae8\udae9\udaea\udaeb\udaec\udaed\udaee\udaef\udaf0\udaf1\udaf2\udaf3\udaf4\udaf5\udaf6\udaf7\udaf8\udaf9\udafa\udafb\udafc\udafd\udafe\udaff\udb00\udb01\udb02\udb03\udb04\udb05\udb06\udb07\udb08\udb09\udb0a\udb0b\udb0c\udb0d\udb0e\udb0f\udb10\udb11\udb12\udb13\udb14\udb15\udb16\udb17\udb18\udb19\udb1a\udb1b\udb1c\udb1d\udb1e\udb1f\udb20\udb21\udb22\udb23\udb24\udb25\udb26\udb27\udb28\udb29\udb2a\udb2b\udb2c\udb2d\udb2e\udb2f\udb30\udb31\udb32\udb33\udb34\udb35\udb36\udb37\udb38\udb39\udb3a\udb3b\udb3c\udb3d\udb3e\udb3f\udb40\udb41\udb42\udb43\udb44\udb45\udb46\udb47\udb48\udb49\udb4a\udb4b\udb4c\udb4d\udb4e\udb4f\udb50\udb51\udb52\udb53\udb54\udb55\udb56\udb57\udb58\udb59\udb5a\udb5b\udb5c\udb5d\udb5e\udb5f\udb60\udb61\udb62\udb63\udb64\udb65\udb66\udb67\udb68\udb69\udb6a\udb6b\udb6c\udb6d\udb6e\udb6f\udb70\udb71\udb72\udb73\udb74\udb75\udb76\udb77\udb78\udb79\udb7a\udb7b\udb7c\udb7d\udb7e\udb7f\udb80\udb81\udb82\udb83\udb84\udb85\udb86\udb87\udb88\udb89\udb8a\udb8b\udb8c\udb8d\udb8e\udb8f\udb90\udb91\udb92\udb93\udb94\udb95\udb96\udb97\udb98\udb99\udb9a\udb9b\udb9c\udb9d\udb9e\udb9f\udba0\udba1\udba2\udba3\udba4\udba5\udba6\udba7\udba8\udba9\udbaa\udbab\udbac\udbad\udbae\udbaf\udbb0\udbb1\udbb2\udbb3\udbb4\udbb5\udbb6\udbb7\udbb8\udbb9\udbba\udbbb\udbbc\udbbd\udbbe\udbbf\udbc0\udbc1\udbc2\udbc3\udbc4\udbc5\udbc6\udbc7\udbc8\udbc9\udbca\udbcb\udbcc\udbcd\udbce\udbcf\udbd0\udbd1\udbd2\udbd3\udbd4\udbd5\udbd6\udbd7\udbd8\udbd9\udbda\udbdb\udbdc\udbdd\udbde\udbdf\udbe0\udbe1\udbe2\udbe3\udbe4\udbe5\udbe6\udbe7\udbe8\udbe9\udbea\udbeb\udbec\udbed\udbee\udbef\udbf0\udbf1\udbf2\udbf3\udbf4\udbf5\udbf6\udbf7\udbf8\udbf9\udbfa\udbfb\udbfc\udbfd\udbfe\U0010fc00\udc01\udc02\udc03\udc04\udc05\udc06\udc07\udc08\udc09\udc0a\udc0b\udc0c\udc0d\udc0e\udc0f\udc10\udc11\udc12\udc13\udc14\udc15\udc16\udc17\udc18\udc19\udc1a\udc1b\udc1c\udc1d\udc1e\udc1f\udc20\udc21\udc22\udc23\udc24\udc25\udc26\udc27\udc28\udc29\udc2a\udc2b\udc2c\udc2d\udc2e\udc2f\udc30\udc31\udc32\udc33\udc34\udc35\udc36\udc37\udc38\udc39\udc3a\udc3b\udc3c\udc3d\udc3e\udc3f\udc40\udc41\udc42\udc43\udc44\udc45\udc46\udc47\udc48\udc49\udc4a\udc4b\udc4c\udc4d\udc4e\udc4f\udc50\udc51\udc52\udc53\udc54\udc55\udc56\udc57\udc58\udc59\udc5a\udc5b\udc5c\udc5d\udc5e\udc5f\udc60\udc61\udc62\udc63\udc64\udc65\udc66\udc67\udc68\udc69\udc6a\udc6b\udc6c\udc6d\udc6e\udc6f\udc70\udc71\udc72\udc73\udc74\udc75\udc76\udc77\udc78\udc79\udc7a\udc7b\udc7c\udc7d\udc7e\udc7f\udc80\udc81\udc82\udc83\udc84\udc85\udc86\udc87\udc88\udc89\udc8a\udc8b\udc8c\udc8d\udc8e\udc8f\udc90\udc91\udc92\udc93\udc94\udc95\udc96\udc97\udc98\udc99\udc9a\udc9b\udc9c\udc9d\udc9e\udc9f\udca0\udca1\udca2\udca3\udca4\udca5\udca6\udca7\udca8\udca9\udcaa\udcab\udcac\udcad\udcae\udcaf\udcb0\udcb1\udcb2\udcb3\udcb4\udcb5\udcb6\udcb7\udcb8\udcb9\udcba\udcbb\udcbc\udcbd\udcbe\udcbf\udcc0\udcc1\udcc2\udcc3\udcc4\udcc5\udcc6\udcc7\udcc8\udcc9\udcca\udccb\udccc\udccd\udcce\udccf\udcd0\udcd1\udcd2\udcd3\udcd4\udcd5\udcd6\udcd7\udcd8\udcd9\udcda\udcdb\udcdc\udcdd\udcde\udcdf\udce0\udce1\udce2\udce3\udce4\udce5\udce6\udce7\udce8\udce9\udcea\udceb\udcec\udced\udcee\udcef\udcf0\udcf1\udcf2\udcf3\udcf4\udcf5\udcf6\udcf7\udcf8\udcf9\udcfa\udcfb\udcfc\udcfd\udcfe\udcff\udd00\udd01\udd02\udd03\udd04\udd05\udd06\udd07\udd08\udd09\udd0a\udd0b\udd0c\udd0d\udd0e\udd0f\udd10\udd11\udd12\udd13\udd14\udd15\udd16\udd17\udd18\udd19\udd1a\udd1b\udd1c\udd1d\udd1e\udd1f\udd20\udd21\udd22\udd23\udd24\udd25\udd26\udd27\udd28\udd29\udd2a\udd2b\udd2c\udd2d\udd2e\udd2f\udd30\udd31\udd32\udd33\udd34\udd35\udd36\udd37\udd38\udd39\udd3a\udd3b\udd3c\udd3d\udd3e\udd3f\udd40\udd41\udd42\udd43\udd44\udd45\udd46\udd47\udd48\udd49\udd4a\udd4b\udd4c\udd4d\udd4e\udd4f\udd50\udd51\udd52\udd53\udd54\udd55\udd56\udd57\udd58\udd59\udd5a\udd5b\udd5c\udd5d\udd5e\udd5f\udd60\udd61\udd62\udd63\udd64\udd65\udd66\udd67\udd68\udd69\udd6a\udd6b\udd6c\udd6d\udd6e\udd6f\udd70\udd71\udd72\udd73\udd74\udd75\udd76\udd77\udd78\udd79\udd7a\udd7b\udd7c\udd7d\udd7e\udd7f\udd80\udd81\udd82\udd83\udd84\udd85\udd86\udd87\udd88\udd89\udd8a\udd8b\udd8c\udd8d\udd8e\udd8f\udd90\udd91\udd92\udd93\udd94\udd95\udd96\udd97\udd98\udd99\udd9a\udd9b\udd9c\udd9d\udd9e\udd9f\udda0\udda1\udda2\udda3\udda4\udda5\udda6\udda7\udda8\udda9\uddaa\uddab\uddac\uddad\uddae\uddaf\uddb0\uddb1\uddb2\uddb3\uddb4\uddb5\uddb6\uddb7\uddb8\uddb9\uddba\uddbb\uddbc\uddbd\uddbe\uddbf\uddc0\uddc1\uddc2\uddc3\uddc4\uddc5\uddc6\uddc7\uddc8\uddc9\uddca\uddcb\uddcc\uddcd\uddce\uddcf\uddd0\uddd1\uddd2\uddd3\uddd4\uddd5\uddd6\uddd7\uddd8\uddd9\uddda\udddb\udddc\udddd\uddde\udddf\udde0\udde1\udde2\udde3\udde4\udde5\udde6\udde7\udde8\udde9\uddea\uddeb\uddec\udded\uddee\uddef\uddf0\uddf1\uddf2\uddf3\uddf4\uddf5\uddf6\uddf7\uddf8\uddf9\uddfa\uddfb\uddfc\uddfd\uddfe\uddff\ude00\ude01\ude02\ude03\ude04\ude05\ude06\ude07\ude08\ude09\ude0a\ude0b\ude0c\ude0d\ude0e\ude0f\ude10\ude11\ude12\ude13\ude14\ude15\ude16\ude17\ude18\ude19\ude1a\ude1b\ude1c\ude1d\ude1e\ude1f\ude20\ude21\ude22\ude23\ude24\ude25\ude26\ude27\ude28\ude29\ude2a\ude2b\ude2c\ude2d\ude2e\ude2f\ude30\ude31\ude32\ude33\ude34\ude35\ude36\ude37\ude38\ude39\ude3a\ude3b\ude3c\ude3d\ude3e\ude3f\ude40\ude41\ude42\ude43\ude44\ude45\ude46\ude47\ude48\ude49\ude4a\ude4b\ude4c\ude4d\ude4e\ude4f\ude50\ude51\ude52\ude53\ude54\ude55\ude56\ude57\ude58\ude59\ude5a\ude5b\ude5c\ude5d\ude5e\ude5f\ude60\ude61\ude62\ude63\ude64\ude65\ude66\ude67\ude68\ude69\ude6a\ude6b\ude6c\ude6d\ude6e\ude6f\ude70\ude71\ude72\ude73\ude74\ude75\ude76\ude77\ude78\ude79\ude7a\ude7b\ude7c\ude7d\ude7e\ude7f\ude80\ude81\ude82\ude83\ude84\ude85\ude86\ude87\ude88\ude89\ude8a\ude8b\ude8c\ude8d\ude8e\ude8f\ude90\ude91\ude92\ude93\ude94\ude95\ude96\ude97\ude98\ude99\ude9a\ude9b\ude9c\ude9d\ude9e\ude9f\udea0\udea1\udea2\udea3\udea4\udea5\udea6\udea7\udea8\udea9\udeaa\udeab\udeac\udead\udeae\udeaf\udeb0\udeb1\udeb2\udeb3\udeb4\udeb5\udeb6\udeb7\udeb8\udeb9\udeba\udebb\udebc\udebd\udebe\udebf\udec0\udec1\udec2\udec3\udec4\udec5\udec6\udec7\udec8\udec9\udeca\udecb\udecc\udecd\udece\udecf\uded0\uded1\uded2\uded3\uded4\uded5\uded6\uded7\uded8\uded9\udeda\udedb\udedc\udedd\udede\udedf\udee0\udee1\udee2\udee3\udee4\udee5\udee6\udee7\udee8\udee9\udeea\udeeb\udeec\udeed\udeee\udeef\udef0\udef1\udef2\udef3\udef4\udef5\udef6\udef7\udef8\udef9\udefa\udefb\udefc\udefd\udefe\udeff\udf00\udf01\udf02\udf03\udf04\udf05\udf06\udf07\udf08\udf09\udf0a\udf0b\udf0c\udf0d\udf0e\udf0f\udf10\udf11\udf12\udf13\udf14\udf15\udf16\udf17\udf18\udf19\udf1a\udf1b\udf1c\udf1d\udf1e\udf1f\udf20\udf21\udf22\udf23\udf24\udf25\udf26\udf27\udf28\udf29\udf2a\udf2b\udf2c\udf2d\udf2e\udf2f\udf30\udf31\udf32\udf33\udf34\udf35\udf36\udf37\udf38\udf39\udf3a\udf3b\udf3c\udf3d\udf3e\udf3f\udf40\udf41\udf42\udf43\udf44\udf45\udf46\udf47\udf48\udf49\udf4a\udf4b\udf4c\udf4d\udf4e\udf4f\udf50\udf51\udf52\udf53\udf54\udf55\udf56\udf57\udf58\udf59\udf5a\udf5b\udf5c\udf5d\udf5e\udf5f\udf60\udf61\udf62\udf63\udf64\udf65\udf66\udf67\udf68\udf69\udf6a\udf6b\udf6c\udf6d\udf6e\udf6f\udf70\udf71\udf72\udf73\udf74\udf75\udf76\udf77\udf78\udf79\udf7a\udf7b\udf7c\udf7d\udf7e\udf7f\udf80\udf81\udf82\udf83\udf84\udf85\udf86\udf87\udf88\udf89\udf8a\udf8b\udf8c\udf8d\udf8e\udf8f\udf90\udf91\udf92\udf93\udf94\udf95\udf96\udf97\udf98\udf99\udf9a\udf9b\udf9c\udf9d\udf9e\udf9f\udfa0\udfa1\udfa2\udfa3\udfa4\udfa5\udfa6\udfa7\udfa8\udfa9\udfaa\udfab\udfac\udfad\udfae\udfaf\udfb0\udfb1\udfb2\udfb3\udfb4\udfb5\udfb6\udfb7\udfb8\udfb9\udfba\udfbb\udfbc\udfbd\udfbe\udfbf\udfc0\udfc1\udfc2\udfc3\udfc4\udfc5\udfc6\udfc7\udfc8\udfc9\udfca\udfcb\udfcc\udfcd\udfce\udfcf\udfd0\udfd1\udfd2\udfd3\udfd4\udfd5\udfd6\udfd7\udfd8\udfd9\udfda\udfdb\udfdc\udfdd\udfde\udfdf\udfe0\udfe1\udfe2\udfe3\udfe4\udfe5\udfe6\udfe7\udfe8\udfe9\udfea\udfeb\udfec\udfed\udfee\udfef\udff0\udff1\udff2\udff3\udff4\udff5\udff6\udff7\udff8\udff9\udffa\udffb\udffc\udffd\udffe\udfff'")
except UnicodeDecodeError:
Cs = '' # Jython can't handle isolated surrogates
Ll = u'abcdefghijklmnopqrstuvwxyz\xaa\xb5\xba\xdf\xe0\xe1\xe2\xe3\xe4\xe5\xe6\xe7\xe8\xe9\xea\xeb\xec\xed\xee\xef\xf0\xf1\xf2\xf3\xf4\xf5\xf6\xf8\xf9\xfa\xfb\xfc\xfd\xfe\xff\u0101\u0103\u0105\u0107\u0109\u010b\u010d\u010f\u0111\u0113\u0115\u0117\u0119\u011b\u011d\u011f\u0121\u0123\u0125\u0127\u0129\u012b\u012d\u012f\u0131\u0133\u0135\u0137\u0138\u013a\u013c\u013e\u0140\u0142\u0144\u0146\u0148\u0149\u014b\u014d\u014f\u0151\u0153\u0155\u0157\u0159\u015b\u015d\u015f\u0161\u0163\u0165\u0167\u0169\u016b\u016d\u016f\u0171\u0173\u0175\u0177\u017a\u017c\u017e\u017f\u0180\u0183\u0185\u0188\u018c\u018d\u0192\u0195\u0199\u019a\u019b\u019e\u01a1\u01a3\u01a5\u01a8\u01aa\u01ab\u01ad\u01b0\u01b4\u01b6\u01b9\u01ba\u01bd\u01be\u01bf\u01c6\u01c9\u01cc\u01ce\u01d0\u01d2\u01d4\u01d6\u01d8\u01da\u01dc\u01dd\u01df\u01e1\u01e3\u01e5\u01e7\u01e9\u01eb\u01ed\u01ef\u01f0\u01f3\u01f5\u01f9\u01fb\u01fd\u01ff\u0201\u0203\u0205\u0207\u0209\u020b\u020d\u020f\u0211\u0213\u0215\u0217\u0219\u021b\u021d\u021f\u0221\u0223\u0225\u0227\u0229\u022b\u022d\u022f\u0231\u0233\u0234\u0235\u0236\u0237\u0238\u0239\u023c\u023f\u0240\u0250\u0251\u0252\u0253\u0254\u0255\u0256\u0257\u0258\u0259\u025a\u025b\u025c\u025d\u025e\u025f\u0260\u0261\u0262\u0263\u0264\u0265\u0266\u0267\u0268\u0269\u026a\u026b\u026c\u026d\u026e\u026f\u0270\u0271\u0272\u0273\u0274\u0275\u0276\u0277\u0278\u0279\u027a\u027b\u027c\u027d\u027e\u027f\u0280\u0281\u0282\u0283\u0284\u0285\u0286\u0287\u0288\u0289\u028a\u028b\u028c\u028d\u028e\u028f\u0290\u0291\u0292\u0293\u0294\u0295\u0296\u0297\u0298\u0299\u029a\u029b\u029c\u029d\u029e\u029f\u02a0\u02a1\u02a2\u02a3\u02a4\u02a5\u02a6\u02a7\u02a8\u02a9\u02aa\u02ab\u02ac\u02ad\u02ae\u02af\u0390\u03ac\u03ad\u03ae\u03af\u03b0\u03b1\u03b2\u03b3\u03b4\u03b5\u03b6\u03b7\u03b8\u03b9\u03ba\u03bb\u03bc\u03bd\u03be\u03bf\u03c0\u03c1\u03c2\u03c3\u03c4\u03c5\u03c6\u03c7\u03c8\u03c9\u03ca\u03cb\u03cc\u03cd\u03ce\u03d0\u03d1\u03d5\u03d6\u03d7\u03d9\u03db\u03dd\u03df\u03e1\u03e3\u03e5\u03e7\u03e9\u03eb\u03ed\u03ef\u03f0\u03f1\u03f2\u03f3\u03f5\u03f8\u03fb\u03fc\u0430\u0431\u0432\u0433\u0434\u0435\u0436\u0437\u0438\u0439\u043a\u043b\u043c\u043d\u043e\u043f\u0440\u0441\u0442\u0443\u0444\u0445\u0446\u0447\u0448\u0449\u044a\u044b\u044c\u044d\u044e\u044f\u0450\u0451\u0452\u0453\u0454\u0455\u0456\u0457\u0458\u0459\u045a\u045b\u045c\u045d\u045e\u045f\u0461\u0463\u0465\u0467\u0469\u046b\u046d\u046f\u0471\u0473\u0475\u0477\u0479\u047b\u047d\u047f\u0481\u048b\u048d\u048f\u0491\u0493\u0495\u0497\u0499\u049b\u049d\u049f\u04a1\u04a3\u04a5\u04a7\u04a9\u04ab\u04ad\u04af\u04b1\u04b3\u04b5\u04b7\u04b9\u04bb\u04bd\u04bf\u04c2\u04c4\u04c6\u04c8\u04ca\u04cc\u04ce\u04d1\u04d3\u04d5\u04d7\u04d9\u04db\u04dd\u04df\u04e1\u04e3\u04e5\u04e7\u04e9\u04eb\u04ed\u04ef\u04f1\u04f3\u04f5\u04f7\u04f9\u0501\u0503\u0505\u0507\u0509\u050b\u050d\u050f\u0561\u0562\u0563\u0564\u0565\u0566\u0567\u0568\u0569\u056a\u056b\u056c\u056d\u056e\u056f\u0570\u0571\u0572\u0573\u0574\u0575\u0576\u0577\u0578\u0579\u057a\u057b\u057c\u057d\u057e\u057f\u0580\u0581\u0582\u0583\u0584\u0585\u0586\u0587\u1d00\u1d01\u1d02\u1d03\u1d04\u1d05\u1d06\u1d07\u1d08\u1d09\u1d0a\u1d0b\u1d0c\u1d0d\u1d0e\u1d0f\u1d10\u1d11\u1d12\u1d13\u1d14\u1d15\u1d16\u1d17\u1d18\u1d19\u1d1a\u1d1b\u1d1c\u1d1d\u1d1e\u1d1f\u1d20\u1d21\u1d22\u1d23\u1d24\u1d25\u1d26\u1d27\u1d28\u1d29\u1d2a\u1d2b\u1d62\u1d63\u1d64\u1d65\u1d66\u1d67\u1d68\u1d69\u1d6a\u1d6b\u1d6c\u1d6d\u1d6e\u1d6f\u1d70\u1d71\u1d72\u1d73\u1d74\u1d75\u1d76\u1d77\u1d79\u1d7a\u1d7b\u1d7c\u1d7d\u1d7e\u1d7f\u1d80\u1d81\u1d82\u1d83\u1d84\u1d85\u1d86\u1d87\u1d88\u1d89\u1d8a\u1d8b\u1d8c\u1d8d\u1d8e\u1d8f\u1d90\u1d91\u1d92\u1d93\u1d94\u1d95\u1d96\u1d97\u1d98\u1d99\u1d9a\u1e01\u1e03\u1e05\u1e07\u1e09\u1e0b\u1e0d\u1e0f\u1e11\u1e13\u1e15\u1e17\u1e19\u1e1b\u1e1d\u1e1f\u1e21\u1e23\u1e25\u1e27\u1e29\u1e2b\u1e2d\u1e2f\u1e31\u1e33\u1e35\u1e37\u1e39\u1e3b\u1e3d\u1e3f\u1e41\u1e43\u1e45\u1e47\u1e49\u1e4b\u1e4d\u1e4f\u1e51\u1e53\u1e55\u1e57\u1e59\u1e5b\u1e5d\u1e5f\u1e61\u1e63\u1e65\u1e67\u1e69\u1e6b\u1e6d\u1e6f\u1e71\u1e73\u1e75\u1e77\u1e79\u1e7b\u1e7d\u1e7f\u1e81\u1e83\u1e85\u1e87\u1e89\u1e8b\u1e8d\u1e8f\u1e91\u1e93\u1e95\u1e96\u1e97\u1e98\u1e99\u1e9a\u1e9b\u1ea1\u1ea3\u1ea5\u1ea7\u1ea9\u1eab\u1ead\u1eaf\u1eb1\u1eb3\u1eb5\u1eb7\u1eb9\u1ebb\u1ebd\u1ebf\u1ec1\u1ec3\u1ec5\u1ec7\u1ec9\u1ecb\u1ecd\u1ecf\u1ed1\u1ed3\u1ed5\u1ed7\u1ed9\u1edb\u1edd\u1edf\u1ee1\u1ee3\u1ee5\u1ee7\u1ee9\u1eeb\u1eed\u1eef\u1ef1\u1ef3\u1ef5\u1ef7\u1ef9\u1f00\u1f01\u1f02\u1f03\u1f04\u1f05\u1f06\u1f07\u1f10\u1f11\u1f12\u1f13\u1f14\u1f15\u1f20\u1f21\u1f22\u1f23\u1f24\u1f25\u1f26\u1f27\u1f30\u1f31\u1f32\u1f33\u1f34\u1f35\u1f36\u1f37\u1f40\u1f41\u1f42\u1f43\u1f44\u1f45\u1f50\u1f51\u1f52\u1f53\u1f54\u1f55\u1f56\u1f57\u1f60\u1f61\u1f62\u1f63\u1f64\u1f65\u1f66\u1f67\u1f70\u1f71\u1f72\u1f73\u1f74\u1f75\u1f76\u1f77\u1f78\u1f79\u1f7a\u1f7b\u1f7c\u1f7d\u1f80\u1f81\u1f82\u1f83\u1f84\u1f85\u1f86\u1f87\u1f90\u1f91\u1f92\u1f93\u1f94\u1f95\u1f96\u1f97\u1fa0\u1fa1\u1fa2\u1fa3\u1fa4\u1fa5\u1fa6\u1fa7\u1fb0\u1fb1\u1fb2\u1fb3\u1fb4\u1fb6\u1fb7\u1fbe\u1fc2\u1fc3\u1fc4\u1fc6\u1fc7\u1fd0\u1fd1\u1fd2\u1fd3\u1fd6\u1fd7\u1fe0\u1fe1\u1fe2\u1fe3\u1fe4\u1fe5\u1fe6\u1fe7\u1ff2\u1ff3\u1ff4\u1ff6\u1ff7\u2071\u207f\u210a\u210e\u210f\u2113\u212f\u2134\u2139\u213c\u213d\u2146\u2147\u2148\u2149\u2c30\u2c31\u2c32\u2c33\u2c34\u2c35\u2c36\u2c37\u2c38\u2c39\u2c3a\u2c3b\u2c3c\u2c3d\u2c3e\u2c3f\u2c40\u2c41\u2c42\u2c43\u2c44\u2c45\u2c46\u2c47\u2c48\u2c49\u2c4a\u2c4b\u2c4c\u2c4d\u2c4e\u2c4f\u2c50\u2c51\u2c52\u2c53\u2c54\u2c55\u2c56\u2c57\u2c58\u2c59\u2c5a\u2c5b\u2c5c\u2c5d\u2c5e\u2c81\u2c83\u2c85\u2c87\u2c89\u2c8b\u2c8d\u2c8f\u2c91\u2c93\u2c95\u2c97\u2c99\u2c9b\u2c9d\u2c9f\u2ca1\u2ca3\u2ca5\u2ca7\u2ca9\u2cab\u2cad\u2caf\u2cb1\u2cb3\u2cb5\u2cb7\u2cb9\u2cbb\u2cbd\u2cbf\u2cc1\u2cc3\u2cc5\u2cc7\u2cc9\u2ccb\u2ccd\u2ccf\u2cd1\u2cd3\u2cd5\u2cd7\u2cd9\u2cdb\u2cdd\u2cdf\u2ce1\u2ce3\u2ce4\u2d00\u2d01\u2d02\u2d03\u2d04\u2d05\u2d06\u2d07\u2d08\u2d09\u2d0a\u2d0b\u2d0c\u2d0d\u2d0e\u2d0f\u2d10\u2d11\u2d12\u2d13\u2d14\u2d15\u2d16\u2d17\u2d18\u2d19\u2d1a\u2d1b\u2d1c\u2d1d\u2d1e\u2d1f\u2d20\u2d21\u2d22\u2d23\u2d24\u2d25\ufb00\ufb01\ufb02\ufb03\ufb04\ufb05\ufb06\ufb13\ufb14\ufb15\ufb16\ufb17\uff41\uff42\uff43\uff44\uff45\uff46\uff47\uff48\uff49\uff4a\uff4b\uff4c\uff4d\uff4e\uff4f\uff50\uff51\uff52\uff53\uff54\uff55\uff56\uff57\uff58\uff59\uff5a'
Lm = u'\u02b0\u02b1\u02b2\u02b3\u02b4\u02b5\u02b6\u02b7\u02b8\u02b9\u02ba\u02bb\u02bc\u02bd\u02be\u02bf\u02c0\u02c1\u02c6\u02c7\u02c8\u02c9\u02ca\u02cb\u02cc\u02cd\u02ce\u02cf\u02d0\u02d1\u02e0\u02e1\u02e2\u02e3\u02e4\u02ee\u037a\u0559\u0640\u06e5\u06e6\u0e46\u0ec6\u10fc\u17d7\u1843\u1d2c\u1d2d\u1d2e\u1d2f\u1d30\u1d31\u1d32\u1d33\u1d34\u1d35\u1d36\u1d37\u1d38\u1d39\u1d3a\u1d3b\u1d3c\u1d3d\u1d3e\u1d3f\u1d40\u1d41\u1d42\u1d43\u1d44\u1d45\u1d46\u1d47\u1d48\u1d49\u1d4a\u1d4b\u1d4c\u1d4d\u1d4e\u1d4f\u1d50\u1d51\u1d52\u1d53\u1d54\u1d55\u1d56\u1d57\u1d58\u1d59\u1d5a\u1d5b\u1d5c\u1d5d\u1d5e\u1d5f\u1d60\u1d61\u1d78\u1d9b\u1d9c\u1d9d\u1d9e\u1d9f\u1da0\u1da1\u1da2\u1da3\u1da4\u1da5\u1da6\u1da7\u1da8\u1da9\u1daa\u1dab\u1dac\u1dad\u1dae\u1daf\u1db0\u1db1\u1db2\u1db3\u1db4\u1db5\u1db6\u1db7\u1db8\u1db9\u1dba\u1dbb\u1dbc\u1dbd\u1dbe\u1dbf\u2090\u2091\u2092\u2093\u2094\u2d6f\u3005\u3031\u3032\u3033\u3034\u3035\u303b\u309d\u309e\u30fc\u30fd\u30fe\ua015\uff70\uff9e\uff9f'
Lo = 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fd56\ufd57\ufd58\ufd59\ufd5a\ufd5b\ufd5c\ufd5d\ufd5e\ufd5f\ufd60\ufd61\ufd62\ufd63\ufd64\ufd65\ufd66\ufd67\ufd68\ufd69\ufd6a\ufd6b\ufd6c\ufd6d\ufd6e\ufd6f\ufd70\ufd71\ufd72\ufd73\ufd74\ufd75\ufd76\ufd77\ufd78\ufd79\ufd7a\ufd7b\ufd7c\ufd7d\ufd7e\ufd7f\ufd80\ufd81\ufd82\ufd83\ufd84\ufd85\ufd86\ufd87\ufd88\ufd89\ufd8a\ufd8b\ufd8c\ufd8d\ufd8e\ufd8f\ufd92\ufd93\ufd94\ufd95\ufd96\ufd97\ufd98\ufd99\ufd9a\ufd9b\ufd9c\ufd9d\ufd9e\ufd9f\ufda0\ufda1\ufda2\ufda3\ufda4\ufda5\ufda6\ufda7\ufda8\ufda9\ufdaa\ufdab\ufdac\ufdad\ufdae\ufdaf\ufdb0\ufdb1\ufdb2\ufdb3\ufdb4\ufdb5\ufdb6\ufdb7\ufdb8\ufdb9\ufdba\ufdbb\ufdbc\ufdbd\ufdbe\ufdbf\ufdc0\ufdc1\ufdc2\ufdc3\ufdc4\ufdc5\ufdc6\ufdc7\ufdf0\ufdf1\ufdf2\ufdf3\ufdf4\ufdf5\ufdf6\ufdf7\ufdf8\ufdf9\ufdfa\ufdfb\ufe70\ufe71\ufe72\ufe73\ufe74\ufe76\ufe77\ufe78\ufe79\ufe7a\ufe7b\ufe7c\ufe7d\ufe7e\ufe7f\ufe80\ufe81\ufe82\ufe83\ufe84\ufe85\ufe86\ufe87\ufe88\ufe89\ufe8a\ufe8b\ufe8c\ufe8d\ufe8e\ufe8f\ufe90\ufe91\ufe92\ufe93\ufe94\ufe95\ufe96\ufe97\ufe98\ufe99\ufe9a\ufe9b\ufe9c\ufe9d\ufe9e\ufe9f\ufea0\ufea1\ufea2\ufea3\ufea4\ufea5\ufea6\ufea7\ufea8\ufea9\ufeaa\ufeab\ufeac\ufead\ufeae\ufeaf\ufeb0\ufeb1\ufeb2\ufeb3\ufeb4\ufeb5\ufeb6\ufeb7\ufeb8\ufeb9\ufeba\ufebb\ufebc\ufebd\ufebe\ufebf\ufec0\ufec1\ufec2\ufec3\ufec4\ufec5\ufec6\ufec7\ufec8\ufec9\ufeca\ufecb\ufecc\ufecd\ufece\ufecf\ufed0\ufed1\ufed2\ufed3\ufed4\ufed5\ufed6\ufed7\ufed8\ufed9\ufeda\ufedb\ufedc\ufedd\ufede\ufedf\ufee0\ufee1\ufee2\ufee3\ufee4\ufee5\ufee6\ufee7\ufee8\ufee9\ufeea\ufeeb\ufeec\ufeed\ufeee\ufeef\ufef0\ufef1\ufef2\ufef3\ufef4\ufef5\ufef6\ufef7\ufef8\ufef9\ufefa\ufefb\ufefc\uff66\uff67\uff68\uff69\uff6a\uff6b\uff6c\uff6d\uff6e\uff6f\uff71\uff72\uff73\uff74\uff75\uff76\uff77\uff78\uff79\uff7a\uff7b\uff7c\uff7d\uff7e\uff7f\uff80\uff81\uff82\uff83\uff84\uff85\uff86\uff87\uff88\uff89\uff8a\uff8b\uff8c\uff8d\uff8e\uff8f\uff90\uff91\uff92\uff93\uff94\uff95\uff96\uff97\uff98\uff99\uff9a\uff9b\uff9c\uff9d\uffa0\uffa1\uffa2\uffa3\uffa4\uffa5\uffa6\uffa7\uffa8\uffa9\uffaa\uffab\uffac\uffad\uffae\uffaf\uffb0\uffb1\uffb2\uffb3\uffb4\uffb5\uffb6\uffb7\uffb8\uffb9\uffba\uffbb\uffbc\uffbd\uffbe\uffc2\uffc3\uffc4\uffc5\uffc6\uffc7\uffca\uffcb\uffcc\uffcd\uffce\uffcf\uffd2\uffd3\uffd4\uffd5\uffd6\uffd7\uffda\uffdb\uffdc'
Lt = u'\u01c5\u01c8\u01cb\u01f2\u1f88\u1f89\u1f8a\u1f8b\u1f8c\u1f8d\u1f8e\u1f8f\u1f98\u1f99\u1f9a\u1f9b\u1f9c\u1f9d\u1f9e\u1f9f\u1fa8\u1fa9\u1faa\u1fab\u1fac\u1fad\u1fae\u1faf\u1fbc\u1fcc\u1ffc'
Lu = u'ABCDEFGHIJKLMNOPQRSTUVWXYZ\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf\xd0\xd1\xd2\xd3\xd4\xd5\xd6\xd8\xd9\xda\xdb\xdc\xdd\xde\u0100\u0102\u0104\u0106\u0108\u010a\u010c\u010e\u0110\u0112\u0114\u0116\u0118\u011a\u011c\u011e\u0120\u0122\u0124\u0126\u0128\u012a\u012c\u012e\u0130\u0132\u0134\u0136\u0139\u013b\u013d\u013f\u0141\u0143\u0145\u0147\u014a\u014c\u014e\u0150\u0152\u0154\u0156\u0158\u015a\u015c\u015e\u0160\u0162\u0164\u0166\u0168\u016a\u016c\u016e\u0170\u0172\u0174\u0176\u0178\u0179\u017b\u017d\u0181\u0182\u0184\u0186\u0187\u0189\u018a\u018b\u018e\u018f\u0190\u0191\u0193\u0194\u0196\u0197\u0198\u019c\u019d\u019f\u01a0\u01a2\u01a4\u01a6\u01a7\u01a9\u01ac\u01ae\u01af\u01b1\u01b2\u01b3\u01b5\u01b7\u01b8\u01bc\u01c4\u01c7\u01ca\u01cd\u01cf\u01d1\u01d3\u01d5\u01d7\u01d9\u01db\u01de\u01e0\u01e2\u01e4\u01e6\u01e8\u01ea\u01ec\u01ee\u01f1\u01f4\u01f6\u01f7\u01f8\u01fa\u01fc\u01fe\u0200\u0202\u0204\u0206\u0208\u020a\u020c\u020e\u0210\u0212\u0214\u0216\u0218\u021a\u021c\u021e\u0220\u0222\u0224\u0226\u0228\u022a\u022c\u022e\u0230\u0232\u023a\u023b\u023d\u023e\u0241\u0386\u0388\u0389\u038a\u038c\u038e\u038f\u0391\u0392\u0393\u0394\u0395\u0396\u0397\u0398\u0399\u039a\u039b\u039c\u039d\u039e\u039f\u03a0\u03a1\u03a3\u03a4\u03a5\u03a6\u03a7\u03a8\u03a9\u03aa\u03ab\u03d2\u03d3\u03d4\u03d8\u03da\u03dc\u03de\u03e0\u03e2\u03e4\u03e6\u03e8\u03ea\u03ec\u03ee\u03f4\u03f7\u03f9\u03fa\u03fd\u03fe\u03ff\u0400\u0401\u0402\u0403\u0404\u0405\u0406\u0407\u0408\u0409\u040a\u040b\u040c\u040d\u040e\u040f\u0410\u0411\u0412\u0413\u0414\u0415\u0416\u0417\u0418\u0419\u041a\u041b\u041c\u041d\u041e\u041f\u0420\u0421\u0422\u0423\u0424\u0425\u0426\u0427\u0428\u0429\u042a\u042b\u042c\u042d\u042e\u042f\u0460\u0462\u0464\u0466\u0468\u046a\u046c\u046e\u0470\u0472\u0474\u0476\u0478\u047a\u047c\u047e\u0480\u048a\u048c\u048e\u0490\u0492\u0494\u0496\u0498\u049a\u049c\u049e\u04a0\u04a2\u04a4\u04a6\u04a8\u04aa\u04ac\u04ae\u04b0\u04b2\u04b4\u04b6\u04b8\u04ba\u04bc\u04be\u04c0\u04c1\u04c3\u04c5\u04c7\u04c9\u04cb\u04cd\u04d0\u04d2\u04d4\u04d6\u04d8\u04da\u04dc\u04de\u04e0\u04e2\u04e4\u04e6\u04e8\u04ea\u04ec\u04ee\u04f0\u04f2\u04f4\u04f6\u04f8\u0500\u0502\u0504\u0506\u0508\u050a\u050c\u050e\u0531\u0532\u0533\u0534\u0535\u0536\u0537\u0538\u0539\u053a\u053b\u053c\u053d\u053e\u053f\u0540\u0541\u0542\u0543\u0544\u0545\u0546\u0547\u0548\u0549\u054a\u054b\u054c\u054d\u054e\u054f\u0550\u0551\u0552\u0553\u0554\u0555\u0556\u10a0\u10a1\u10a2\u10a3\u10a4\u10a5\u10a6\u10a7\u10a8\u10a9\u10aa\u10ab\u10ac\u10ad\u10ae\u10af\u10b0\u10b1\u10b2\u10b3\u10b4\u10b5\u10b6\u10b7\u10b8\u10b9\u10ba\u10bb\u10bc\u10bd\u10be\u10bf\u10c0\u10c1\u10c2\u10c3\u10c4\u10c5\u1e00\u1e02\u1e04\u1e06\u1e08\u1e0a\u1e0c\u1e0e\u1e10\u1e12\u1e14\u1e16\u1e18\u1e1a\u1e1c\u1e1e\u1e20\u1e22\u1e24\u1e26\u1e28\u1e2a\u1e2c\u1e2e\u1e30\u1e32\u1e34\u1e36\u1e38\u1e3a\u1e3c\u1e3e\u1e40\u1e42\u1e44\u1e46\u1e48\u1e4a\u1e4c\u1e4e\u1e50\u1e52\u1e54\u1e56\u1e58\u1e5a\u1e5c\u1e5e\u1e60\u1e62\u1e64\u1e66\u1e68\u1e6a\u1e6c\u1e6e\u1e70\u1e72\u1e74\u1e76\u1e78\u1e7a\u1e7c\u1e7e\u1e80\u1e82\u1e84\u1e86\u1e88\u1e8a\u1e8c\u1e8e\u1e90\u1e92\u1e94\u1ea0\u1ea2\u1ea4\u1ea6\u1ea8\u1eaa\u1eac\u1eae\u1eb0\u1eb2\u1eb4\u1eb6\u1eb8\u1eba\u1ebc\u1ebe\u1ec0\u1ec2\u1ec4\u1ec6\u1ec8\u1eca\u1ecc\u1ece\u1ed0\u1ed2\u1ed4\u1ed6\u1ed8\u1eda\u1edc\u1ede\u1ee0\u1ee2\u1ee4\u1ee6\u1ee8\u1eea\u1eec\u1eee\u1ef0\u1ef2\u1ef4\u1ef6\u1ef8\u1f08\u1f09\u1f0a\u1f0b\u1f0c\u1f0d\u1f0e\u1f0f\u1f18\u1f19\u1f1a\u1f1b\u1f1c\u1f1d\u1f28\u1f29\u1f2a\u1f2b\u1f2c\u1f2d\u1f2e\u1f2f\u1f38\u1f39\u1f3a\u1f3b\u1f3c\u1f3d\u1f3e\u1f3f\u1f48\u1f49\u1f4a\u1f4b\u1f4c\u1f4d\u1f59\u1f5b\u1f5d\u1f5f\u1f68\u1f69\u1f6a\u1f6b\u1f6c\u1f6d\u1f6e\u1f6f\u1fb8\u1fb9\u1fba\u1fbb\u1fc8\u1fc9\u1fca\u1fcb\u1fd8\u1fd9\u1fda\u1fdb\u1fe8\u1fe9\u1fea\u1feb\u1fec\u1ff8\u1ff9\u1ffa\u1ffb\u2102\u2107\u210b\u210c\u210d\u2110\u2111\u2112\u2115\u2119\u211a\u211b\u211c\u211d\u2124\u2126\u2128\u212a\u212b\u212c\u212d\u2130\u2131\u2133\u213e\u213f\u2145\u2c00\u2c01\u2c02\u2c03\u2c04\u2c05\u2c06\u2c07\u2c08\u2c09\u2c0a\u2c0b\u2c0c\u2c0d\u2c0e\u2c0f\u2c10\u2c11\u2c12\u2c13\u2c14\u2c15\u2c16\u2c17\u2c18\u2c19\u2c1a\u2c1b\u2c1c\u2c1d\u2c1e\u2c1f\u2c20\u2c21\u2c22\u2c23\u2c24\u2c25\u2c26\u2c27\u2c28\u2c29\u2c2a\u2c2b\u2c2c\u2c2d\u2c2e\u2c80\u2c82\u2c84\u2c86\u2c88\u2c8a\u2c8c\u2c8e\u2c90\u2c92\u2c94\u2c96\u2c98\u2c9a\u2c9c\u2c9e\u2ca0\u2ca2\u2ca4\u2ca6\u2ca8\u2caa\u2cac\u2cae\u2cb0\u2cb2\u2cb4\u2cb6\u2cb8\u2cba\u2cbc\u2cbe\u2cc0\u2cc2\u2cc4\u2cc6\u2cc8\u2cca\u2ccc\u2cce\u2cd0\u2cd2\u2cd4\u2cd6\u2cd8\u2cda\u2cdc\u2cde\u2ce0\u2ce2\uff21\uff22\uff23\uff24\uff25\uff26\uff27\uff28\uff29\uff2a\uff2b\uff2c\uff2d\uff2e\uff2f\uff30\uff31\uff32\uff33\uff34\uff35\uff36\uff37\uff38\uff39\uff3a'
Mc = u'\u0903\u093e\u093f\u0940\u0949\u094a\u094b\u094c\u0982\u0983\u09be\u09bf\u09c0\u09c7\u09c8\u09cb\u09cc\u09d7\u0a03\u0a3e\u0a3f\u0a40\u0a83\u0abe\u0abf\u0ac0\u0ac9\u0acb\u0acc\u0b02\u0b03\u0b3e\u0b40\u0b47\u0b48\u0b4b\u0b4c\u0b57\u0bbe\u0bbf\u0bc1\u0bc2\u0bc6\u0bc7\u0bc8\u0bca\u0bcb\u0bcc\u0bd7\u0c01\u0c02\u0c03\u0c41\u0c42\u0c43\u0c44\u0c82\u0c83\u0cbe\u0cc0\u0cc1\u0cc2\u0cc3\u0cc4\u0cc7\u0cc8\u0cca\u0ccb\u0cd5\u0cd6\u0d02\u0d03\u0d3e\u0d3f\u0d40\u0d46\u0d47\u0d48\u0d4a\u0d4b\u0d4c\u0d57\u0d82\u0d83\u0dcf\u0dd0\u0dd1\u0dd8\u0dd9\u0dda\u0ddb\u0ddc\u0ddd\u0dde\u0ddf\u0df2\u0df3\u0f3e\u0f3f\u0f7f\u102c\u1031\u1038\u1056\u1057\u17b6\u17be\u17bf\u17c0\u17c1\u17c2\u17c3\u17c4\u17c5\u17c7\u17c8\u1923\u1924\u1925\u1926\u1929\u192a\u192b\u1930\u1931\u1933\u1934\u1935\u1936\u1937\u1938\u19b0\u19b1\u19b2\u19b3\u19b4\u19b5\u19b6\u19b7\u19b8\u19b9\u19ba\u19bb\u19bc\u19bd\u19be\u19bf\u19c0\u19c8\u19c9\u1a19\u1a1a\u1a1b\ua802\ua823\ua824\ua827'
Me = u'\u0488\u0489\u06de\u20dd\u20de\u20df\u20e0\u20e2\u20e3\u20e4'
Mn = u'\u0300\u0301\u0302\u0303\u0304\u0305\u0306\u0307\u0308\u0309\u030a\u030b\u030c\u030d\u030e\u030f\u0310\u0311\u0312\u0313\u0314\u0315\u0316\u0317\u0318\u0319\u031a\u031b\u031c\u031d\u031e\u031f\u0320\u0321\u0322\u0323\u0324\u0325\u0326\u0327\u0328\u0329\u032a\u032b\u032c\u032d\u032e\u032f\u0330\u0331\u0332\u0333\u0334\u0335\u0336\u0337\u0338\u0339\u033a\u033b\u033c\u033d\u033e\u033f\u0340\u0341\u0342\u0343\u0344\u0345\u0346\u0347\u0348\u0349\u034a\u034b\u034c\u034d\u034e\u034f\u0350\u0351\u0352\u0353\u0354\u0355\u0356\u0357\u0358\u0359\u035a\u035b\u035c\u035d\u035e\u035f\u0360\u0361\u0362\u0363\u0364\u0365\u0366\u0367\u0368\u0369\u036a\u036b\u036c\u036d\u036e\u036f\u0483\u0484\u0485\u0486\u0591\u0592\u0593\u0594\u0595\u0596\u0597\u0598\u0599\u059a\u059b\u059c\u059d\u059e\u059f\u05a0\u05a1\u05a2\u05a3\u05a4\u05a5\u05a6\u05a7\u05a8\u05a9\u05aa\u05ab\u05ac\u05ad\u05ae\u05af\u05b0\u05b1\u05b2\u05b3\u05b4\u05b5\u05b6\u05b7\u05b8\u05b9\u05bb\u05bc\u05bd\u05bf\u05c1\u05c2\u05c4\u05c5\u05c7\u0610\u0611\u0612\u0613\u0614\u0615\u064b\u064c\u064d\u064e\u064f\u0650\u0651\u0652\u0653\u0654\u0655\u0656\u0657\u0658\u0659\u065a\u065b\u065c\u065d\u065e\u0670\u06d6\u06d7\u06d8\u06d9\u06da\u06db\u06dc\u06df\u06e0\u06e1\u06e2\u06e3\u06e4\u06e7\u06e8\u06ea\u06eb\u06ec\u06ed\u0711\u0730\u0731\u0732\u0733\u0734\u0735\u0736\u0737\u0738\u0739\u073a\u073b\u073c\u073d\u073e\u073f\u0740\u0741\u0742\u0743\u0744\u0745\u0746\u0747\u0748\u0749\u074a\u07a6\u07a7\u07a8\u07a9\u07aa\u07ab\u07ac\u07ad\u07ae\u07af\u07b0\u0901\u0902\u093c\u0941\u0942\u0943\u0944\u0945\u0946\u0947\u0948\u094d\u0951\u0952\u0953\u0954\u0962\u0963\u0981\u09bc\u09c1\u09c2\u09c3\u09c4\u09cd\u09e2\u09e3\u0a01\u0a02\u0a3c\u0a41\u0a42\u0a47\u0a48\u0a4b\u0a4c\u0a4d\u0a70\u0a71\u0a81\u0a82\u0abc\u0ac1\u0ac2\u0ac3\u0ac4\u0ac5\u0ac7\u0ac8\u0acd\u0ae2\u0ae3\u0b01\u0b3c\u0b3f\u0b41\u0b42\u0b43\u0b4d\u0b56\u0b82\u0bc0\u0bcd\u0c3e\u0c3f\u0c40\u0c46\u0c47\u0c48\u0c4a\u0c4b\u0c4c\u0c4d\u0c55\u0c56\u0cbc\u0cbf\u0cc6\u0ccc\u0ccd\u0d41\u0d42\u0d43\u0d4d\u0dca\u0dd2\u0dd3\u0dd4\u0dd6\u0e31\u0e34\u0e35\u0e36\u0e37\u0e38\u0e39\u0e3a\u0e47\u0e48\u0e49\u0e4a\u0e4b\u0e4c\u0e4d\u0e4e\u0eb1\u0eb4\u0eb5\u0eb6\u0eb7\u0eb8\u0eb9\u0ebb\u0ebc\u0ec8\u0ec9\u0eca\u0ecb\u0ecc\u0ecd\u0f18\u0f19\u0f35\u0f37\u0f39\u0f71\u0f72\u0f73\u0f74\u0f75\u0f76\u0f77\u0f78\u0f79\u0f7a\u0f7b\u0f7c\u0f7d\u0f7e\u0f80\u0f81\u0f82\u0f83\u0f84\u0f86\u0f87\u0f90\u0f91\u0f92\u0f93\u0f94\u0f95\u0f96\u0f97\u0f99\u0f9a\u0f9b\u0f9c\u0f9d\u0f9e\u0f9f\u0fa0\u0fa1\u0fa2\u0fa3\u0fa4\u0fa5\u0fa6\u0fa7\u0fa8\u0fa9\u0faa\u0fab\u0fac\u0fad\u0fae\u0faf\u0fb0\u0fb1\u0fb2\u0fb3\u0fb4\u0fb5\u0fb6\u0fb7\u0fb8\u0fb9\u0fba\u0fbb\u0fbc\u0fc6\u102d\u102e\u102f\u1030\u1032\u1036\u1037\u1039\u1058\u1059\u135f\u1712\u1713\u1714\u1732\u1733\u1734\u1752\u1753\u1772\u1773\u17b7\u17b8\u17b9\u17ba\u17bb\u17bc\u17bd\u17c6\u17c9\u17ca\u17cb\u17cc\u17cd\u17ce\u17cf\u17d0\u17d1\u17d2\u17d3\u17dd\u180b\u180c\u180d\u18a9\u1920\u1921\u1922\u1927\u1928\u1932\u1939\u193a\u193b\u1a17\u1a18\u1dc0\u1dc1\u1dc2\u1dc3\u20d0\u20d1\u20d2\u20d3\u20d4\u20d5\u20d6\u20d7\u20d8\u20d9\u20da\u20db\u20dc\u20e1\u20e5\u20e6\u20e7\u20e8\u20e9\u20ea\u20eb\u302a\u302b\u302c\u302d\u302e\u302f\u3099\u309a\ua806\ua80b\ua825\ua826\ufb1e\ufe00\ufe01\ufe02\ufe03\ufe04\ufe05\ufe06\ufe07\ufe08\ufe09\ufe0a\ufe0b\ufe0c\ufe0d\ufe0e\ufe0f\ufe20\ufe21\ufe22\ufe23'
Nd = u'0123456789\u0660\u0661\u0662\u0663\u0664\u0665\u0666\u0667\u0668\u0669\u06f0\u06f1\u06f2\u06f3\u06f4\u06f5\u06f6\u06f7\u06f8\u06f9\u0966\u0967\u0968\u0969\u096a\u096b\u096c\u096d\u096e\u096f\u09e6\u09e7\u09e8\u09e9\u09ea\u09eb\u09ec\u09ed\u09ee\u09ef\u0a66\u0a67\u0a68\u0a69\u0a6a\u0a6b\u0a6c\u0a6d\u0a6e\u0a6f\u0ae6\u0ae7\u0ae8\u0ae9\u0aea\u0aeb\u0aec\u0aed\u0aee\u0aef\u0b66\u0b67\u0b68\u0b69\u0b6a\u0b6b\u0b6c\u0b6d\u0b6e\u0b6f\u0be6\u0be7\u0be8\u0be9\u0bea\u0beb\u0bec\u0bed\u0bee\u0bef\u0c66\u0c67\u0c68\u0c69\u0c6a\u0c6b\u0c6c\u0c6d\u0c6e\u0c6f\u0ce6\u0ce7\u0ce8\u0ce9\u0cea\u0ceb\u0cec\u0ced\u0cee\u0cef\u0d66\u0d67\u0d68\u0d69\u0d6a\u0d6b\u0d6c\u0d6d\u0d6e\u0d6f\u0e50\u0e51\u0e52\u0e53\u0e54\u0e55\u0e56\u0e57\u0e58\u0e59\u0ed0\u0ed1\u0ed2\u0ed3\u0ed4\u0ed5\u0ed6\u0ed7\u0ed8\u0ed9\u0f20\u0f21\u0f22\u0f23\u0f24\u0f25\u0f26\u0f27\u0f28\u0f29\u1040\u1041\u1042\u1043\u1044\u1045\u1046\u1047\u1048\u1049\u17e0\u17e1\u17e2\u17e3\u17e4\u17e5\u17e6\u17e7\u17e8\u17e9\u1810\u1811\u1812\u1813\u1814\u1815\u1816\u1817\u1818\u1819\u1946\u1947\u1948\u1949\u194a\u194b\u194c\u194d\u194e\u194f\u19d0\u19d1\u19d2\u19d3\u19d4\u19d5\u19d6\u19d7\u19d8\u19d9\uff10\uff11\uff12\uff13\uff14\uff15\uff16\uff17\uff18\uff19'
Nl = u'\u16ee\u16ef\u16f0\u2160\u2161\u2162\u2163\u2164\u2165\u2166\u2167\u2168\u2169\u216a\u216b\u216c\u216d\u216e\u216f\u2170\u2171\u2172\u2173\u2174\u2175\u2176\u2177\u2178\u2179\u217a\u217b\u217c\u217d\u217e\u217f\u2180\u2181\u2182\u2183\u3007\u3021\u3022\u3023\u3024\u3025\u3026\u3027\u3028\u3029\u3038\u3039\u303a'
No = u'\xb2\xb3\xb9\xbc\xbd\xbe\u09f4\u09f5\u09f6\u09f7\u09f8\u09f9\u0bf0\u0bf1\u0bf2\u0f2a\u0f2b\u0f2c\u0f2d\u0f2e\u0f2f\u0f30\u0f31\u0f32\u0f33\u1369\u136a\u136b\u136c\u136d\u136e\u136f\u1370\u1371\u1372\u1373\u1374\u1375\u1376\u1377\u1378\u1379\u137a\u137b\u137c\u17f0\u17f1\u17f2\u17f3\u17f4\u17f5\u17f6\u17f7\u17f8\u17f9\u2070\u2074\u2075\u2076\u2077\u2078\u2079\u2080\u2081\u2082\u2083\u2084\u2085\u2086\u2087\u2088\u2089\u2153\u2154\u2155\u2156\u2157\u2158\u2159\u215a\u215b\u215c\u215d\u215e\u215f\u2460\u2461\u2462\u2463\u2464\u2465\u2466\u2467\u2468\u2469\u246a\u246b\u246c\u246d\u246e\u246f\u2470\u2471\u2472\u2473\u2474\u2475\u2476\u2477\u2478\u2479\u247a\u247b\u247c\u247d\u247e\u247f\u2480\u2481\u2482\u2483\u2484\u2485\u2486\u2487\u2488\u2489\u248a\u248b\u248c\u248d\u248e\u248f\u2490\u2491\u2492\u2493\u2494\u2495\u2496\u2497\u2498\u2499\u249a\u249b\u24ea\u24eb\u24ec\u24ed\u24ee\u24ef\u24f0\u24f1\u24f2\u24f3\u24f4\u24f5\u24f6\u24f7\u24f8\u24f9\u24fa\u24fb\u24fc\u24fd\u24fe\u24ff\u2776\u2777\u2778\u2779\u277a\u277b\u277c\u277d\u277e\u277f\u2780\u2781\u2782\u2783\u2784\u2785\u2786\u2787\u2788\u2789\u278a\u278b\u278c\u278d\u278e\u278f\u2790\u2791\u2792\u2793\u2cfd\u3192\u3193\u3194\u3195\u3220\u3221\u3222\u3223\u3224\u3225\u3226\u3227\u3228\u3229\u3251\u3252\u3253\u3254\u3255\u3256\u3257\u3258\u3259\u325a\u325b\u325c\u325d\u325e\u325f\u3280\u3281\u3282\u3283\u3284\u3285\u3286\u3287\u3288\u3289\u32b1\u32b2\u32b3\u32b4\u32b5\u32b6\u32b7\u32b8\u32b9\u32ba\u32bb\u32bc\u32bd\u32be\u32bf'
Pc = u'_\u203f\u2040\u2054\ufe33\ufe34\ufe4d\ufe4e\ufe4f\uff3f'
Pd = u'-\u058a\u1806\u2010\u2011\u2012\u2013\u2014\u2015\u2e17\u301c\u3030\u30a0\ufe31\ufe32\ufe58\ufe63\uff0d'
Pe = u')]}\u0f3b\u0f3d\u169c\u2046\u207e\u208e\u232a\u23b5\u2769\u276b\u276d\u276f\u2771\u2773\u2775\u27c6\u27e7\u27e9\u27eb\u2984\u2986\u2988\u298a\u298c\u298e\u2990\u2992\u2994\u2996\u2998\u29d9\u29db\u29fd\u3009\u300b\u300d\u300f\u3011\u3015\u3017\u3019\u301b\u301e\u301f\ufd3f\ufe18\ufe36\ufe38\ufe3a\ufe3c\ufe3e\ufe40\ufe42\ufe44\ufe48\ufe5a\ufe5c\ufe5e\uff09\uff3d\uff5d\uff60\uff63'
Pf = u'\xbb\u2019\u201d\u203a\u2e03\u2e05\u2e0a\u2e0d\u2e1d'
Pi = u'\xab\u2018\u201b\u201c\u201f\u2039\u2e02\u2e04\u2e09\u2e0c\u2e1c'
Po = u'!"#%&\'*,./:;?@\\\xa1\xb7\xbf\u037e\u0387\u055a\u055b\u055c\u055d\u055e\u055f\u0589\u05be\u05c0\u05c3\u05c6\u05f3\u05f4\u060c\u060d\u061b\u061e\u061f\u066a\u066b\u066c\u066d\u06d4\u0700\u0701\u0702\u0703\u0704\u0705\u0706\u0707\u0708\u0709\u070a\u070b\u070c\u070d\u0964\u0965\u0970\u0df4\u0e4f\u0e5a\u0e5b\u0f04\u0f05\u0f06\u0f07\u0f08\u0f09\u0f0a\u0f0b\u0f0c\u0f0d\u0f0e\u0f0f\u0f10\u0f11\u0f12\u0f85\u0fd0\u0fd1\u104a\u104b\u104c\u104d\u104e\u104f\u10fb\u1361\u1362\u1363\u1364\u1365\u1366\u1367\u1368\u166d\u166e\u16eb\u16ec\u16ed\u1735\u1736\u17d4\u17d5\u17d6\u17d8\u17d9\u17da\u1800\u1801\u1802\u1803\u1804\u1805\u1807\u1808\u1809\u180a\u1944\u1945\u19de\u19df\u1a1e\u1a1f\u2016\u2017\u2020\u2021\u2022\u2023\u2024\u2025\u2026\u2027\u2030\u2031\u2032\u2033\u2034\u2035\u2036\u2037\u2038\u203b\u203c\u203d\u203e\u2041\u2042\u2043\u2047\u2048\u2049\u204a\u204b\u204c\u204d\u204e\u204f\u2050\u2051\u2053\u2055\u2056\u2057\u2058\u2059\u205a\u205b\u205c\u205d\u205e\u23b6\u2cf9\u2cfa\u2cfb\u2cfc\u2cfe\u2cff\u2e00\u2e01\u2e06\u2e07\u2e08\u2e0b\u2e0e\u2e0f\u2e10\u2e11\u2e12\u2e13\u2e14\u2e15\u2e16\u3001\u3002\u3003\u303d\u30fb\ufe10\ufe11\ufe12\ufe13\ufe14\ufe15\ufe16\ufe19\ufe30\ufe45\ufe46\ufe49\ufe4a\ufe4b\ufe4c\ufe50\ufe51\ufe52\ufe54\ufe55\ufe56\ufe57\ufe5f\ufe60\ufe61\ufe68\ufe6a\ufe6b\uff01\uff02\uff03\uff05\uff06\uff07\uff0a\uff0c\uff0e\uff0f\uff1a\uff1b\uff1f\uff20\uff3c\uff61\uff64\uff65'
Ps = u'([{\u0f3a\u0f3c\u169b\u201a\u201e\u2045\u207d\u208d\u2329\u23b4\u2768\u276a\u276c\u276e\u2770\u2772\u2774\u27c5\u27e6\u27e8\u27ea\u2983\u2985\u2987\u2989\u298b\u298d\u298f\u2991\u2993\u2995\u2997\u29d8\u29da\u29fc\u3008\u300a\u300c\u300e\u3010\u3014\u3016\u3018\u301a\u301d\ufd3e\ufe17\ufe35\ufe37\ufe39\ufe3b\ufe3d\ufe3f\ufe41\ufe43\ufe47\ufe59\ufe5b\ufe5d\uff08\uff3b\uff5b\uff5f\uff62'
Sc = u'$\xa2\xa3\xa4\xa5\u060b\u09f2\u09f3\u0af1\u0bf9\u0e3f\u17db\u20a0\u20a1\u20a2\u20a3\u20a4\u20a5\u20a6\u20a7\u20a8\u20a9\u20aa\u20ab\u20ac\u20ad\u20ae\u20af\u20b0\u20b1\u20b2\u20b3\u20b4\u20b5\ufdfc\ufe69\uff04\uffe0\uffe1\uffe5\uffe6'
Sk = u'^`\xa8\xaf\xb4\xb8\u02c2\u02c3\u02c4\u02c5\u02d2\u02d3\u02d4\u02d5\u02d6\u02d7\u02d8\u02d9\u02da\u02db\u02dc\u02dd\u02de\u02df\u02e5\u02e6\u02e7\u02e8\u02e9\u02ea\u02eb\u02ec\u02ed\u02ef\u02f0\u02f1\u02f2\u02f3\u02f4\u02f5\u02f6\u02f7\u02f8\u02f9\u02fa\u02fb\u02fc\u02fd\u02fe\u02ff\u0374\u0375\u0384\u0385\u1fbd\u1fbf\u1fc0\u1fc1\u1fcd\u1fce\u1fcf\u1fdd\u1fde\u1fdf\u1fed\u1fee\u1fef\u1ffd\u1ffe\u309b\u309c\ua700\ua701\ua702\ua703\ua704\ua705\ua706\ua707\ua708\ua709\ua70a\ua70b\ua70c\ua70d\ua70e\ua70f\ua710\ua711\ua712\ua713\ua714\ua715\ua716\uff3e\uff40\uffe3'
Sm = u'+<=>|~\xac\xb1\xd7\xf7\u03f6\u2044\u2052\u207a\u207b\u207c\u208a\u208b\u208c\u2140\u2141\u2142\u2143\u2144\u214b\u2190\u2191\u2192\u2193\u2194\u219a\u219b\u21a0\u21a3\u21a6\u21ae\u21ce\u21cf\u21d2\u21d4\u21f4\u21f5\u21f6\u21f7\u21f8\u21f9\u21fa\u21fb\u21fc\u21fd\u21fe\u21ff\u2200\u2201\u2202\u2203\u2204\u2205\u2206\u2207\u2208\u2209\u220a\u220b\u220c\u220d\u220e\u220f\u2210\u2211\u2212\u2213\u2214\u2215\u2216\u2217\u2218\u2219\u221a\u221b\u221c\u221d\u221e\u221f\u2220\u2221\u2222\u2223\u2224\u2225\u2226\u2227\u2228\u2229\u222a\u222b\u222c\u222d\u222e\u222f\u2230\u2231\u2232\u2233\u2234\u2235\u2236\u2237\u2238\u2239\u223a\u223b\u223c\u223d\u223e\u223f\u2240\u2241\u2242\u2243\u2244\u2245\u2246\u2247\u2248\u2249\u224a\u224b\u224c\u224d\u224e\u224f\u2250\u2251\u2252\u2253\u2254\u2255\u2256\u2257\u2258\u2259\u225a\u225b\u225c\u225d\u225e\u225f\u2260\u2261\u2262\u2263\u2264\u2265\u2266\u2267\u2268\u2269\u226a\u226b\u226c\u226d\u226e\u226f\u2270\u2271\u2272\u2273\u2274\u2275\u2276\u2277\u2278\u2279\u227a\u227b\u227c\u227d\u227e\u227f\u2280\u2281\u2282\u2283\u2284\u2285\u2286\u2287\u2288\u2289\u228a\u228b\u228c\u228d\u228e\u228f\u2290\u2291\u2292\u2293\u2294\u2295\u2296\u2297\u2298\u2299\u229a\u229b\u229c\u229d\u229e\u229f\u22a0\u22a1\u22a2\u22a3\u22a4\u22a5\u22a6\u22a7\u22a8\u22a9\u22aa\u22ab\u22ac\u22ad\u22ae\u22af\u22b0\u22b1\u22b2\u22b3\u22b4\u22b5\u22b6\u22b7\u22b8\u22b9\u22ba\u22bb\u22bc\u22bd\u22be\u22bf\u22c0\u22c1\u22c2\u22c3\u22c4\u22c5\u22c6\u22c7\u22c8\u22c9\u22ca\u22cb\u22cc\u22cd\u22ce\u22cf\u22d0\u22d1\u22d2\u22d3\u22d4\u22d5\u22d6\u22d7\u22d8\u22d9\u22da\u22db\u22dc\u22dd\u22de\u22df\u22e0\u22e1\u22e2\u22e3\u22e4\u22e5\u22e6\u22e7\u22e8\u22e9\u22ea\u22eb\u22ec\u22ed\u22ee\u22ef\u22f0\u22f1\u22f2\u22f3\u22f4\u22f5\u22f6\u22f7\u22f8\u22f9\u22fa\u22fb\u22fc\u22fd\u22fe\u22ff\u2308\u2309\u230a\u230b\u2320\u2321\u237c\u239b\u239c\u239d\u239e\u239f\u23a0\u23a1\u23a2\u23a3\u23a4\u23a5\u23a6\u23a7\u23a8\u23a9\u23aa\u23ab\u23ac\u23ad\u23ae\u23af\u23b0\u23b1\u23b2\u23b3\u25b7\u25c1\u25f8\u25f9\u25fa\u25fb\u25fc\u25fd\u25fe\u25ff\u266f\u27c0\u27c1\u27c2\u27c3\u27c4\u27d0\u27d1\u27d2\u27d3\u27d4\u27d5\u27d6\u27d7\u27d8\u27d9\u27da\u27db\u27dc\u27dd\u27de\u27df\u27e0\u27e1\u27e2\u27e3\u27e4\u27e5\u27f0\u27f1\u27f2\u27f3\u27f4\u27f5\u27f6\u27f7\u27f8\u27f9\u27fa\u27fb\u27fc\u27fd\u27fe\u27ff\u2900\u2901\u2902\u2903\u2904\u2905\u2906\u2907\u2908\u2909\u290a\u290b\u290c\u290d\u290e\u290f\u2910\u2911\u2912\u2913\u2914\u2915\u2916\u2917\u2918\u2919\u291a\u291b\u291c\u291d\u291e\u291f\u2920\u2921\u2922\u2923\u2924\u2925\u2926\u2927\u2928\u2929\u292a\u292b\u292c\u292d\u292e\u292f\u2930\u2931\u2932\u2933\u2934\u2935\u2936\u2937\u2938\u2939\u293a\u293b\u293c\u293d\u293e\u293f\u2940\u2941\u2942\u2943\u2944\u2945\u2946\u2947\u2948\u2949\u294a\u294b\u294c\u294d\u294e\u294f\u2950\u2951\u2952\u2953\u2954\u2955\u2956\u2957\u2958\u2959\u295a\u295b\u295c\u295d\u295e\u295f\u2960\u2961\u2962\u2963\u2964\u2965\u2966\u2967\u2968\u2969\u296a\u296b\u296c\u296d\u296e\u296f\u2970\u2971\u2972\u2973\u2974\u2975\u2976\u2977\u2978\u2979\u297a\u297b\u297c\u297d\u297e\u297f\u2980\u2981\u2982\u2999\u299a\u299b\u299c\u299d\u299e\u299f\u29a0\u29a1\u29a2\u29a3\u29a4\u29a5\u29a6\u29a7\u29a8\u29a9\u29aa\u29ab\u29ac\u29ad\u29ae\u29af\u29b0\u29b1\u29b2\u29b3\u29b4\u29b5\u29b6\u29b7\u29b8\u29b9\u29ba\u29bb\u29bc\u29bd\u29be\u29bf\u29c0\u29c1\u29c2\u29c3\u29c4\u29c5\u29c6\u29c7\u29c8\u29c9\u29ca\u29cb\u29cc\u29cd\u29ce\u29cf\u29d0\u29d1\u29d2\u29d3\u29d4\u29d5\u29d6\u29d7\u29dc\u29dd\u29de\u29df\u29e0\u29e1\u29e2\u29e3\u29e4\u29e5\u29e6\u29e7\u29e8\u29e9\u29ea\u29eb\u29ec\u29ed\u29ee\u29ef\u29f0\u29f1\u29f2\u29f3\u29f4\u29f5\u29f6\u29f7\u29f8\u29f9\u29fa\u29fb\u29fe\u29ff\u2a00\u2a01\u2a02\u2a03\u2a04\u2a05\u2a06\u2a07\u2a08\u2a09\u2a0a\u2a0b\u2a0c\u2a0d\u2a0e\u2a0f\u2a10\u2a11\u2a12\u2a13\u2a14\u2a15\u2a16\u2a17\u2a18\u2a19\u2a1a\u2a1b\u2a1c\u2a1d\u2a1e\u2a1f\u2a20\u2a21\u2a22\u2a23\u2a24\u2a25\u2a26\u2a27\u2a28\u2a29\u2a2a\u2a2b\u2a2c\u2a2d\u2a2e\u2a2f\u2a30\u2a31\u2a32\u2a33\u2a34\u2a35\u2a36\u2a37\u2a38\u2a39\u2a3a\u2a3b\u2a3c\u2a3d\u2a3e\u2a3f\u2a40\u2a41\u2a42\u2a43\u2a44\u2a45\u2a46\u2a47\u2a48\u2a49\u2a4a\u2a4b\u2a4c\u2a4d\u2a4e\u2a4f\u2a50\u2a51\u2a52\u2a53\u2a54\u2a55\u2a56\u2a57\u2a58\u2a59\u2a5a\u2a5b\u2a5c\u2a5d\u2a5e\u2a5f\u2a60\u2a61\u2a62\u2a63\u2a64\u2a65\u2a66\u2a67\u2a68\u2a69\u2a6a\u2a6b\u2a6c\u2a6d\u2a6e\u2a6f\u2a70\u2a71\u2a72\u2a73\u2a74\u2a75\u2a76\u2a77\u2a78\u2a79\u2a7a\u2a7b\u2a7c\u2a7d\u2a7e\u2a7f\u2a80\u2a81\u2a82\u2a83\u2a84\u2a85\u2a86\u2a87\u2a88\u2a89\u2a8a\u2a8b\u2a8c\u2a8d\u2a8e\u2a8f\u2a90\u2a91\u2a92\u2a93\u2a94\u2a95\u2a96\u2a97\u2a98\u2a99\u2a9a\u2a9b\u2a9c\u2a9d\u2a9e\u2a9f\u2aa0\u2aa1\u2aa2\u2aa3\u2aa4\u2aa5\u2aa6\u2aa7\u2aa8\u2aa9\u2aaa\u2aab\u2aac\u2aad\u2aae\u2aaf\u2ab0\u2ab1\u2ab2\u2ab3\u2ab4\u2ab5\u2ab6\u2ab7\u2ab8\u2ab9\u2aba\u2abb\u2abc\u2abd\u2abe\u2abf\u2ac0\u2ac1\u2ac2\u2ac3\u2ac4\u2ac5\u2ac6\u2ac7\u2ac8\u2ac9\u2aca\u2acb\u2acc\u2acd\u2ace\u2acf\u2ad0\u2ad1\u2ad2\u2ad3\u2ad4\u2ad5\u2ad6\u2ad7\u2ad8\u2ad9\u2ada\u2adb\u2adc\u2add\u2ade\u2adf\u2ae0\u2ae1\u2ae2\u2ae3\u2ae4\u2ae5\u2ae6\u2ae7\u2ae8\u2ae9\u2aea\u2aeb\u2aec\u2aed\u2aee\u2aef\u2af0\u2af1\u2af2\u2af3\u2af4\u2af5\u2af6\u2af7\u2af8\u2af9\u2afa\u2afb\u2afc\u2afd\u2afe\u2aff\ufb29\ufe62\ufe64\ufe65\ufe66\uff0b\uff1c\uff1d\uff1e\uff5c\uff5e\uffe2\uffe9\uffea\uffeb\uffec'
So = 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Zl = u'\u2028'
Zp = u'\u2029'
Zs = u' \xa0\u1680\u180e\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200a\u202f\u205f\u3000'
cats = ['Cc', 'Cf', 'Cn', 'Co', 'Cs', 'Ll', 'Lm', 'Lo', 'Lt', 'Lu', 'Mc', 'Me', 'Mn', 'Nd', 'Nl', 'No', 'Pc', 'Pd', 'Pe', 'Pf', 'Pi', 'Po', 'Ps', 'Sc', 'Sk', 'Sm', 'So', 'Zl', 'Zp', 'Zs']
def combine(*args):
return u''.join([globals()[cat] for cat in args])
xid_start = u'\u0041-\u005A\u005F\u0061-\u007A\u00AA\u00B5\u00BA\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u01BA\u01BB\u01BC-\u01BF\u01C0-\u01C3\u01C4-\u0241\u0250-\u02AF\u02B0-\u02C1\u02C6-\u02D1\u02E0-\u02E4\u02EE\u0386\u0388-\u038A\u038C\u038E-\u03A1\u03A3-\u03CE\u03D0-\u03F5\u03F7-\u0481\u048A-\u04CE\u04D0-\u04F9\u0500-\u050F\u0531-\u0556\u0559\u0561-\u0587\u05D0-\u05EA\u05F0-\u05F2\u0621-\u063A\u0640\u0641-\u064A\u066E-\u066F\u0671-\u06D3\u06D5\u06E5-\u06E6\u06EE-\u06EF\u06FA-\u06FC\u06FF\u0710\u0712-\u072F\u074D-\u076D\u0780-\u07A5\u07B1\u0904-\u0939\u093D\u0950\u0958-\u0961\u097D\u0985-\u098C\u098F-\u0990\u0993-\u09A8\u09AA-\u09B0\u09B2\u09B6-\u09B9\u09BD\u09CE\u09DC-\u09DD\u09DF-\u09E1\u09F0-\u09F1\u0A05-\u0A0A\u0A0F-\u0A10\u0A13-\u0A28\u0A2A-\u0A30\u0A32-\u0A33\u0A35-\u0A36\u0A38-\u0A39\u0A59-\u0A5C\u0A5E\u0A72-\u0A74\u0A85-\u0A8D\u0A8F-\u0A91\u0A93-\u0AA8\u0AAA-\u0AB0\u0AB2-\u0AB3\u0AB5-\u0AB9\u0ABD\u0AD0\u0AE0-\u0AE1\u0B05-\u0B0C\u0B0F-\u0B10\u0B13-\u0B28\u0B2A-\u0B30\u0B32-\u0B33\u0B35-\u0B39\u0B3D\u0B5C-\u0B5D\u0B5F-\u0B61\u0B71\u0B83\u0B85-\u0B8A\u0B8E-\u0B90\u0B92-\u0B95\u0B99-\u0B9A\u0B9C\u0B9E-\u0B9F\u0BA3-\u0BA4\u0BA8-\u0BAA\u0BAE-\u0BB9\u0C05-\u0C0C\u0C0E-\u0C10\u0C12-\u0C28\u0C2A-\u0C33\u0C35-\u0C39\u0C60-\u0C61\u0C85-\u0C8C\u0C8E-\u0C90\u0C92-\u0CA8\u0CAA-\u0CB3\u0CB5-\u0CB9\u0CBD\u0CDE\u0CE0-\u0CE1\u0D05-\u0D0C\u0D0E-\u0D10\u0D12-\u0D28\u0D2A-\u0D39\u0D60-\u0D61\u0D85-\u0D96\u0D9A-\u0DB1\u0DB3-\u0DBB\u0DBD\u0DC0-\u0DC6\u0E01-\u0E30\u0E32\u0E40-\u0E45\u0E46\u0E81-\u0E82\u0E84\u0E87-\u0E88\u0E8A\u0E8D\u0E94-\u0E97\u0E99-\u0E9F\u0EA1-\u0EA3\u0EA5\u0EA7\u0EAA-\u0EAB\u0EAD-\u0EB0\u0EB2\u0EBD\u0EC0-\u0EC4\u0EC6\u0EDC-\u0EDD\u0F00\u0F40-\u0F47\u0F49-\u0F6A\u0F88-\u0F8B\u1000-\u1021\u1023-\u1027\u1029-\u102A\u1050-\u1055\u10A0-\u10C5\u10D0-\u10FA\u10FC\u1100-\u1159\u115F-\u11A2\u11A8-\u11F9\u1200-\u1248\u124A-\u124D\u1250-\u1256\u1258\u125A-\u125D\u1260-\u1288\u128A-\u128D\u1290-\u12B0\u12B2-\u12B5\u12B8-\u12BE\u12C0\u12C2-\u12C5\u12C8-\u12D6\u12D8-\u1310\u1312-\u1315\u1318-\u135A\u1380-\u138F\u13A0-\u13F4\u1401-\u166C\u166F-\u1676\u1681-\u169A\u16A0-\u16EA\u16EE-\u16F0\u1700-\u170C\u170E-\u1711\u1720-\u1731\u1740-\u1751\u1760-\u176C\u176E-\u1770\u1780-\u17B3\u17D7\u17DC\u1820-\u1842\u1843\u1844-\u1877\u1880-\u18A8\u1900-\u191C\u1950-\u196D\u1970-\u1974\u1980-\u19A9\u19C1-\u19C7\u1A00-\u1A16\u1D00-\u1D2B\u1D2C-\u1D61\u1D62-\u1D77\u1D78\u1D79-\u1D9A\u1D9B-\u1DBF\u1E00-\u1E9B\u1EA0-\u1EF9\u1F00-\u1F15\u1F18-\u1F1D\u1F20-\u1F45\u1F48-\u1F4D\u1F50-\u1F57\u1F59\u1F5B\u1F5D\u1F5F-\u1F7D\u1F80-\u1FB4\u1FB6-\u1FBC\u1FBE\u1FC2-\u1FC4\u1FC6-\u1FCC\u1FD0-\u1FD3\u1FD6-\u1FDB\u1FE0-\u1FEC\u1FF2-\u1FF4\u1FF6-\u1FFC\u2071\u207F\u2090-\u2094\u2102\u2107\u210A-\u2113\u2115\u2118\u2119-\u211D\u2124\u2126\u2128\u212A-\u212D\u212E\u212F-\u2131\u2133-\u2134\u2135-\u2138\u2139\u213C-\u213F\u2145-\u2149\u2160-\u2183\u2C00-\u2C2E\u2C30-\u2C5E\u2C80-\u2CE4\u2D00-\u2D25\u2D30-\u2D65\u2D6F\u2D80-\u2D96\u2DA0-\u2DA6\u2DA8-\u2DAE\u2DB0-\u2DB6\u2DB8-\u2DBE\u2DC0-\u2DC6\u2DC8-\u2DCE\u2DD0-\u2DD6\u2DD8-\u2DDE\u3005\u3006\u3007\u3021-\u3029\u3031-\u3035\u3038-\u303A\u303B\u303C\u3041-\u3096\u309D-\u309E\u309F\u30A1-\u30FA\u30FC-\u30FE\u30FF\u3105-\u312C\u3131-\u318E\u31A0-\u31B7\u31F0-\u31FF\u3400-\u4DB5\u4E00-\u9FBB\uA000-\uA014\uA015\uA016-\uA48C\uA800-\uA801\uA803-\uA805\uA807-\uA80A\uA80C-\uA822\uAC00-\uD7A3\uF900-\uFA2D\uFA30-\uFA6A\uFA70-\uFAD9\uFB00-\uFB06\uFB13-\uFB17\uFB1D\uFB1F-\uFB28\uFB2A-\uFB36\uFB38-\uFB3C\uFB3E\uFB40-\uFB41\uFB43-\uFB44\uFB46-\uFBB1\uFBD3-\uFC5D\uFC64-\uFD3D\uFD50-\uFD8F\uFD92-\uFDC7\uFDF0-\uFDF9\uFE71\uFE73\uFE77\uFE79\uFE7B\uFE7D\uFE7F-\uFEFC\uFF21-\uFF3A\uFF41-\uFF5A\uFF66-\uFF6F\uFF70\uFF71-\uFF9D\uFFA0-\uFFBE\uFFC2-\uFFC7\uFFCA-\uFFCF\uFFD2-\uFFD7\uFFDA-\uFFDC'
xid_continue = u'\u0030-\u0039\u0041-\u005A\u005F\u0061-\u007A\u00AA\u00B5\u00B7\u00BA\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u01BA\u01BB\u01BC-\u01BF\u01C0-\u01C3\u01C4-\u0241\u0250-\u02AF\u02B0-\u02C1\u02C6-\u02D1\u02E0-\u02E4\u02EE\u0300-\u036F\u0386\u0388-\u038A\u038C\u038E-\u03A1\u03A3-\u03CE\u03D0-\u03F5\u03F7-\u0481\u0483-\u0486\u048A-\u04CE\u04D0-\u04F9\u0500-\u050F\u0531-\u0556\u0559\u0561-\u0587\u0591-\u05B9\u05BB-\u05BD\u05BF\u05C1-\u05C2\u05C4-\u05C5\u05C7\u05D0-\u05EA\u05F0-\u05F2\u0610-\u0615\u0621-\u063A\u0640\u0641-\u064A\u064B-\u065E\u0660-\u0669\u066E-\u066F\u0670\u0671-\u06D3\u06D5\u06D6-\u06DC\u06DF-\u06E4\u06E5-\u06E6\u06E7-\u06E8\u06EA-\u06ED\u06EE-\u06EF\u06F0-\u06F9\u06FA-\u06FC\u06FF\u0710\u0711\u0712-\u072F\u0730-\u074A\u074D-\u076D\u0780-\u07A5\u07A6-\u07B0\u07B1\u0901-\u0902\u0903\u0904-\u0939\u093C\u093D\u093E-\u0940\u0941-\u0948\u0949-\u094C\u094D\u0950\u0951-\u0954\u0958-\u0961\u0962-\u0963\u0966-\u096F\u097D\u0981\u0982-\u0983\u0985-\u098C\u098F-\u0990\u0993-\u09A8\u09AA-\u09B0\u09B2\u09B6-\u09B9\u09BC\u09BD\u09BE-\u09C0\u09C1-\u09C4\u09C7-\u09C8\u09CB-\u09CC\u09CD\u09CE\u09D7\u09DC-\u09DD\u09DF-\u09E1\u09E2-\u09E3\u09E6-\u09EF\u09F0-\u09F1\u0A01-\u0A02\u0A03\u0A05-\u0A0A\u0A0F-\u0A10\u0A13-\u0A28\u0A2A-\u0A30\u0A32-\u0A33\u0A35-\u0A36\u0A38-\u0A39\u0A3C\u0A3E-\u0A40\u0A41-\u0A42\u0A47-\u0A48\u0A4B-\u0A4D\u0A59-\u0A5C\u0A5E\u0A66-\u0A6F\u0A70-\u0A71\u0A72-\u0A74\u0A81-\u0A82\u0A83\u0A85-\u0A8D\u0A8F-\u0A91\u0A93-\u0AA8\u0AAA-\u0AB0\u0AB2-\u0AB3\u0AB5-\u0AB9\u0ABC\u0ABD\u0ABE-\u0AC0\u0AC1-\u0AC5\u0AC7-\u0AC8\u0AC9\u0ACB-\u0ACC\u0ACD\u0AD0\u0AE0-\u0AE1\u0AE2-\u0AE3\u0AE6-\u0AEF\u0B01\u0B02-\u0B03\u0B05-\u0B0C\u0B0F-\u0B10\u0B13-\u0B28\u0B2A-\u0B30\u0B32-\u0B33\u0B35-\u0B39\u0B3C\u0B3D\u0B3E\u0B3F\u0B40\u0B41-\u0B43\u0B47-\u0B48\u0B4B-\u0B4C\u0B4D\u0B56\u0B57\u0B5C-\u0B5D\u0B5F-\u0B61\u0B66-\u0B6F\u0B71\u0B82\u0B83\u0B85-\u0B8A\u0B8E-\u0B90\u0B92-\u0B95\u0B99-\u0B9A\u0B9C\u0B9E-\u0B9F\u0BA3-\u0BA4\u0BA8-\u0BAA\u0BAE-\u0BB9\u0BBE-\u0BBF\u0BC0\u0BC1-\u0BC2\u0BC6-\u0BC8\u0BCA-\u0BCC\u0BCD\u0BD7\u0BE6-\u0BEF\u0C01-\u0C03\u0C05-\u0C0C\u0C0E-\u0C10\u0C12-\u0C28\u0C2A-\u0C33\u0C35-\u0C39\u0C3E-\u0C40\u0C41-\u0C44\u0C46-\u0C48\u0C4A-\u0C4D\u0C55-\u0C56\u0C60-\u0C61\u0C66-\u0C6F\u0C82-\u0C83\u0C85-\u0C8C\u0C8E-\u0C90\u0C92-\u0CA8\u0CAA-\u0CB3\u0CB5-\u0CB9\u0CBC\u0CBD\u0CBE\u0CBF\u0CC0-\u0CC4\u0CC6\u0CC7-\u0CC8\u0CCA-\u0CCB\u0CCC-\u0CCD\u0CD5-\u0CD6\u0CDE\u0CE0-\u0CE1\u0CE6-\u0CEF\u0D02-\u0D03\u0D05-\u0D0C\u0D0E-\u0D10\u0D12-\u0D28\u0D2A-\u0D39\u0D3E-\u0D40\u0D41-\u0D43\u0D46-\u0D48\u0D4A-\u0D4C\u0D4D\u0D57\u0D60-\u0D61\u0D66-\u0D6F\u0D82-\u0D83\u0D85-\u0D96\u0D9A-\u0DB1\u0DB3-\u0DBB\u0DBD\u0DC0-\u0DC6\u0DCA\u0DCF-\u0DD1\u0DD2-\u0DD4\u0DD6\u0DD8-\u0DDF\u0DF2-\u0DF3\u0E01-\u0E30\u0E31\u0E32-\u0E33\u0E34-\u0E3A\u0E40-\u0E45\u0E46\u0E47-\u0E4E\u0E50-\u0E59\u0E81-\u0E82\u0E84\u0E87-\u0E88\u0E8A\u0E8D\u0E94-\u0E97\u0E99-\u0E9F\u0EA1-\u0EA3\u0EA5\u0EA7\u0EAA-\u0EAB\u0EAD-\u0EB0\u0EB1\u0EB2-\u0EB3\u0EB4-\u0EB9\u0EBB-\u0EBC\u0EBD\u0EC0-\u0EC4\u0EC6\u0EC8-\u0ECD\u0ED0-\u0ED9\u0EDC-\u0EDD\u0F00\u0F18-\u0F19\u0F20-\u0F29\u0F35\u0F37\u0F39\u0F3E-\u0F3F\u0F40-\u0F47\u0F49-\u0F6A\u0F71-\u0F7E\u0F7F\u0F80-\u0F84\u0F86-\u0F87\u0F88-\u0F8B\u0F90-\u0F97\u0F99-\u0FBC\u0FC6\u1000-\u1021\u1023-\u1027\u1029-\u102A\u102C\u102D-\u1030\u1031\u1032\u1036-\u1037\u1038\u1039\u1040-\u1049\u1050-\u1055\u1056-\u1057\u1058-\u1059\u10A0-\u10C5\u10D0-\u10FA\u10FC\u1100-\u1159\u115F-\u11A2\u11A8-\u11F9\u1200-\u1248\u124A-\u124D\u1250-\u1256\u1258\u125A-\u125D\u1260-\u1288\u128A-\u128D\u1290-\u12B0\u12B2-\u12B5\u12B8-\u12BE\u12C0\u12C2-\u12C5\u12C8-\u12D6\u12D8-\u1310\u1312-\u1315\u1318-\u135A\u135F\u1369-\u1371\u1380-\u138F\u13A0-\u13F4\u1401-\u166C\u166F-\u1676\u1681-\u169A\u16A0-\u16EA\u16EE-\u16F0\u1700-\u170C\u170E-\u1711\u1712-\u1714\u1720-\u1731\u1732-\u1734\u1740-\u1751\u1752-\u1753\u1760-\u176C\u176E-\u1770\u1772-\u1773\u1780-\u17B3\u17B6\u17B7-\u17BD\u17BE-\u17C5\u17C6\u17C7-\u17C8\u17C9-\u17D3\u17D7\u17DC\u17DD\u17E0-\u17E9\u180B-\u180D\u1810-\u1819\u1820-\u1842\u1843\u1844-\u1877\u1880-\u18A8\u18A9\u1900-\u191C\u1920-\u1922\u1923-\u1926\u1927-\u1928\u1929-\u192B\u1930-\u1931\u1932\u1933-\u1938\u1939-\u193B\u1946-\u194F\u1950-\u196D\u1970-\u1974\u1980-\u19A9\u19B0-\u19C0\u19C1-\u19C7\u19C8-\u19C9\u19D0-\u19D9\u1A00-\u1A16\u1A17-\u1A18\u1A19-\u1A1B\u1D00-\u1D2B\u1D2C-\u1D61\u1D62-\u1D77\u1D78\u1D79-\u1D9A\u1D9B-\u1DBF\u1DC0-\u1DC3\u1E00-\u1E9B\u1EA0-\u1EF9\u1F00-\u1F15\u1F18-\u1F1D\u1F20-\u1F45\u1F48-\u1F4D\u1F50-\u1F57\u1F59\u1F5B\u1F5D\u1F5F-\u1F7D\u1F80-\u1FB4\u1FB6-\u1FBC\u1FBE\u1FC2-\u1FC4\u1FC6-\u1FCC\u1FD0-\u1FD3\u1FD6-\u1FDB\u1FE0-\u1FEC\u1FF2-\u1FF4\u1FF6-\u1FFC\u203F-\u2040\u2054\u2071\u207F\u2090-\u2094\u20D0-\u20DC\u20E1\u20E5-\u20EB\u2102\u2107\u210A-\u2113\u2115\u2118\u2119-\u211D\u2124\u2126\u2128\u212A-\u212D\u212E\u212F-\u2131\u2133-\u2134\u2135-\u2138\u2139\u213C-\u213F\u2145-\u2149\u2160-\u2183\u2C00-\u2C2E\u2C30-\u2C5E\u2C80-\u2CE4\u2D00-\u2D25\u2D30-\u2D65\u2D6F\u2D80-\u2D96\u2DA0-\u2DA6\u2DA8-\u2DAE\u2DB0-\u2DB6\u2DB8-\u2DBE\u2DC0-\u2DC6\u2DC8-\u2DCE\u2DD0-\u2DD6\u2DD8-\u2DDE\u3005\u3006\u3007\u3021-\u3029\u302A-\u302F\u3031-\u3035\u3038-\u303A\u303B\u303C\u3041-\u3096\u3099-\u309A\u309D-\u309E\u309F\u30A1-\u30FA\u30FC-\u30FE\u30FF\u3105-\u312C\u3131-\u318E\u31A0-\u31B7\u31F0-\u31FF\u3400-\u4DB5\u4E00-\u9FBB\uA000-\uA014\uA015\uA016-\uA48C\uA800-\uA801\uA802\uA803-\uA805\uA806\uA807-\uA80A\uA80B\uA80C-\uA822\uA823-\uA824\uA825-\uA826\uA827\uAC00-\uD7A3\uF900-\uFA2D\uFA30-\uFA6A\uFA70-\uFAD9\uFB00-\uFB06\uFB13-\uFB17\uFB1D\uFB1E\uFB1F-\uFB28\uFB2A-\uFB36\uFB38-\uFB3C\uFB3E\uFB40-\uFB41\uFB43-\uFB44\uFB46-\uFBB1\uFBD3-\uFC5D\uFC64-\uFD3D\uFD50-\uFD8F\uFD92-\uFDC7\uFDF0-\uFDF9\uFE00-\uFE0F\uFE20-\uFE23\uFE33-\uFE34\uFE4D-\uFE4F\uFE71\uFE73\uFE77\uFE79\uFE7B\uFE7D\uFE7F-\uFEFC\uFF10-\uFF19\uFF21-\uFF3A\uFF3F\uFF41-\uFF5A\uFF66-\uFF6F\uFF70\uFF71-\uFF9D\uFF9E-\uFF9F\uFFA0-\uFFBE\uFFC2-\uFFC7\uFFCA-\uFFCF\uFFD2-\uFFD7\uFFDA-\uFFDC'
def allexcept(*args):
newcats = cats[:]
for arg in args:
newcats.remove(arg)
return u''.join([globals()[cat] for cat in newcats])
if __name__ == '__main__':
import unicodedata
categories = {}
f = open(__file__.rstrip('co'))
try:
content = f.read()
finally:
f.close()
header = content[:content.find('Cc =')]
footer = content[content.find("def combine("):]
for code in range(65535):
c = unichr(code)
cat = unicodedata.category(c)
categories.setdefault(cat, []).append(c)
f = open(__file__, 'w')
f.write(header)
for cat in sorted(categories):
val = u''.join(categories[cat])
if cat == 'Cs':
# Jython can't handle isolated surrogates
f.write("""\
try:
Cs = eval(r"%r")
except UnicodeDecodeError:
Cs = '' # Jython can't handle isolated surrogates\n\n""" % val)
else:
f.write('%s = %r\n\n' % (cat, val))
f.write('cats = %r\n\n' % sorted(categories.keys()))
f.write(footer)
f.close()
| gpl-2.0 |
coderbone/SickRage | lib/requests/packages/chardet/langhungarianmodel.py | 2763 | 12536 | ######################## BEGIN LICENSE BLOCK ########################
# The Original Code is Mozilla Communicator client code.
#
# The Initial Developer of the Original Code is
# Netscape Communications Corporation.
# Portions created by the Initial Developer are Copyright (C) 1998
# the Initial Developer. All Rights Reserved.
#
# Contributor(s):
# Mark Pilgrim - port to Python
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
# 02110-1301 USA
######################### END LICENSE BLOCK #########################
# 255: Control characters that usually does not exist in any text
# 254: Carriage/Return
# 253: symbol (punctuation) that does not belong to word
# 252: 0 - 9
# Character Mapping Table:
Latin2_HungarianCharToOrderMap = (
255,255,255,255,255,255,255,255,255,255,254,255,255,254,255,255, # 00
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255, # 10
253,253,253,253,253,253,253,253,253,253,253,253,253,253,253,253, # 20
252,252,252,252,252,252,252,252,252,252,253,253,253,253,253,253, # 30
253, 28, 40, 54, 45, 32, 50, 49, 38, 39, 53, 36, 41, 34, 35, 47,
46, 71, 43, 33, 37, 57, 48, 64, 68, 55, 52,253,253,253,253,253,
253, 2, 18, 26, 17, 1, 27, 12, 20, 9, 22, 7, 6, 13, 4, 8,
23, 67, 10, 5, 3, 21, 19, 65, 62, 16, 11,253,253,253,253,253,
159,160,161,162,163,164,165,166,167,168,169,170,171,172,173,174,
175,176,177,178,179,180,181,182,183,184,185,186,187,188,189,190,
191,192,193,194,195,196,197, 75,198,199,200,201,202,203,204,205,
79,206,207,208,209,210,211,212,213,214,215,216,217,218,219,220,
221, 51, 81,222, 78,223,224,225,226, 44,227,228,229, 61,230,231,
232,233,234, 58,235, 66, 59,236,237,238, 60, 69, 63,239,240,241,
82, 14, 74,242, 70, 80,243, 72,244, 15, 83, 77, 84, 30, 76, 85,
245,246,247, 25, 73, 42, 24,248,249,250, 31, 56, 29,251,252,253,
)
win1250HungarianCharToOrderMap = (
255,255,255,255,255,255,255,255,255,255,254,255,255,254,255,255, # 00
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255, # 10
253,253,253,253,253,253,253,253,253,253,253,253,253,253,253,253, # 20
252,252,252,252,252,252,252,252,252,252,253,253,253,253,253,253, # 30
253, 28, 40, 54, 45, 32, 50, 49, 38, 39, 53, 36, 41, 34, 35, 47,
46, 72, 43, 33, 37, 57, 48, 64, 68, 55, 52,253,253,253,253,253,
253, 2, 18, 26, 17, 1, 27, 12, 20, 9, 22, 7, 6, 13, 4, 8,
23, 67, 10, 5, 3, 21, 19, 65, 62, 16, 11,253,253,253,253,253,
161,162,163,164,165,166,167,168,169,170,171,172,173,174,175,176,
177,178,179,180, 78,181, 69,182,183,184,185,186,187,188,189,190,
191,192,193,194,195,196,197, 76,198,199,200,201,202,203,204,205,
81,206,207,208,209,210,211,212,213,214,215,216,217,218,219,220,
221, 51, 83,222, 80,223,224,225,226, 44,227,228,229, 61,230,231,
232,233,234, 58,235, 66, 59,236,237,238, 60, 70, 63,239,240,241,
84, 14, 75,242, 71, 82,243, 73,244, 15, 85, 79, 86, 30, 77, 87,
245,246,247, 25, 74, 42, 24,248,249,250, 31, 56, 29,251,252,253,
)
# Model Table:
# total sequences: 100%
# first 512 sequences: 94.7368%
# first 1024 sequences:5.2623%
# rest sequences: 0.8894%
# negative sequences: 0.0009%
HungarianLangModel = (
0,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,1,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,
3,3,3,3,3,3,3,3,3,3,2,3,3,3,3,3,3,3,3,2,2,3,3,1,1,2,2,2,2,2,1,2,
3,2,2,3,3,3,3,3,2,3,3,3,3,3,3,1,2,3,3,3,3,2,3,3,1,1,3,3,0,1,1,1,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,2,0,
3,2,1,3,3,3,3,3,2,3,3,3,3,3,1,1,2,3,3,3,3,3,3,3,1,1,3,2,0,1,1,1,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,
3,3,3,3,3,3,3,3,3,3,3,1,1,2,3,3,3,1,3,3,3,3,3,1,3,3,2,2,0,3,2,3,
0,0,0,0,0,0,0,0,0,0,3,0,0,0,0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,
3,3,3,3,3,3,2,3,3,3,2,3,3,2,3,3,3,3,3,2,3,3,2,2,3,2,3,2,0,3,2,2,
0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,1,0,
3,3,3,3,3,3,2,3,3,3,3,3,2,3,3,3,1,2,3,2,2,3,1,2,3,3,2,2,0,3,3,3,
0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,3,3,3,3,3,3,3,3,3,2,2,3,3,3,3,3,3,2,3,3,3,3,2,3,3,3,3,0,2,3,2,
0,0,0,1,1,0,0,0,0,0,3,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,3,3,3,3,3,3,3,3,3,3,1,1,1,3,3,2,1,3,2,2,3,2,1,3,2,2,1,0,3,3,1,
0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,2,2,3,3,3,3,3,1,2,3,3,3,3,1,2,1,3,3,3,3,2,2,3,1,1,3,2,0,1,1,1,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,
3,3,3,3,3,3,3,3,2,2,3,3,3,3,3,2,1,3,3,3,3,3,2,2,1,3,3,3,0,1,1,2,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,1,0,
3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,2,3,3,3,2,3,3,2,3,3,3,2,0,3,2,3,
0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,1,0,
3,3,3,3,3,3,2,3,3,3,2,3,2,3,3,3,1,3,2,2,2,3,1,1,3,3,1,1,0,3,3,2,
0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,3,3,3,3,3,3,2,3,3,3,2,3,2,3,3,3,2,3,3,3,3,3,1,2,3,2,2,0,2,2,2,
0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,3,3,2,2,2,3,1,3,3,2,2,1,3,3,3,1,1,3,1,2,3,2,3,2,2,2,1,0,2,2,2,
0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,
3,1,1,3,3,3,3,3,1,2,3,3,3,3,1,2,1,3,3,3,2,2,3,2,1,0,3,2,0,1,1,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
3,1,1,3,3,3,3,3,1,2,3,3,3,3,1,1,0,3,3,3,3,0,2,3,0,0,2,1,0,1,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
3,3,3,3,3,3,2,2,3,3,2,2,2,2,3,3,0,1,2,3,2,3,2,2,3,2,1,2,0,2,2,2,
0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,
3,3,3,3,3,3,1,2,3,3,3,2,1,2,3,3,2,2,2,3,2,3,3,1,3,3,1,1,0,2,3,2,
0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,3,3,1,2,2,2,2,3,3,3,1,1,1,3,3,1,1,3,1,1,3,2,1,2,3,1,1,0,2,2,2,
0,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,3,3,2,1,2,1,1,3,3,1,1,1,1,3,3,1,1,2,2,1,2,1,1,2,2,1,1,0,2,2,1,
0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,3,3,1,1,2,1,1,3,3,1,0,1,1,3,3,2,0,1,1,2,3,1,0,2,2,1,0,0,1,3,2,
0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,2,1,3,3,3,3,3,1,2,3,2,3,3,2,1,1,3,2,3,2,1,2,2,0,1,2,1,0,0,1,1,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,
3,3,3,3,2,2,2,2,3,1,2,2,1,1,3,3,0,3,2,1,2,3,2,1,3,3,1,1,0,2,1,3,
0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,3,3,2,2,2,3,2,3,3,3,2,1,1,3,3,1,1,1,2,2,3,2,3,2,2,2,1,0,2,2,1,
0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
1,0,0,3,3,3,3,3,0,0,3,3,2,3,0,0,0,2,3,3,1,0,1,2,0,0,1,1,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
3,1,2,3,3,3,3,3,1,2,3,3,2,2,1,1,0,3,3,2,2,1,2,2,1,0,2,2,0,1,1,1,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
3,3,2,2,1,3,1,2,3,3,2,2,1,1,2,2,1,1,1,1,3,2,1,1,1,1,2,1,0,1,2,1,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,1,0,0,0,0,0,0,0,0,0,
2,3,3,1,1,1,1,1,3,3,3,0,1,1,3,3,1,1,1,1,1,2,2,0,3,1,1,2,0,2,1,1,
0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,
3,1,0,1,2,1,2,2,0,1,2,3,1,2,0,0,0,2,1,1,1,1,1,2,0,0,1,1,0,0,0,0,
1,2,1,2,2,2,1,2,1,2,0,2,0,2,2,1,1,2,1,1,2,1,1,1,0,1,0,0,0,1,1,0,
1,1,1,2,3,2,3,3,0,1,2,2,3,1,0,1,0,2,1,2,2,0,1,1,0,0,1,1,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
1,0,0,3,3,2,2,1,0,0,3,2,3,2,0,0,0,1,1,3,0,0,1,1,0,0,2,1,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
3,1,1,2,2,3,3,1,0,1,3,2,3,1,1,1,0,1,1,1,1,1,3,1,0,0,2,2,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
3,1,1,1,2,2,2,1,0,1,2,3,3,2,0,0,0,2,1,1,1,2,1,1,1,0,1,1,1,0,0,0,
1,2,2,2,2,2,1,1,1,2,0,2,1,1,1,1,1,2,1,1,1,1,1,1,0,1,1,1,0,0,1,1,
3,2,2,1,0,0,1,1,2,2,0,3,0,1,2,1,1,0,0,1,1,1,0,1,1,1,1,0,2,1,1,1,
2,2,1,1,1,2,1,2,1,1,1,1,1,1,1,2,1,1,1,2,3,1,1,1,1,1,1,1,1,1,0,1,
2,3,3,0,1,0,0,0,3,3,1,0,0,1,2,2,1,0,0,0,0,2,0,0,1,1,1,0,2,1,1,1,
2,1,1,1,1,1,1,2,1,1,0,1,1,0,1,1,1,0,1,2,1,1,0,1,1,1,1,1,1,1,0,1,
2,3,3,0,1,0,0,0,2,2,0,0,0,0,1,2,2,0,0,0,0,1,0,0,1,1,0,0,2,0,1,0,
2,1,1,1,1,2,1,1,1,1,1,1,1,2,1,1,1,1,1,1,1,1,1,2,0,1,1,1,1,1,0,1,
3,2,2,0,1,0,1,0,2,3,2,0,0,1,2,2,1,0,0,1,1,1,0,0,2,1,0,1,2,2,1,1,
2,1,1,1,1,1,1,2,1,1,1,1,1,1,0,2,1,0,1,1,0,1,1,1,0,1,1,2,1,1,0,1,
2,2,2,0,0,1,0,0,2,2,1,1,0,0,2,1,1,0,0,0,1,2,0,0,2,1,0,0,2,1,1,1,
2,1,1,1,1,2,1,2,1,1,1,2,2,1,1,2,1,1,1,2,1,1,1,1,1,1,1,1,1,1,0,1,
1,2,3,0,0,0,1,0,3,2,1,0,0,1,2,1,1,0,0,0,0,2,1,0,1,1,0,0,2,1,2,1,
1,1,0,0,0,1,0,1,1,1,1,1,2,0,0,1,0,0,0,2,0,0,1,1,1,1,1,1,1,1,0,1,
3,0,0,2,1,2,2,1,0,0,2,1,2,2,0,0,0,2,1,1,1,0,1,1,0,0,1,1,2,0,0,0,
1,2,1,2,2,1,1,2,1,2,0,1,1,1,1,1,1,1,1,1,2,1,1,0,0,1,1,1,1,0,0,1,
1,3,2,0,0,0,1,0,2,2,2,0,0,0,2,2,1,0,0,0,0,3,1,1,1,1,0,0,2,1,1,1,
2,1,0,1,1,1,0,1,1,1,1,1,1,1,0,2,1,0,0,1,0,1,1,0,1,1,1,1,1,1,0,1,
2,3,2,0,0,0,1,0,2,2,0,0,0,0,2,1,1,0,0,0,0,2,1,0,1,1,0,0,2,1,1,0,
2,1,1,1,1,2,1,2,1,2,0,1,1,1,0,2,1,1,1,2,1,1,1,1,0,1,1,1,1,1,0,1,
3,1,1,2,2,2,3,2,1,1,2,2,1,1,0,1,0,2,2,1,1,1,1,1,0,0,1,1,0,1,1,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
2,2,2,0,0,0,0,0,2,2,0,0,0,0,2,2,1,0,0,0,1,1,0,0,1,2,0,0,2,1,1,1,
2,2,1,1,1,2,1,2,1,1,0,1,1,1,1,2,1,1,1,2,1,1,1,1,0,1,2,1,1,1,0,1,
1,0,0,1,2,3,2,1,0,0,2,0,1,1,0,0,0,1,1,1,1,0,1,1,0,0,1,0,0,0,0,0,
1,2,1,2,1,2,1,1,1,2,0,2,1,1,1,0,1,2,0,0,1,1,1,0,0,0,0,0,0,0,0,0,
2,3,2,0,0,0,0,0,1,1,2,1,0,0,1,1,1,0,0,0,0,2,0,0,1,1,0,0,2,1,1,1,
2,1,1,1,1,1,1,2,1,0,1,1,1,1,0,2,1,1,1,1,1,1,0,1,0,1,1,1,1,1,0,1,
1,2,2,0,1,1,1,0,2,2,2,0,0,0,3,2,1,0,0,0,1,1,0,0,1,1,0,1,1,1,0,0,
1,1,0,1,1,1,1,1,1,1,1,2,1,1,1,1,1,1,1,2,1,1,1,0,0,1,1,1,0,1,0,1,
2,1,0,2,1,1,2,2,1,1,2,1,1,1,0,0,0,1,1,0,1,1,1,1,0,0,1,1,1,0,0,0,
1,2,2,2,2,2,1,1,1,2,0,2,1,1,1,1,1,1,1,1,1,1,1,1,0,1,1,0,0,0,1,0,
1,2,3,0,0,0,1,0,2,2,0,0,0,0,2,2,0,0,0,0,0,1,0,0,1,0,0,0,2,0,1,0,
2,1,1,1,1,1,0,2,0,0,0,1,2,1,1,1,1,0,1,2,0,1,0,1,0,1,1,1,0,1,0,1,
2,2,2,0,0,0,1,0,2,1,2,0,0,0,1,1,2,0,0,0,0,1,0,0,1,1,0,0,2,1,0,1,
2,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,0,1,1,1,1,1,0,1,
1,2,2,0,0,0,1,0,2,2,2,0,0,0,1,1,0,0,0,0,0,1,1,0,2,0,0,1,1,1,0,1,
1,0,1,1,1,1,1,1,0,1,1,1,1,0,0,1,0,0,1,1,0,1,0,1,1,1,1,1,0,0,0,1,
1,0,0,1,0,1,2,1,0,0,1,1,1,2,0,0,0,1,1,0,1,0,1,1,0,0,1,0,0,0,0,0,
0,2,1,2,1,1,1,1,1,2,0,2,0,1,1,0,1,2,1,0,1,1,1,0,0,0,0,0,0,1,0,0,
2,1,1,0,1,2,0,0,1,1,1,0,0,0,1,1,0,0,0,0,0,1,0,0,1,0,0,0,2,1,0,1,
2,2,1,1,1,1,1,2,1,1,0,1,1,1,1,2,1,1,1,2,1,1,0,1,0,1,1,1,1,1,0,1,
1,2,2,0,0,0,0,0,1,1,0,0,0,0,2,1,0,0,0,0,0,2,0,0,2,2,0,0,2,0,0,1,
2,1,1,1,1,1,1,1,0,1,1,0,1,1,0,1,0,0,0,1,1,1,1,0,0,1,1,1,1,0,0,1,
1,1,2,0,0,3,1,0,2,1,1,1,0,0,1,1,1,0,0,0,1,1,0,0,0,1,0,0,1,0,1,0,
1,2,1,0,1,1,1,2,1,1,0,1,1,1,1,1,0,0,0,1,1,1,1,1,0,1,0,0,0,1,0,0,
2,1,1,0,0,0,0,0,1,0,0,0,0,0,0,0,0,1,0,1,0,0,0,1,0,0,0,0,2,0,0,0,
2,1,1,1,1,1,1,1,1,1,0,1,1,1,1,1,1,1,1,1,2,1,1,0,0,1,1,1,1,1,0,1,
2,1,1,1,2,1,1,1,0,1,1,2,1,0,0,0,0,1,1,1,1,0,1,0,0,0,0,1,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
1,1,0,1,1,1,1,1,0,0,1,1,2,1,0,0,0,1,1,0,0,0,1,1,0,0,1,0,1,0,0,0,
1,2,1,1,1,1,1,1,1,1,0,1,0,1,1,1,1,1,1,0,1,1,1,0,0,0,0,0,0,1,0,0,
2,0,0,0,1,1,1,1,0,0,1,1,0,0,0,0,0,1,1,1,2,0,0,1,0,0,1,0,1,0,0,0,
0,1,1,1,1,1,1,1,1,2,0,1,1,1,1,0,1,1,1,0,1,1,1,0,0,0,0,0,0,0,0,0,
1,0,0,1,1,1,1,1,0,0,2,1,0,1,0,0,0,1,0,1,0,0,0,0,0,0,1,0,0,0,0,0,
0,1,1,1,1,1,1,0,1,1,0,1,0,1,1,0,1,1,0,0,1,1,1,0,0,0,0,0,0,0,0,0,
1,0,0,1,1,1,0,0,0,0,1,0,2,0,0,0,0,0,0,0,0,0,2,0,0,0,0,0,0,0,0,0,
0,1,1,1,1,1,0,0,1,1,0,1,0,1,0,0,1,1,1,0,1,1,1,0,0,0,0,0,0,0,0,0,
0,0,0,1,0,0,0,0,0,0,1,1,2,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,1,1,1,0,1,0,0,1,1,0,1,0,1,1,0,1,1,1,0,1,1,1,0,0,0,0,0,0,0,0,0,
2,1,1,1,1,1,1,1,1,1,1,0,0,1,1,1,0,0,1,0,0,1,0,1,0,1,1,1,0,0,1,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
1,0,0,1,1,1,1,0,0,0,1,1,1,0,0,0,0,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0,
0,1,1,1,1,1,1,0,1,1,0,1,0,1,0,0,1,1,0,0,1,1,0,0,0,0,0,0,0,0,0,0,
)
Latin2HungarianModel = {
'charToOrderMap': Latin2_HungarianCharToOrderMap,
'precedenceMatrix': HungarianLangModel,
'mTypicalPositiveRatio': 0.947368,
'keepEnglishLetter': True,
'charsetName': "ISO-8859-2"
}
Win1250HungarianModel = {
'charToOrderMap': win1250HungarianCharToOrderMap,
'precedenceMatrix': HungarianLangModel,
'mTypicalPositiveRatio': 0.947368,
'keepEnglishLetter': True,
'charsetName': "windows-1250"
}
# flake8: noqa
| gpl-3.0 |
tangp3/gpdb | gpMgmt/bin/gppylib/test/behave/mgmt_utils/steps/kerberos_mgmt_utils.py | 19 | 2530 | from gppylib.commands.base import Command, ExecutionError, REMOTE, WorkerPool
from gppylib.db import dbconn
from gppylib.gparray import GpArray
from gppylib.test.behave_utils.utils import run_gpcommand, getRows
from time import gmtime, strftime
import subprocess
from socket import gethostname
@given('the kerberos is setup on the cluster')
@when('the kerberos is setup on the cluster')
@then('the kerberos is setup on the cluster')
def impl(context):
setup_path = os.path.join(os.getcwd(), '../../cdb-pg/src/test/regress/kerberos')
setup_file = '%s/setup_test.sh' % setup_path
subprocess.call([setup_file])
@given('a connection to database is succesfully established as a kerberos user')
@when('a connection to database is succesfully established as a kerberos user')
@then('a connection to database is succesfully established as a kerberos user')
def impl(context):
host = gethostname()
psql_cmd = 'psql -U "gpadmin/kerberos-test" -h %s template1 -c """select 1;"""' % host
cmd = Command(name='psql connection with kerberos user',
cmdStr=psql_cmd)
cmd.run(validateAfter=True)
results = cmd.get_results()
@given('the valid until timestamp is expired for the kerberos user')
@when('the valid until timestamp is expired for the kerberos user')
@then('the valid until timestamp is expired for the kerberos user')
def impl(context):
sql_cmd = """Alter role "gpadmin/kerberos-test" valid until '2014-04-10 11:46:00-07'"""
execute_sql('template1', sql_cmd)
@given('a kerberos user connection to the database will print {msg} to stdout')
@when('a kerberos user connection to the database will print {msg} to stdout')
@then('a kerberos user connection to the database will print {msg} to stdout')
def impl(context, msg):
host = gethostname()
psql_cmd = 'psql -U "gpadmin/kerberos-test" -h %s template1 -c """select 1;"""' % host
cmd = Command(name='psql connection with kerberos user',
cmdStr=psql_cmd)
cmd.run()
results = cmd.get_results()
if not msg in results.stderr.strip():
raise Exception('Output not as expected!')
@given('the valid until timestamp is not expired for the kerberos user')
@when('the valid until timestamp is not expired for the kerberos user')
@then('the valid until timestamp is not expired for the kerberos user')
def impl(context):
time_gmt = strftime("%Y-%m-%d %H:%M:%S", gmtime())
sql_cmd = """Alter role "gpadmin/kerberos-test" valid until '%s'""" % time_gmt
execute_sql('template1', sql_cmd)
| apache-2.0 |
jayceyxc/hue | desktop/core/ext-py/Django-1.6.10/django/contrib/gis/db/backends/mysql/introspection.py | 624 | 1426 | from MySQLdb.constants import FIELD_TYPE
from django.contrib.gis.gdal import OGRGeomType
from django.db.backends.mysql.introspection import DatabaseIntrospection
class MySQLIntrospection(DatabaseIntrospection):
# Updating the data_types_reverse dictionary with the appropriate
# type for Geometry fields.
data_types_reverse = DatabaseIntrospection.data_types_reverse.copy()
data_types_reverse[FIELD_TYPE.GEOMETRY] = 'GeometryField'
def get_geometry_type(self, table_name, geo_col):
cursor = self.connection.cursor()
try:
# In order to get the specific geometry type of the field,
# we introspect on the table definition using `DESCRIBE`.
cursor.execute('DESCRIBE %s' %
self.connection.ops.quote_name(table_name))
# Increment over description info until we get to the geometry
# column.
for column, typ, null, key, default, extra in cursor.fetchall():
if column == geo_col:
# Using OGRGeomType to convert from OGC name to Django field.
# MySQL does not support 3D or SRIDs, so the field params
# are empty.
field_type = OGRGeomType(typ).django
field_params = {}
break
finally:
cursor.close()
return field_type, field_params
| apache-2.0 |
MPIB/Lagerregal | network/tests.py | 1 | 2252 | from django.test import TestCase
from django.test.client import Client
from django.urls import reverse
from model_mommy import mommy
from network.models import IpAddress
from users.models import Lageruser
class IpAddressTests(TestCase):
def setUp(self):
self.client = Client()
self.admin = Lageruser.objects.create_superuser("test", "test@test.com", 'test')
self.client.login(username="test", password="test")
def test_creation_view(self):
address = mommy.make(IpAddress)
self.assertTrue(isinstance(address, IpAddress))
self.assertEqual(address.get_absolute_url(), reverse('ipaddress-detail', kwargs={'pk': address.pk}))
def test_list_view(self):
mommy.make(IpAddress, _quantity=40)
# testing if loading of device-list-page was successful (statuscode 2xx)
response = self.client.get('/ipaddresses/')
self.assertEqual(response.status_code, 200)
# testing the presentation of only 30 results of query on one page
self.assertEqual(len(response.context["ipaddress_list"]), 30)
self.assertEqual(response.context["paginator"].num_pages, 2)
# testing the successful loading of second page of ipadresses-list (statuscode 2xx)
response = self.client.get('/ipaddresses/?page=2')
self.assertEqual(response.status_code, 200)
def test_create_view(self):
response = self.client.get('/ipaddresses/add/')
self.assertEqual(response.status_code, 200)
def test_detail_view(self):
address = mommy.make(IpAddress)
response = self.client.get('/ipaddresses/%i/' % address.pk)
self.assertEqual(response.status_code, 200)
def test_update_view(self):
address = mommy.make(IpAddress)
response = self.client.get('/ipaddresses/%i/edit/' % address.pk)
self.assertEqual(response.status_code, 200)
def test_delete_view(self):
address = mommy.make(IpAddress)
response = self.client.get('/ipaddresses/%i/delete/' % address.pk)
self.assertEqual(response.status_code, 200)
def test_user_view(self):
response = self.client.get('/users/%i/ipaddress/' % self.admin.pk)
self.assertEqual(response.status_code, 200)
| bsd-3-clause |
lhl/pensieve | js/node_modules/prosemirror/node_modules/node-gyp/gyp/pylib/gyp/generator/ninja_test.py | 1843 | 1786 | #!/usr/bin/env python
# Copyright (c) 2012 Google Inc. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
""" Unit tests for the ninja.py file. """
import gyp.generator.ninja as ninja
import unittest
import StringIO
import sys
import TestCommon
class TestPrefixesAndSuffixes(unittest.TestCase):
def test_BinaryNamesWindows(self):
# These cannot run on non-Windows as they require a VS installation to
# correctly handle variable expansion.
if sys.platform.startswith('win'):
writer = ninja.NinjaWriter('foo', 'wee', '.', '.', 'build.ninja', '.',
'build.ninja', 'win')
spec = { 'target_name': 'wee' }
self.assertTrue(writer.ComputeOutputFileName(spec, 'executable').
endswith('.exe'))
self.assertTrue(writer.ComputeOutputFileName(spec, 'shared_library').
endswith('.dll'))
self.assertTrue(writer.ComputeOutputFileName(spec, 'static_library').
endswith('.lib'))
def test_BinaryNamesLinux(self):
writer = ninja.NinjaWriter('foo', 'wee', '.', '.', 'build.ninja', '.',
'build.ninja', 'linux')
spec = { 'target_name': 'wee' }
self.assertTrue('.' not in writer.ComputeOutputFileName(spec,
'executable'))
self.assertTrue(writer.ComputeOutputFileName(spec, 'shared_library').
startswith('lib'))
self.assertTrue(writer.ComputeOutputFileName(spec, 'static_library').
startswith('lib'))
self.assertTrue(writer.ComputeOutputFileName(spec, 'shared_library').
endswith('.so'))
self.assertTrue(writer.ComputeOutputFileName(spec, 'static_library').
endswith('.a'))
if __name__ == '__main__':
unittest.main()
| gpl-3.0 |
diagramsoftware/odoo | addons/email_template/wizard/email_template_preview.py | 377 | 3851 | # -*- coding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Management Solution
# Copyright (C) 2009 Sharoon Thomas
# Copyright (C) 2010-Today OpenERP SA (<http://www.openerp.com>)
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>
#
##############################################################################
from openerp.osv import fields, osv
class email_template_preview(osv.osv_memory):
_inherit = "email.template"
_name = "email_template.preview"
_description = "Email Template Preview"
def _get_records(self, cr, uid, context=None):
"""
Return Records of particular Email Template's Model
"""
if context is None:
context = {}
template_id = context.get('template_id', False)
if not template_id:
return []
email_template = self.pool.get('email.template')
template = email_template.browse(cr, uid, int(template_id), context=context)
template_object = template.model_id
model = self.pool[template_object.model]
record_ids = model.search(cr, uid, [], 0, 10, 'id', context=context)
default_id = context.get('default_res_id')
if default_id and default_id not in record_ids:
record_ids.insert(0, default_id)
return model.name_get(cr, uid, record_ids, context)
def default_get(self, cr, uid, fields, context=None):
if context is None:
context = {}
result = super(email_template_preview, self).default_get(cr, uid, fields, context=context)
email_template = self.pool.get('email.template')
template_id = context.get('template_id')
if 'res_id' in fields and not result.get('res_id'):
records = self._get_records(cr, uid, context=context)
result['res_id'] = records and records[0][0] or False # select first record as a Default
if template_id and 'model_id' in fields and not result.get('model_id'):
result['model_id'] = email_template.read(cr, uid, int(template_id), ['model_id'], context).get('model_id', False)
return result
_columns = {
'res_id': fields.selection(_get_records, 'Sample Document'),
'partner_ids': fields.many2many('res.partner', string='Recipients'),
}
def on_change_res_id(self, cr, uid, ids, res_id, context=None):
if context is None:
context = {'value': {}}
if not res_id or not context.get('template_id'):
return {'value': {}}
email_template = self.pool.get('email.template')
template_id = context.get('template_id')
template = email_template.browse(cr, uid, template_id, context=context)
# generate and get template values
mail_values = email_template.generate_email(cr, uid, template_id, res_id, context=context)
vals = dict((field, mail_values.get(field, False)) for field in ('email_from', 'email_to', 'email_cc', 'reply_to', 'subject', 'body_html', 'partner_to', 'partner_ids', 'attachment_ids'))
vals['name'] = template.name
return {'value': vals}
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
| agpl-3.0 |
chand3040/cloud_that | lms/djangoapps/courseware/migrations/0006_create_student_module_history.py | 114 | 8158 | # -*- coding: utf-8 -*-
import datetime
from south.db import db
from south.v2 import SchemaMigration
from django.db import models
class Migration(SchemaMigration):
def forwards(self, orm):
# Adding model 'StudentModuleHistory'
db.create_table('courseware_studentmodulehistory', (
('id', self.gf('django.db.models.fields.AutoField')(primary_key=True)),
('student_module', self.gf('django.db.models.fields.related.ForeignKey')(to=orm['courseware.StudentModule'])),
('version', self.gf('django.db.models.fields.CharField')(max_length=255, db_index=True)),
('created', self.gf('django.db.models.fields.DateTimeField')(db_index=True)),
('state', self.gf('django.db.models.fields.TextField')(null=True, blank=True)),
('grade', self.gf('django.db.models.fields.FloatField')(null=True, blank=True)),
('max_grade', self.gf('django.db.models.fields.FloatField')(null=True, blank=True)),
))
db.send_create_signal('courseware', ['StudentModuleHistory'])
def backwards(self, orm):
# Deleting model 'StudentModuleHistory'
db.delete_table('courseware_studentmodulehistory')
models = {
'auth.group': {
'Meta': {'object_name': 'Group'},
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'unique': 'True', 'max_length': '80'}),
'permissions': ('django.db.models.fields.related.ManyToManyField', [], {'to': "orm['auth.Permission']", 'symmetrical': 'False', 'blank': 'True'})
},
'auth.permission': {
'Meta': {'ordering': "('content_type__app_label', 'content_type__model', 'codename')", 'unique_together': "(('content_type', 'codename'),)", 'object_name': 'Permission'},
'codename': ('django.db.models.fields.CharField', [], {'max_length': '100'}),
'content_type': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['contenttypes.ContentType']"}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '50'})
},
'auth.user': {
'Meta': {'object_name': 'User'},
'date_joined': ('django.db.models.fields.DateTimeField', [], {'default': 'datetime.datetime.now'}),
'email': ('django.db.models.fields.EmailField', [], {'max_length': '75', 'blank': 'True'}),
'first_name': ('django.db.models.fields.CharField', [], {'max_length': '30', 'blank': 'True'}),
'groups': ('django.db.models.fields.related.ManyToManyField', [], {'to': "orm['auth.Group']", 'symmetrical': 'False', 'blank': 'True'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'is_active': ('django.db.models.fields.BooleanField', [], {'default': 'True'}),
'is_staff': ('django.db.models.fields.BooleanField', [], {'default': 'False'}),
'is_superuser': ('django.db.models.fields.BooleanField', [], {'default': 'False'}),
'last_login': ('django.db.models.fields.DateTimeField', [], {'default': 'datetime.datetime.now'}),
'last_name': ('django.db.models.fields.CharField', [], {'max_length': '30', 'blank': 'True'}),
'password': ('django.db.models.fields.CharField', [], {'max_length': '128'}),
'user_permissions': ('django.db.models.fields.related.ManyToManyField', [], {'to': "orm['auth.Permission']", 'symmetrical': 'False', 'blank': 'True'}),
'username': ('django.db.models.fields.CharField', [], {'unique': 'True', 'max_length': '30'})
},
'contenttypes.contenttype': {
'Meta': {'ordering': "('name',)", 'unique_together': "(('app_label', 'model'),)", 'object_name': 'ContentType', 'db_table': "'django_content_type'"},
'app_label': ('django.db.models.fields.CharField', [], {'max_length': '100'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'model': ('django.db.models.fields.CharField', [], {'max_length': '100'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '100'})
},
'courseware.offlinecomputedgrade': {
'Meta': {'unique_together': "(('user', 'course_id'),)", 'object_name': 'OfflineComputedGrade'},
'course_id': ('django.db.models.fields.CharField', [], {'max_length': '255', 'db_index': 'True'}),
'created': ('django.db.models.fields.DateTimeField', [], {'auto_now_add': 'True', 'null': 'True', 'db_index': 'True', 'blank': 'True'}),
'gradeset': ('django.db.models.fields.TextField', [], {'null': 'True', 'blank': 'True'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'updated': ('django.db.models.fields.DateTimeField', [], {'auto_now': 'True', 'db_index': 'True', 'blank': 'True'}),
'user': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['auth.User']"})
},
'courseware.offlinecomputedgradelog': {
'Meta': {'ordering': "['-created']", 'object_name': 'OfflineComputedGradeLog'},
'course_id': ('django.db.models.fields.CharField', [], {'max_length': '255', 'db_index': 'True'}),
'created': ('django.db.models.fields.DateTimeField', [], {'auto_now_add': 'True', 'null': 'True', 'db_index': 'True', 'blank': 'True'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'nstudents': ('django.db.models.fields.IntegerField', [], {'default': '0'}),
'seconds': ('django.db.models.fields.IntegerField', [], {'default': '0'})
},
'courseware.studentmodule': {
'Meta': {'unique_together': "(('student', 'module_state_key', 'course_id'),)", 'object_name': 'StudentModule'},
'course_id': ('django.db.models.fields.CharField', [], {'max_length': '255', 'db_index': 'True'}),
'created': ('django.db.models.fields.DateTimeField', [], {'auto_now_add': 'True', 'db_index': 'True', 'blank': 'True'}),
'done': ('django.db.models.fields.CharField', [], {'default': "'na'", 'max_length': '8', 'db_index': 'True'}),
'grade': ('django.db.models.fields.FloatField', [], {'db_index': 'True', 'null': 'True', 'blank': 'True'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'max_grade': ('django.db.models.fields.FloatField', [], {'null': 'True', 'blank': 'True'}),
'modified': ('django.db.models.fields.DateTimeField', [], {'auto_now': 'True', 'db_index': 'True', 'blank': 'True'}),
'module_state_key': ('django.db.models.fields.CharField', [], {'max_length': '255', 'db_column': "'module_id'", 'db_index': 'True'}),
'module_type': ('django.db.models.fields.CharField', [], {'default': "'problem'", 'max_length': '32', 'db_index': 'True'}),
'state': ('django.db.models.fields.TextField', [], {'null': 'True', 'blank': 'True'}),
'student': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['auth.User']"})
},
'courseware.studentmodulehistory': {
'Meta': {'object_name': 'StudentModuleHistory'},
'created': ('django.db.models.fields.DateTimeField', [], {'db_index': 'True'}),
'grade': ('django.db.models.fields.FloatField', [], {'null': 'True', 'blank': 'True'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'max_grade': ('django.db.models.fields.FloatField', [], {'null': 'True', 'blank': 'True'}),
'state': ('django.db.models.fields.TextField', [], {'null': 'True', 'blank': 'True'}),
'student_module': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['courseware.StudentModule']"}),
'version': ('django.db.models.fields.CharField', [], {'max_length': '255', 'db_index': 'True'})
}
}
complete_apps = ['courseware']
| agpl-3.0 |
looker/sentry | tests/sentry/api/endpoints/test_team_stats.py | 2 | 1224 | from __future__ import absolute_import
from django.core.urlresolvers import reverse
from sentry import tsdb
from sentry.testutils import APITestCase
class TeamStatsTest(APITestCase):
def test_simple(self):
self.login_as(user=self.user)
team = self.create_team(members=[self.user])
project_1 = self.create_project(teams=[team], name='a')
project_2 = self.create_project(teams=[team], name='b')
team_2 = self.create_team(members=[self.user])
project_3 = self.create_project(teams=[team_2], name='c')
tsdb.incr(tsdb.models.project, project_1.id, count=3)
tsdb.incr(tsdb.models.project, project_2.id, count=5)
tsdb.incr(tsdb.models.project, project_3.id, count=10)
url = reverse(
'sentry-api-0-team-stats',
kwargs={
'organization_slug': team.organization.slug,
'team_slug': team.slug,
}
)
response = self.client.get(url)
assert response.status_code == 200, response.content
assert response.data[-1][1] == 8, response.data
for point in response.data[:-1]:
assert point[1] == 0
assert len(response.data) == 24
| bsd-3-clause |
soldag/home-assistant | tests/components/tasmota/conftest.py | 5 | 2049 | """Test fixtures for Tasmota component."""
from hatasmota.discovery import get_status_sensor_entities
import pytest
from homeassistant import config_entries
from homeassistant.components.tasmota.const import (
CONF_DISCOVERY_PREFIX,
DEFAULT_PREFIX,
DOMAIN,
)
from tests.async_mock import patch
from tests.common import (
MockConfigEntry,
async_mock_service,
mock_device_registry,
mock_registry,
)
from tests.components.light.conftest import mock_light_profiles # noqa
@pytest.fixture
def device_reg(hass):
"""Return an empty, loaded, registry."""
return mock_device_registry(hass)
@pytest.fixture
def entity_reg(hass):
"""Return an empty, loaded, registry."""
return mock_registry(hass)
@pytest.fixture
def calls(hass):
"""Track calls to a mock service."""
return async_mock_service(hass, "test", "automation")
@pytest.fixture(autouse=True)
def disable_debounce():
"""Set MQTT debounce timer to zero."""
with patch("hatasmota.mqtt.DEBOUNCE_TIMEOUT", 0):
yield
@pytest.fixture
def status_sensor_disabled():
"""Fixture to allow overriding MQTT config."""
return True
@pytest.fixture(autouse=True)
def disable_status_sensor(status_sensor_disabled):
"""Disable Tasmota status sensor."""
wraps = None if status_sensor_disabled else get_status_sensor_entities
with patch("hatasmota.discovery.get_status_sensor_entities", wraps=wraps):
yield
async def setup_tasmota_helper(hass):
"""Set up Tasmota."""
hass.config.components.add("tasmota")
entry = MockConfigEntry(
connection_class=config_entries.CONN_CLASS_LOCAL_PUSH,
data={CONF_DISCOVERY_PREFIX: DEFAULT_PREFIX},
domain=DOMAIN,
title="Tasmota",
)
entry.add_to_hass(hass)
assert await hass.config_entries.async_setup(entry.entry_id)
await hass.async_block_till_done()
assert "tasmota" in hass.config.components
@pytest.fixture
async def setup_tasmota(hass):
"""Set up Tasmota."""
await setup_tasmota_helper(hass)
| apache-2.0 |
jubalix/terracoin-masterfork | contrib/testgen/base58.py | 2139 | 2818 | '''
Bitcoin base58 encoding and decoding.
Based on https://bitcointalk.org/index.php?topic=1026.0 (public domain)
'''
import hashlib
# for compatibility with following code...
class SHA256:
new = hashlib.sha256
if str != bytes:
# Python 3.x
def ord(c):
return c
def chr(n):
return bytes( (n,) )
__b58chars = '123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz'
__b58base = len(__b58chars)
b58chars = __b58chars
def b58encode(v):
""" encode v, which is a string of bytes, to base58.
"""
long_value = 0
for (i, c) in enumerate(v[::-1]):
long_value += (256**i) * ord(c)
result = ''
while long_value >= __b58base:
div, mod = divmod(long_value, __b58base)
result = __b58chars[mod] + result
long_value = div
result = __b58chars[long_value] + result
# Bitcoin does a little leading-zero-compression:
# leading 0-bytes in the input become leading-1s
nPad = 0
for c in v:
if c == '\0': nPad += 1
else: break
return (__b58chars[0]*nPad) + result
def b58decode(v, length = None):
""" decode v into a string of len bytes
"""
long_value = 0
for (i, c) in enumerate(v[::-1]):
long_value += __b58chars.find(c) * (__b58base**i)
result = bytes()
while long_value >= 256:
div, mod = divmod(long_value, 256)
result = chr(mod) + result
long_value = div
result = chr(long_value) + result
nPad = 0
for c in v:
if c == __b58chars[0]: nPad += 1
else: break
result = chr(0)*nPad + result
if length is not None and len(result) != length:
return None
return result
def checksum(v):
"""Return 32-bit checksum based on SHA256"""
return SHA256.new(SHA256.new(v).digest()).digest()[0:4]
def b58encode_chk(v):
"""b58encode a string, with 32-bit checksum"""
return b58encode(v + checksum(v))
def b58decode_chk(v):
"""decode a base58 string, check and remove checksum"""
result = b58decode(v)
if result is None:
return None
h3 = checksum(result[:-4])
if result[-4:] == checksum(result[:-4]):
return result[:-4]
else:
return None
def get_bcaddress_version(strAddress):
""" Returns None if strAddress is invalid. Otherwise returns integer version of address. """
addr = b58decode_chk(strAddress)
if addr is None or len(addr)!=21: return None
version = addr[0]
return ord(version)
if __name__ == '__main__':
# Test case (from http://gitorious.org/bitcoin/python-base58.git)
assert get_bcaddress_version('15VjRaDX9zpbA8LVnbrCAFzrVzN7ixHNsC') is 0
_ohai = 'o hai'.encode('ascii')
_tmp = b58encode(_ohai)
assert _tmp == 'DYB3oMS'
assert b58decode(_tmp, 5) == _ohai
print("Tests passed")
| mit |
CapOM/ChromiumGStreamerBackend | tools/telemetry/third_party/gsutilz/third_party/boto/tests/unit/emr/test_instance_group_args.py | 112 | 2056 | #!/usr/bin/env python
# Author: Charlie Schluting <charlie@schluting.com>
#
# Test to ensure initalization of InstanceGroup object emits appropriate errors
# if bidprice is not specified, but allows float, int, Decimal.
from decimal import Decimal
from tests.compat import unittest
from boto.emr.instance_group import InstanceGroup
class TestInstanceGroupArgs(unittest.TestCase):
def test_bidprice_missing_spot(self):
"""
Test InstanceGroup init raises ValueError when market==spot and
bidprice is not specified.
"""
with self.assertRaisesRegexp(ValueError, 'bidprice must be specified'):
InstanceGroup(1, 'MASTER', 'm1.small',
'SPOT', 'master')
def test_bidprice_missing_ondemand(self):
"""
Test InstanceGroup init accepts a missing bidprice arg, when market is
ON_DEMAND.
"""
instance_group = InstanceGroup(1, 'MASTER', 'm1.small',
'ON_DEMAND', 'master')
def test_bidprice_Decimal(self):
"""
Test InstanceGroup init works with bidprice type = Decimal.
"""
instance_group = InstanceGroup(1, 'MASTER', 'm1.small',
'SPOT', 'master', bidprice=Decimal(1.10))
self.assertEquals('1.10', instance_group.bidprice[:4])
def test_bidprice_float(self):
"""
Test InstanceGroup init works with bidprice type = float.
"""
instance_group = InstanceGroup(1, 'MASTER', 'm1.small',
'SPOT', 'master', bidprice=1.1)
self.assertEquals('1.1', instance_group.bidprice)
def test_bidprice_string(self):
"""
Test InstanceGroup init works with bidprice type = string.
"""
instance_group = InstanceGroup(1, 'MASTER', 'm1.small',
'SPOT', 'master', bidprice='1.1')
self.assertEquals('1.1', instance_group.bidprice)
if __name__ == "__main__":
unittest.main()
| bsd-3-clause |
zenlambda/pip | tests/unit/test_req_uninstall.py | 28 | 1279 | import os
import pytest
from mock import Mock
import pip.req.req_uninstall
from pip.req.req_uninstall import UninstallPathSet
# Pretend all files are local, so UninstallPathSet accepts files in the tmpdir,
# outside the virtualenv
def mock_is_local(path):
return True
class TestUninstallPathSet(object):
def test_add(self, tmpdir, monkeypatch):
monkeypatch.setattr(pip.req.req_uninstall, 'is_local', mock_is_local)
file_extant = os.path.join(tmpdir, 'foo')
file_nonexistant = os.path.join(tmpdir, 'nonexistant')
with open(file_extant, 'w'):
pass
ups = UninstallPathSet(dist=Mock())
assert ups.paths == set()
ups.add(file_extant)
assert ups.paths == set([file_extant])
ups.add(file_nonexistant)
assert ups.paths == set([file_extant])
@pytest.mark.skipif("sys.platform == 'win32'")
def test_add_symlink(self, tmpdir, monkeypatch):
monkeypatch.setattr(pip.req.req_uninstall, 'is_local', mock_is_local)
f = os.path.join(tmpdir, 'foo')
with open(f, 'w'):
pass
l = os.path.join(tmpdir, 'foo_link')
os.symlink(f, l)
ups = UninstallPathSet(dist=Mock())
ups.add(l)
assert ups.paths == set([l])
| mit |
nagyistoce/netzob | src/netzob/Inference/Vocabulary/Searcher.py | 1 | 17945 | # -*- coding: utf-8 -*-
#+---------------------------------------------------------------------------+
#| 01001110 01100101 01110100 01111010 01101111 01100010 |
#| |
#| Netzob : Inferring communication protocols |
#+---------------------------------------------------------------------------+
#| Copyright (C) 2011 Georges Bossert and Frédéric Guihéry |
#| This program is free software: you can redistribute it and/or modify |
#| it under the terms of the GNU General Public License as published by |
#| the Free Software Foundation, either version 3 of the License, or |
#| (at your option) any later version. |
#| |
#| This program is distributed in the hope that it will be useful, |
#| but WITHOUT ANY WARRANTY; without even the implied warranty of |
#| MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
#| GNU General Public License for more details. |
#| |
#| You should have received a copy of the GNU General Public License |
#| along with this program. If not, see <http://www.gnu.org/licenses/>. |
#+---------------------------------------------------------------------------+
#| @url : http://www.netzob.org |
#| @contact : contact@netzob.org |
#| @sponsors : Amossys, http://www.amossys.fr |
#| Supélec, http://www.rennes.supelec.fr/ren/rd/cidre/ |
#+---------------------------------------------------------------------------+
#+----------------------------------------------
#| Global Imports
#+----------------------------------------------
from gettext import gettext as _
import logging
import re
#+----------------------------------------------
#| Local Imports
#+----------------------------------------------
from netzob.Common.Type.TypeConvertor import TypeConvertor
from netzob.Common.Type.TypeIdentifier import TypeIdentifier
from netzob.Common.Type.Format import Format
from netzob.Inference.Vocabulary.SearchResult import SearchResult
from netzob.Inference.Vocabulary.SearchTask import SearchTask
#+----------------------------------------------
#| Searcher:
#| Provides multiple algorithms for a searching after a pattern in a
#| set of computed messages
#+----------------------------------------------
class Searcher(object):
#+----------------------------------------------
#| Constructor:
#| @param project : the project where the search will be executed
#+----------------------------------------------
def __init__(self, project, status_cb=None):
# create logger with the given configuration
self.log = logging.getLogger('netzob.Inference.Vocabulary.Searcher.py')
self.project = project
self.status_cb = status_cb
def searchContextInMessage(self, message):
"""searchContextInMessage:
Search for any context relative information
in provided message. It includes applicative data,
parameters and environmental data"""
if message is None:
self.log.warning("No message provided")
return []
results = []
results.extend(self.searchApplicativeDataInMessage(message))
results.extend(self.searchEnvironmentDataInMessage(message))
return results
def searchEnvironmentDataInMessage(self, message):
"""searchEnvironmentDataInMessage:
Search on the provided message every environment data stored in
the message"""
tasks = []
for prop in message.getProperties():
if prop.getName() != "Data":
tasks.extend(self.createSearchTasksForData(str(prop.getCurrentValue()), prop.getFormat()))
if len(tasks) == 0:
self.log.warning("Nothing to search after")
return []
self.log.info("{0} search tasks will be executed.".format(len(tasks)))
newTasks = self.searchInMessage(tasks, message)
results = []
for task in newTasks:
if len(task.getResults()) > 0:
for r in task.getResults():
r.setDescription(task.getDescription())
results.extend(task.getResults())
return results
def createSearchTasksForData(self, dataValue, dataType):
"""createSearchTasksForData:
This methods creates search tasks given the value and its format.
@returns a list of L{netzob.Inference.Vocabulary.SearchTask}"""
tasks = []
if dataType == Format.STRING:
tasks.extend(self.getSearchedDataForString(dataValue))
elif dataType == Format.DECIMAL:
tasks.extend(self.getSearchedDataForDecimal(dataValue))
elif dataType == Format.IP:
tasks.extend(self.getSearchedDataForIP(dataValue))
elif dataType == Format.HEX:
tasks.extend(self.getSearchedDataForHexadecimal(dataValue))
else:
self.log.warning("Type data {0} cannot be used in a search.".format(dataType))
return tasks
def searchApplicativeDataInMessage(self, message):
"""searchApplicativeDataInMessage:
Search for any applicative data attached to the current project
in the provided message.
"""
if message is None:
self.log.warning("No message provided")
return []
applicativeData = self.project.getVocabulary().getApplicativeData()
# Create search tasks
tasks = []
for appData in applicativeData:
tasks.extend(self.createSearchTasksForData(appData.getValue(), appData.getType()))
if len(tasks) == 0:
self.log.warning("Nothing to search after")
return []
self.log.info("{0} search tasks will be executed.".format(len(tasks)))
newTasks = self.searchInMessage(tasks, message)
results = []
for task in newTasks:
if len(task.getResults()) > 0:
for r in task.getResults():
r.setDescription(task.getDescription())
results.extend(task.getResults())
return results
#+----------------------------------------------
#| getSearchedDataForBinary:
#| Generates data which can represent the specified Binary
#| @param value the value to search for
#+----------------------------------------------
def getSearchedDataForBinary(self, value):
return []
#+----------------------------------------------
#| getSearchedDataForOctal:
#| Generates data which can represent the specified Octal
#| @param value the value to search for
#+----------------------------------------------
def getSearchedDataForOctal(self, value):
return []
#+----------------------------------------------
#| getSearchedDataForDecimal:
#| Generates data which can represent the specified Decimal
#| @param value the value to search for
#+----------------------------------------------
def getSearchedDataForDecimal(self, value):
if not value.isdigit():
return []
# Creation of a SearchTask
task = SearchTask(value, value, Format.DECIMAL)
task.registerVariation(TypeConvertor.decimalToNetzobRaw(value), "Decimal representation of '{0}'".format(TypeConvertor.decimalToNetzobRaw(value)))
task.registerVariation(TypeConvertor.decimalToNetzobRaw(value[::-1]), "Inverted decimal representation of '{0}'".format(TypeConvertor.decimalToNetzobRaw(value[::-1])))
return [task]
#+----------------------------------------------
#| getSearchedDataForHexadecimal:
#| Generates data which can represent the specified Hexa
#| @param value the value to search for
#+----------------------------------------------
def getSearchedDataForHexadecimal(self, value, extraInfo=None):
typeIdentifier = TypeIdentifier()
if not typeIdentifier.isHexString(value):
return []
# Creation of a SearchTask
task = SearchTask(value, value, Format.HEX)
task.registerVariation(value, "Hex repr of '{0}'({1}))".format(value, extraInfo))
# task.registerVariation(value[::-1], "Inverted representation of '{0}'".format(value[::-1]))
print task
return [task]
#+----------------------------------------------
#| getSearchedDataForString:
#| Generates data which can represent the specified string
#| @param value the value to search for
#+----------------------------------------------
def getSearchedDataForString(self, value):
# Creation of a SearchTask
task = SearchTask(value, value, Format.STRING)
task.registerVariation(TypeConvertor.stringToNetzobRaw(value), "String representation of '%s'" % value)
task.registerVariation(TypeConvertor.stringToNetzobRaw(value[::-1]), "Inverted string representation of '%s'" % value[::-1])
task.registerVariation(TypeConvertor.stringToNetzobRaw(value.decode('utf-8')), "String representation of '%s' encoded in UTF-8" % value)
return [task]
#+----------------------------------------------
#| getSearchedDataForIP:
#| Generates data which can represent the specified IP
#| @param value the value to search for
#+----------------------------------------------
def getSearchedDataForIP(self, value):
tasks = []
ipPattern = "^(?:[0-9]{1,3}\.){3}[0-9]{1,3}$"
# first verify its a ip format
if not re.match(ipPattern, value):
return tasks
# parse the value to get a, b, c and d
ipTab = value.split('.')
a = ipTab[0]
b = ipTab[1]
c = ipTab[2]
d = ipTab[3]
a2 = a
if a2 < 100:
a2 = "0" + a2
if a2 < 10:
a2 = "0" + a2
b2 = b
if b2 < 100:
b2 = "0" + b2
if b2 < 10:
b2 = "0" + b2
c2 = c
if c2 < 100:
c2 = "0" + c2
if c2 < 10:
c2 = "0" + c2
d2 = d
if d2 < 100:
d2 = "0" + d2
if d2 < 10:
d2 = "0" + d2
# # in String :
# # - 192.168.0.10
# val = "%s.%s.%s.%s" % (a, b, c, d)
# tasks.extend(self.getSearchedDataForString(val))
#
# # - 192.168.000.010
# val = "%s.%s.%s.%s" % (a2, b2, c2, d2)
# tasks.extend(self.getSearchedDataForString(val))
#
# # - 192168000010
# val = "%s%s%s%s" % (a2, b2, c2, d2)
# tasks.extend(self.getSearchedDataForString(val))
#
# # - 10.0.168.192
# val = "%s.%s.%s.%s" % (d, c, b, a)
# tasks.extend(self.getSearchedDataForString(val))
#
# # - 000.010.192.168
# val = "%s.%s.%s.%s" % (d2, c2, b2, a2)
# tasks.extend(self.getSearchedDataForString(val))
#
# # - 0.10.192.168
# val = "%s.%s.%s.%s" % (c, d, a, b)
# tasks.extend(self.getSearchedDataForString(val))
#
# # - 000.010.192.168
# val = "%s.%s.%s.%s" % (c2, d2, a2, b2)
# tasks.extend(self.getSearchedDataForString(val))
#
# # - 000010192168
# val = "%s%s%s%s" % (c2, d2, a2, b2)
# tasks.extend(self.getSearchedDataForString(val))
#in hexadecimal
ah = hex(int(a))[2:]
ah = ((2 - len(ah)) * '0') + ah
bh = hex(int(b))[2:]
bh = ((2 - len(bh)) * '0') + bh
ch = hex(int(c))[2:]
ch = ((2 - len(ch)) * '0') + ch
dh = hex(int(d))[2:]
dh = ((2 - len(dh)) * '0') + dh
val = "{0}{1}{2}{3}".format(ah, bh, ch, dh)
tasks.extend(self.getSearchedDataForHexadecimal(val, value))
return tasks
#+----------------------------------------------
#| search:
#| Search a set of specified data in all the project
#| @param tasks the set of "search" task
#+----------------------------------------------
def search(self, tasks):
symbols = self.project.getVocabulary().getSymbols()
# compute the step for status notification
try:
step = 100.0 / (len(symbols) * len(tasks))
except ZeroDivisionError:
step = 100
status = 0.0
for task in tasks:
if self.status_cb is not None and int(status % 2) == 0:
self.status_cb(float(status / 100.0), None)
for symbol in symbols:
for message in symbol.getMessages():
variations = task.getVariations()
for variation_value in variations.keys():
task.registerResults(self.extendedSearch(variation_value, message), variations[variation_value])
status += step
return tasks
#+----------------------------------------------
#| searchInSymbol:
#| Search a set of specified data in a the specified symbol
#| @param tasks the set of "search" task
#| @param symbol the symbol to search in
#+----------------------------------------------
def searchInSymbol(self, tasks, symbol):
for task in tasks:
for message in symbol.getMessages():
variations = task.getVariations()
for variation_value in variations.keys():
task.registerResults(self.extendedSearch(variation_value, message), variations[variation_value])
return tasks
#+----------------------------------------------
#| searchInMessage:
#| Search a set of specified data in a the specified message
#| @param tasks the set of "search" task
#| @param message the message to search in
#+----------------------------------------------
def searchInMessage(self, tasks, message):
for task in tasks:
variations = task.getVariations()
for variation_value in variations.keys():
task.registerResults(self.extendedSearch(variation_value, message), variations[variation_value])
return tasks
#+----------------------------------------------
#| extendedSearch:
#| Search for a data in a specified message
#+----------------------------------------------
def extendedSearch(self, data, message):
results = []
results.extend(self.naturalSearch(data, message))
# results.extend(self.inversedSearch(data, message))
# results.extend(self.semiInvertedOnNaturalSearch(data, message))
# results.extend(self.semiInvertedOnInvertedSearch(data, message))
return results
def naturalSearch(self, data, message):
results = []
self.log.debug("Natural search of {0} in {1}".format(data, message.getStringData()))
# Search naturally all the possible places of data in message
indice = 0
messageData = message.getStringData()
indice = messageData.find(data, 0)
while indice >= 0:
searchResult = SearchResult(message, "Natural search")
searchResult.addSegment(indice, len(data))
results.append(searchResult)
indice = messageData.find(data, indice + 1)
return results
def inversedSearch(self, data, message):
results = []
invData = data[::-1]
# Search naturally all the possible places of data in message
indice = 0
while indice + len(invData) <= len(message.getStringData()):
if message.getStringData()[indice:len(invData) + indice] == invData:
# We have a match
searchResult = SearchResult(message, "Inverted search")
searchResult.addSegment(indice, len(invData))
results.append(searchResult)
indice = indice + 1
return results
def semiInvertedOnNaturalSearch(self, data, message):
results = []
invData = ""
for i in range(0, len(data), 2):
if len(data) > i + 1:
invData = invData + data[i + 1]
invData = invData + data[i]
if len(data) % 2 == 1:
invData = invData + data[-1]
# Search naturally all the possible places of data in message
indice = 0
while indice + len(invData) <= len(message.getStringData()):
if message.getStringData()[indice:len(invData) + indice] == invData:
# We have a match
searchResult = SearchResult(message, "4bytes inverted on natural search")
searchResult.addSegment(indice, len(invData))
results.append(searchResult)
indice = indice + 1
return results
def semiInvertedOnInvertedSearch(self, data, message):
results = []
tmpData = data[::-1]
invData = ""
for i in range(0, len(tmpData), 2):
if len(data) > i + 1:
invData = invData + tmpData[i + 1]
invData = invData + tmpData[i]
if len(tmpData) % 2 == 1:
invData = invData + tmpData[-1]
# Search naturally all the possible places of data in message
indice = 0
while indice + len(invData) <= len(message.getStringData()):
if message.getStringData()[indice:len(invData) + indice] == invData:
# We have a match
searchResult = SearchResult(message, "4bytes inverted on inverted search")
searchResult.addSegment(indice, len(invData))
results.append(searchResult)
indice = indice + 1
return results
| gpl-3.0 |
piyush82/icclab-rcb-web | virtualenv/lib/python2.7/site-packages/django/core/serializers/python.py | 106 | 6103 | """
A Python "serializer". Doesn't do much serializing per se -- just converts to
and from basic Python data types (lists, dicts, strings, etc.). Useful as a basis for
other serializers.
"""
from __future__ import unicode_literals
from django.conf import settings
from django.core.serializers import base
from django.db import models, DEFAULT_DB_ALIAS
from django.utils.encoding import smart_text, is_protected_type
from django.utils import six
class Serializer(base.Serializer):
"""
Serializes a QuerySet to basic Python objects.
"""
internal_use_only = True
def start_serialization(self):
self._current = None
self.objects = []
def end_serialization(self):
pass
def start_object(self, obj):
self._current = {}
def end_object(self, obj):
self.objects.append(self.get_dump_object(obj))
self._current = None
def get_dump_object(self, obj):
return {
"pk": smart_text(obj._get_pk_val(), strings_only=True),
"model": smart_text(obj._meta),
"fields": self._current
}
def handle_field(self, obj, field):
value = field._get_val_from_obj(obj)
# Protected types (i.e., primitives like None, numbers, dates,
# and Decimals) are passed through as is. All other values are
# converted to string first.
if is_protected_type(value):
self._current[field.name] = value
else:
self._current[field.name] = field.value_to_string(obj)
def handle_fk_field(self, obj, field):
if self.use_natural_keys and hasattr(field.rel.to, 'natural_key'):
related = getattr(obj, field.name)
if related:
value = related.natural_key()
else:
value = None
else:
value = getattr(obj, field.get_attname())
self._current[field.name] = value
def handle_m2m_field(self, obj, field):
if field.rel.through._meta.auto_created:
if self.use_natural_keys and hasattr(field.rel.to, 'natural_key'):
m2m_value = lambda value: value.natural_key()
else:
m2m_value = lambda value: smart_text(value._get_pk_val(), strings_only=True)
self._current[field.name] = [m2m_value(related)
for related in getattr(obj, field.name).iterator()]
def getvalue(self):
return self.objects
def Deserializer(object_list, **options):
"""
Deserialize simple Python objects back into Django ORM instances.
It's expected that you pass the Python objects themselves (instead of a
stream or a string) to the constructor
"""
db = options.pop('using', DEFAULT_DB_ALIAS)
ignore = options.pop('ignorenonexistent', False)
models.get_apps()
for d in object_list:
# Look up the model and starting build a dict of data for it.
Model = _get_model(d["model"])
data = {Model._meta.pk.attname: Model._meta.pk.to_python(d.get("pk", None))}
m2m_data = {}
model_fields = Model._meta.get_all_field_names()
# Handle each field
for (field_name, field_value) in six.iteritems(d["fields"]):
if ignore and field_name not in model_fields:
# skip fields no longer on model
continue
if isinstance(field_value, str):
field_value = smart_text(field_value, options.get("encoding", settings.DEFAULT_CHARSET), strings_only=True)
field = Model._meta.get_field(field_name)
# Handle M2M relations
if field.rel and isinstance(field.rel, models.ManyToManyRel):
if hasattr(field.rel.to._default_manager, 'get_by_natural_key'):
def m2m_convert(value):
if hasattr(value, '__iter__') and not isinstance(value, six.text_type):
return field.rel.to._default_manager.db_manager(db).get_by_natural_key(*value).pk
else:
return smart_text(field.rel.to._meta.pk.to_python(value))
else:
m2m_convert = lambda v: smart_text(field.rel.to._meta.pk.to_python(v))
m2m_data[field.name] = [m2m_convert(pk) for pk in field_value]
# Handle FK fields
elif field.rel and isinstance(field.rel, models.ManyToOneRel):
if field_value is not None:
if hasattr(field.rel.to._default_manager, 'get_by_natural_key'):
if hasattr(field_value, '__iter__') and not isinstance(field_value, six.text_type):
obj = field.rel.to._default_manager.db_manager(db).get_by_natural_key(*field_value)
value = getattr(obj, field.rel.field_name)
# If this is a natural foreign key to an object that
# has a FK/O2O as the foreign key, use the FK value
if field.rel.to._meta.pk.rel:
value = value.pk
else:
value = field.rel.to._meta.get_field(field.rel.field_name).to_python(field_value)
data[field.attname] = value
else:
data[field.attname] = field.rel.to._meta.get_field(field.rel.field_name).to_python(field_value)
else:
data[field.attname] = None
# Handle all other fields
else:
data[field.name] = field.to_python(field_value)
yield base.DeserializedObject(Model(**data), m2m_data)
def _get_model(model_identifier):
"""
Helper to look up a model from an "app_label.model_name" string.
"""
try:
Model = models.get_model(*model_identifier.split("."))
except TypeError:
Model = None
if Model is None:
raise base.DeserializationError("Invalid model identifier: '%s'" % model_identifier)
return Model
| apache-2.0 |
gotostack/neutron-lbaas | neutron_lbaas/drivers/radware/v2_driver.py | 1 | 28247 | # Copyright 2015, Radware LTD. All rights reserved
#
# Licensed 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 copy
import netaddr
import threading
import time
from neutron.api.v2 import attributes
from neutron import context
from neutron.i18n import _LE, _LW, _LI
from neutron.plugins.common import constants
from oslo_config import cfg
from oslo_log import helpers as log_helpers
from oslo_log import log as logging
from oslo_utils import excutils
from six.moves import queue as Queue
import neutron_lbaas.common.cert_manager
from neutron_lbaas.drivers.radware import base_v2_driver
from neutron_lbaas.drivers.radware import exceptions as r_exc
from neutron_lbaas.drivers.radware import rest_client as rest
CERT_MANAGER_PLUGIN = neutron_lbaas.common.cert_manager.CERT_MANAGER_PLUGIN
TEMPLATE_HEADER = {'Content-Type':
'application/vnd.com.radware.vdirect.'
'template-parameters+json'}
PROVISION_HEADER = {'Content-Type':
'application/vnd.com.radware.'
'vdirect.status+json'}
CREATE_SERVICE_HEADER = {'Content-Type':
'application/vnd.com.radware.'
'vdirect.adc-service-specification+json'}
PROPERTY_DEFAULTS = {'type': 'none',
'cookie_name': 'none',
'url_path': '/',
'http_method': 'GET',
'expected_codes': '200',
'subnet': '255.255.255.255',
'mask': '255.255.255.255',
'gw': '255.255.255.255',
}
LOADBALANCER_PROPERTIES = ['vip_address', 'admin_state_up']
LISTENER_PROPERTIES = ['id', 'protocol_port', 'protocol',
'connection_limit', 'admin_state_up']
POOL_PROPERTIES = ['id', 'protocol', 'lb_algorithm', 'admin_state_up']
MEMBER_PROPERTIES = ['id', 'address', 'protocol_port', 'weight',
'admin_state_up', 'subnet', 'mask', 'gw']
SESSION_PERSISTENCY_PROPERTIES = ['type', 'cookie_name']
HEALTH_MONITOR_PROPERTIES = ['type', 'delay', 'timeout', 'max_retries',
'admin_state_up', 'url_path', 'http_method',
'expected_codes', 'id']
LOG = logging.getLogger(__name__)
class RadwareLBaaSV2Driver(base_v2_driver.RadwareLBaaSBaseV2Driver):
#
# Assumptions:
# 1) We have only one worflow that takes care of l2-l4 and service creation
# 2) The workflow template exsists on the vDirect server
# 3) The workflow expose one operaion named 'update' (plus ctor and dtor)
# 4) The 'update' operation gets the loadbalancer object graph as input
# 5) The object graph is enehanced by our code before it is sent to the
# workflow
# 6) Async operations are handled by a diffrent thread
#
def __init__(self, plugin):
super(RadwareLBaaSV2Driver, self).__init__(plugin)
rad = cfg.CONF.radwarev2
rad_debug = cfg.CONF.radwarev2_debug
self.plugin = plugin
self.service = {
"name": "_REPLACE_",
"tenantId": "_REPLACE_",
"haPair": rad.service_ha_pair,
"sessionMirroringEnabled": rad.service_session_mirroring_enabled,
"primary": {
"capacity": {
"throughput": rad.service_throughput,
"sslThroughput": rad.service_ssl_throughput,
"compressionThroughput":
rad.service_compression_throughput,
"cache": rad.service_cache
},
"network": {
"type": "portgroup",
"portgroups": '_REPLACE_'
},
"adcType": rad.service_adc_type,
"acceptableAdc": "Exact"
}
}
if rad.service_resource_pool_ids:
ids = rad.service_resource_pool_ids
self.service['resourcePoolIds'] = [
{'id': id} for id in ids
]
else:
self.service['resourcePoolIds'] = []
if rad.service_isl_vlan:
self.service['islVlan'] = rad.service_isl_vlan
self.workflow_template_name = rad.workflow_template_name
self.child_workflow_template_names = rad.child_workflow_template_names
self.workflow_params = rad.workflow_params
self.workflow_action_name = rad.workflow_action_name
self.stats_action_name = rad.stats_action_name
vdirect_address = rad.vdirect_address
sec_server = rad.ha_secondary_address
self.rest_client = rest.vDirectRESTClient(
server=vdirect_address,
secondary_server=sec_server,
user=rad.vdirect_user,
password=rad.vdirect_password)
self.workflow_params['provision_service'] = rad_debug.provision_service
self.workflow_params['configure_l3'] = rad_debug.configure_l3
self.workflow_params['configure_l4'] = rad_debug.configure_l4
self.queue = Queue.Queue()
self.completion_handler = OperationCompletionHandler(self.queue,
self.rest_client,
plugin)
self.workflow_templates_exists = False
self.completion_handler.setDaemon(True)
self.completion_handler_started = False
def _start_completion_handling_thread(self):
if not self.completion_handler_started:
LOG.info(_LI('Starting operation completion handling thread'))
self.completion_handler.start()
self.completion_handler_started = True
@staticmethod
def _get_wf_name(lb):
return 'LB_' + lb.id
@log_helpers.log_method_call
def _verify_workflow_templates(self):
"""Verify the existence of workflows on vDirect server."""
resource = '/api/workflowTemplate/'
workflow_templates = {self.workflow_template_name: False}
for child_wf_name in self.child_workflow_template_names:
workflow_templates[child_wf_name] = False
response = _rest_wrapper(self.rest_client.call('GET',
resource,
None,
None), [200])
for workflow_template in workflow_templates.keys():
for template in response:
if workflow_template == template['name']:
workflow_templates[workflow_template] = True
break
for template, found in workflow_templates.items():
if not found:
raise r_exc.WorkflowTemplateMissing(
workflow_template=template)
@log_helpers.log_method_call
def workflow_exists(self, lb):
"""Create workflow for loadbalancer instance"""
wf_name = self._get_wf_name(lb)
wf_resource = '/api/workflow/%s' % (wf_name)
try:
_rest_wrapper(self.rest_client.call(
'GET', wf_resource, None, None),
[200])
except Exception:
return False
return True
@log_helpers.log_method_call
def _create_workflow(self, lb, lb_network_id, proxy_network_id):
"""Create workflow for loadbalancer instance"""
self._verify_workflow_templates()
wf_name = self._get_wf_name(lb)
service = copy.deepcopy(self.service)
service['tenantId'] = lb.tenant_id
service['name'] = 'srv_' + lb_network_id
if lb_network_id != proxy_network_id:
self.workflow_params["twoleg_enabled"] = True
service['primary']['network']['portgroups'] = [
lb_network_id, proxy_network_id]
else:
self.workflow_params["twoleg_enabled"] = False
service['primary']['network']['portgroups'] = [lb_network_id]
tmpl_resource = '/api/workflowTemplate/%s?name=%s' % (
self.workflow_template_name, wf_name)
_rest_wrapper(self.rest_client.call(
'POST', tmpl_resource,
{'parameters': dict(self.workflow_params,
service_params=service)},
TEMPLATE_HEADER))
@log_helpers.log_method_call
def get_stats(self, ctx, lb):
wf_name = self._get_wf_name(lb)
resource = '/api/workflow/%s/action/%s' % (
wf_name, self.stats_action_name)
response = _rest_wrapper(self.rest_client.call('POST', resource,
None, TEMPLATE_HEADER), success_codes=[202])
LOG.debug('stats_action response: %s ', response)
resource = '/api/workflow/%s/parameters' % (wf_name)
response = _rest_wrapper(self.rest_client.call('GET', resource,
None, TEMPLATE_HEADER), success_codes=[200])
LOG.debug('stats_values response: %s ', response)
return response['stats']
@log_helpers.log_method_call
def execute_workflow(self, ctx, manager, data_model,
old_data_model=None, delete=False):
lb = data_model.root_loadbalancer
# Get possible proxy subnet.
# Proxy subnet equals to LB subnet if no proxy
# is necessary.
# Get subnet id of any member located on different than
# loadbalancer's network. If returned subnet id is the subnet id
# of loadbalancer - all members are accesssible from loadbalancer's
# network, meaning no second leg or static routes are required.
# Otherwise, create proxy port on found member's subnet and get its
# address as a proxy address for loadbalancer instance
lb_subnet = self.plugin.db._core_plugin.get_subnet(
ctx, lb.vip_subnet_id)
proxy_subnet = lb_subnet
proxy_port_subnet_id = self._get_proxy_port_subnet_id(lb)
if proxy_port_subnet_id == lb.vip_subnet_id:
proxy_port_address = lb.vip_address
else:
proxy_port_address = self._create_proxy_port_and_get_address(
ctx, lb, proxy_port_subnet_id)
proxy_subnet = self.plugin.db._core_plugin.get_subnet(
ctx, proxy_port_subnet_id)
# Check if workflow exist, create if not
if not self.workflow_exists(lb):
self._create_workflow(lb,
lb_subnet['network_id'],
proxy_subnet['network_id'])
# Build objects graph
objects_graph = self._build_objects_graph(ctx, lb, data_model,
proxy_port_address,
proxy_subnet)
LOG.debug("Radware vDirect LB object graph is " + str(objects_graph))
wf_name = self._get_wf_name(lb)
resource = '/api/workflow/%s/action/%s' % (
wf_name, self.workflow_action_name)
response = _rest_wrapper(self.rest_client.call('POST', resource,
{'parameters': objects_graph},
TEMPLATE_HEADER), success_codes=[202])
LOG.debug('_update_workflow response: %s ', response)
oper = OperationAttributes(
manager, response['uri'], lb,
data_model, old_data_model,
delete=delete)
LOG.debug('Pushing operation %s to the queue', oper)
self._start_completion_handling_thread()
self.queue.put_nowait(oper)
def remove_workflow(self, ctx, manager, lb):
wf_name = self._get_wf_name(lb)
LOG.debug('Remove the workflow %s' % wf_name)
resource = '/api/workflow/%s' % (wf_name)
rest_return = self.rest_client.call('DELETE', resource, None, None)
response = _rest_wrapper(rest_return, [204, 202, 404])
if rest_return[rest.RESP_STATUS] in [404]:
try:
self._delete_proxy_port(ctx, lb)
LOG.debug('Proxy port for LB %s was deleted', lb.id)
except Exception:
with excutils.save_and_reraise_exception():
LOG.error(_LE('Proxy port deletion for LB %s '
'failed'), lb.id)
manager.successful_completion(ctx, lb, delete=True)
else:
oper = OperationAttributes(
manager, response['uri'], lb,
lb, old_data_model=None,
delete=True)
self._start_completion_handling_thread()
self.queue.put_nowait(oper)
def _build_objects_graph(self, ctx, lb, data_model,
proxy_port_address, proxy_subnet):
"""Iterate over the LB model starting from root lb entity
and build its JSON representtaion for vDirect
"""
graph = {}
for prop in LOADBALANCER_PROPERTIES:
graph[prop] = getattr(lb, prop, PROPERTY_DEFAULTS.get(prop))
graph['pip_address'] = proxy_port_address
graph['listeners'] = []
listeners = [
listener for listener in lb.listeners
if listener.provisioning_status != constants.PENDING_DELETE and
(listener.default_pool and listener.default_pool.members)]
for listener in listeners:
listener_dict = {}
for prop in LISTENER_PROPERTIES:
listener_dict[prop] = getattr(
listener, prop, PROPERTY_DEFAULTS.get(prop))
if listener.default_tls_container_id:
default_cert = CERT_MANAGER_PLUGIN.CertManager.get_cert(
listener.default_tls_container_id,
service_name='Neutron LBaaS v2 Radware provider')
cert_dict = {
'id': listener.default_tls_container_id,
'certificate': default_cert.get_certificate(),
'intermediates': default_cert.get_intermediates(),
'private_key': default_cert.get_private_key(),
'passphrase': default_cert.get_private_key_passphrase()}
listener_dict['default_tls_certificate'] = cert_dict
if listener.sni_containers:
listener_dict['sni_tls_certificates'] = []
for sni_container in listener.sni_containers:
sni_cert = CERT_MANAGER_PLUGIN.CertManager.get_cert(
sni_container.tls_container_id,
service_name='Neutron LBaaS v2 Radware provider')
listener_dict['sni_tls_certificates'].append(
{'id': sni_container.tls_container_id,
'position': sni_container.position,
'certificate': sni_cert.get_certificate(),
'intermediates': sni_cert.get_intermediates(),
'private_key': sni_cert.get_private_key(),
'passphrase': sni_cert.get_private_key_passphrase()})
if listener.default_pool:
pool_dict = {}
for prop in POOL_PROPERTIES:
pool_dict[prop] = getattr(
listener.default_pool, prop,
PROPERTY_DEFAULTS.get(prop))
if listener.default_pool.healthmonitor:
hm_dict = {}
for prop in HEALTH_MONITOR_PROPERTIES:
hm_dict[prop] = getattr(
listener.default_pool.healthmonitor, prop,
PROPERTY_DEFAULTS.get(prop))
pool_dict['healthmonitor'] = hm_dict
if listener.default_pool.sessionpersistence:
sess_pers_dict = {}
for prop in SESSION_PERSISTENCY_PROPERTIES:
sess_pers_dict[prop] = getattr(
listener.default_pool.sessionpersistence, prop,
PROPERTY_DEFAULTS.get(prop))
pool_dict['sessionpersistence'] = sess_pers_dict
pool_dict['members'] = []
members = [
member for member in listener.default_pool.members
if member.provisioning_status != constants.PENDING_DELETE]
for member in members:
member_dict = {}
for prop in MEMBER_PROPERTIES:
member_dict[prop] = getattr(
member, prop,
PROPERTY_DEFAULTS.get(prop))
if (proxy_port_address != lb.vip_address and
netaddr.IPAddress(member.address)
not in netaddr.IPNetwork(proxy_subnet['cidr'])):
self._accomplish_member_static_route_data(
ctx, member, member_dict,
proxy_subnet['gateway_ip'])
pool_dict['members'].append(member_dict)
listener_dict['default_pool'] = pool_dict
graph['listeners'].append(listener_dict)
return graph
def _get_lb_proxy_port_name(self, lb):
return 'proxy_' + lb.id
def _get_proxy_port_subnet_id(self, lb):
"""Look for at least one member of any listener's pool
that is located on subnet different than loabalancer's subnet.
If such member found, return its subnet id.
Otherwise, return loadbalancer's subnet id
"""
for listener in lb.listeners:
if listener.default_pool:
for member in listener.default_pool.members:
if lb.vip_subnet_id != member.subnet_id:
return member.subnet_id
return lb.vip_subnet_id
def _create_proxy_port_and_get_address(self,
ctx, lb, proxy_port_subnet_id):
"""Check if proxy port was created earlier.
If not, create a new port on proxy subnet and return its ip address.
Returns port IP address
"""
proxy_port_name = self._get_lb_proxy_port_name(lb)
ports = self.plugin.db._core_plugin.get_ports(
ctx, filters={'name': [proxy_port_name], })
if not ports:
# Create pip port. Use the subnet
# determined before by _get_pip_port_subnet_id() function
proxy_port_subnet = self.plugin.db._core_plugin.get_subnet(
ctx, proxy_port_subnet_id)
proxy_port_data = {
'tenant_id': lb.tenant_id,
'name': proxy_port_name,
'network_id': proxy_port_subnet['network_id'],
'mac_address': attributes.ATTR_NOT_SPECIFIED,
'admin_state_up': False,
'device_id': '',
'device_owner': 'neutron:' + constants.LOADBALANCERV2,
'fixed_ips': [{'subnet_id': proxy_port_subnet_id}]
}
proxy_port = self.plugin.db._core_plugin.create_port(
ctx, {'port': proxy_port_data})
else:
proxy_port = ports[0]
ips_on_subnet = [ip for ip in proxy_port['fixed_ips']
if ip['subnet_id'] == proxy_port_subnet_id]
if not ips_on_subnet:
raise Exception(_('Could not find or allocate '
'IP address on subnet id %s for proxy port'),
proxy_port_subnet_id)
else:
return ips_on_subnet[0]['ip_address']
def _delete_proxy_port(self, ctx, lb):
port_filter = {
'name': [self._get_lb_proxy_port_name(lb)],
}
ports = self.plugin.db._core_plugin.get_ports(
ctx, filters=port_filter)
if ports:
for port in ports:
try:
self.plugin.db._core_plugin.delete_port(
ctx, port['id'])
except Exception as exception:
# stop exception propagation, nport may have
# been deleted by other means
LOG.warning(_LW('proxy port deletion failed: %r'),
exception)
def _accomplish_member_static_route_data(self,
ctx, member, member_data, proxy_gateway_ip):
member_ports = self.plugin.db._core_plugin.get_ports(
ctx,
filters={'fixed_ips': {'ip_address': [member.address]},
'tenant_id': [member.tenant_id]})
if len(member_ports) == 1:
member_subnet = self.plugin._core_plugin.get_subnet(
ctx,
member_ports[0]['fixed_ips'][0]['subnet_id'])
member_network = netaddr.IPNetwork(member_subnet['cidr'])
member_data['subnet'] = str(member_network.network)
member_data['mask'] = str(member_network.netmask)
else:
member_data['subnet'] = member_data['address']
member_data['gw'] = proxy_gateway_ip
class OperationCompletionHandler(threading.Thread):
"""Update DB with operation status or delete the entity from DB."""
def __init__(self, queue, rest_client, plugin):
threading.Thread.__init__(self)
self.queue = queue
self.rest_client = rest_client
self.plugin = plugin
self.stoprequest = threading.Event()
self.opers_to_handle_before_rest = 0
def join(self, timeout=None):
self.stoprequest.set()
super(OperationCompletionHandler, self).join(timeout)
def handle_operation_completion(self, oper):
result = self.rest_client.call('GET',
oper.operation_url,
None,
None)
LOG.debug('Operation completion requested %(uri) and got: %(result)',
{'uri': oper.operation_url, 'result': result})
completed = result[rest.RESP_DATA]['complete']
reason = result[rest.RESP_REASON],
description = result[rest.RESP_STR]
if completed:
# operation is done - update the DB with the status
# or delete the entire graph from DB
success = result[rest.RESP_DATA]['success']
sec_to_completion = time.time() - oper.creation_time
debug_data = {'oper': oper,
'sec_to_completion': sec_to_completion,
'success': success}
LOG.debug('Operation %(oper)s is completed after '
'%(sec_to_completion)d sec '
'with success status: %(success)s :',
debug_data)
if not success:
# failure - log it and set the return ERROR as DB state
if reason or description:
msg = 'Reason:%s. Description:%s' % (reason, description)
else:
msg = "unknown"
error_params = {"operation": oper, "msg": msg}
LOG.error(_LE(
'Operation %(operation)s failed. Reason: %(msg)s'),
error_params)
oper.status = constants.ERROR
OperationCompletionHandler._run_post_failure_function(oper)
else:
oper.status = constants.ACTIVE
OperationCompletionHandler._run_post_success_function(oper)
return completed
def run(self):
while not self.stoprequest.isSet():
try:
oper = self.queue.get(timeout=1)
# Get the current queue size (N) and set the counter with it.
# Handle N operations with no intermission.
# Once N operations handles, get the size again and repeat.
if self.opers_to_handle_before_rest <= 0:
self.opers_to_handle_before_rest = self.queue.qsize() + 1
LOG.debug('Operation consumed from the queue: ' +
str(oper))
# check the status - if oper is done: update the db ,
# else push the oper again to the queue
if not self.handle_operation_completion(oper):
LOG.debug('Operation %s is not completed yet..' % oper)
# Not completed - push to the queue again
self.queue.put_nowait(oper)
self.queue.task_done()
self.opers_to_handle_before_rest -= 1
# Take one second rest before start handling
# new operations or operations handled before
if self.opers_to_handle_before_rest <= 0:
time.sleep(1)
except Queue.Empty:
continue
except Exception:
LOG.error(_LE(
"Exception was thrown inside OperationCompletionHandler"))
@staticmethod
def _run_post_success_function(oper):
try:
ctx = context.get_admin_context(load_admin_roles=False)
oper.manager.successful_completion(ctx, oper.data_model,
delete=oper.delete)
LOG.debug('Post-operation success function completed '
'for operation %s',
repr(oper))
except Exception:
with excutils.save_and_reraise_exception():
LOG.error(_LE('Post-operation success function failed '
'for operation %s'),
repr(oper))
@staticmethod
def _run_post_failure_function(oper):
try:
ctx = context.get_admin_context(load_admin_roles=False)
oper.manager.failed_completion(ctx, oper.data_model)
LOG.debug('Post-operation failure function completed '
'for operation %s',
repr(oper))
except Exception:
with excutils.save_and_reraise_exception():
LOG.error(_LE('Post-operation failure function failed '
'for operation %s'),
repr(oper))
class OperationAttributes(object):
"""Holds operation attributes"""
def __init__(self,
manager,
operation_url,
lb,
data_model=None,
old_data_model=None,
delete=False):
self.manager = manager
self.operation_url = operation_url
self.lb = lb
self.data_model = data_model
self.old_data_model = old_data_model
self.delete = delete
self.creation_time = time.time()
def __repr__(self):
attrs = self.__dict__
items = ("%s = %r" % (k, v) for k, v in attrs.items())
return "<%s: {%s}>" % (self.__class__.__name__, ', '.join(items))
def _rest_wrapper(response, success_codes=None):
"""Wrap a REST call and make sure a valido status is returned."""
success_codes = success_codes or [202]
if not response:
raise r_exc.RESTRequestFailure(
status=-1,
reason="Unknown",
description="Unknown",
success_codes=success_codes
)
elif response[rest.RESP_STATUS] not in success_codes:
raise r_exc.RESTRequestFailure(
status=response[rest.RESP_STATUS],
reason=response[rest.RESP_REASON],
description=response[rest.RESP_STR],
success_codes=success_codes
)
else:
LOG.debug("this is a respone: %s" % (response,))
return response[rest.RESP_DATA]
| apache-2.0 |
cernops/neutron | neutron/agent/ovs_cleanup_util.py | 8 | 3836 | # Copyright (c) 2012 OpenStack Foundation.
# All Rights Reserved.
#
# Licensed 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.
from oslo.config import cfg
from neutron.agent.common import config as agent_config
from neutron.agent import l3_agent
from neutron.agent.linux import interface
from neutron.agent.linux import ip_lib
from neutron.agent.linux import ovs_lib
from neutron.common import config
from neutron.openstack.common import log as logging
LOG = logging.getLogger(__name__)
def setup_conf():
"""Setup the cfg for the clean up utility.
Use separate setup_conf for the utility because there are many options
from the main config that do not apply during clean-up.
"""
opts = [
cfg.BoolOpt('ovs_all_ports',
default=False,
help=_('True to delete all ports on all the OpenvSwitch '
'bridges. False to delete ports created by '
'Neutron on integration and external network '
'bridges.'))
]
conf = cfg.CONF
conf.register_cli_opts(opts)
conf.register_opts(l3_agent.L3NATAgent.OPTS)
conf.register_opts(interface.OPTS)
agent_config.register_interface_driver_opts_helper(conf)
agent_config.register_use_namespaces_opts_helper(conf)
agent_config.register_root_helper(conf)
return conf
def collect_neutron_ports(bridges, root_helper):
"""Collect ports created by Neutron from OVS."""
ports = []
for bridge in bridges:
ovs = ovs_lib.OVSBridge(bridge, root_helper)
ports += [port.port_name for port in ovs.get_vif_ports()]
return ports
def delete_neutron_ports(ports, root_helper):
"""Delete non-internal ports created by Neutron
Non-internal OVS ports need to be removed manually.
"""
for port in ports:
if ip_lib.device_exists(port):
device = ip_lib.IPDevice(port, root_helper)
device.link.delete()
LOG.info(_("Delete %s"), port)
def main():
"""Main method for cleaning up OVS bridges.
The utility cleans up the integration bridges used by Neutron.
"""
conf = setup_conf()
conf()
config.setup_logging()
configuration_bridges = set([conf.ovs_integration_bridge,
conf.external_network_bridge])
ovs_bridges = set(ovs_lib.get_bridges(conf.AGENT.root_helper))
available_configuration_bridges = configuration_bridges & ovs_bridges
if conf.ovs_all_ports:
bridges = ovs_bridges
else:
bridges = available_configuration_bridges
# Collect existing ports created by Neutron on configuration bridges.
# After deleting ports from OVS bridges, we cannot determine which
# ports were created by Neutron, so port information is collected now.
ports = collect_neutron_ports(available_configuration_bridges,
conf.AGENT.root_helper)
for bridge in bridges:
LOG.info(_("Cleaning %s"), bridge)
ovs = ovs_lib.OVSBridge(bridge, conf.AGENT.root_helper)
ovs.delete_ports(all_ports=conf.ovs_all_ports)
# Remove remaining ports created by Neutron (usually veth pair)
delete_neutron_ports(ports, conf.AGENT.root_helper)
LOG.info(_("OVS cleanup completed successfully"))
| apache-2.0 |
Kiiv/CouchPotatoServer | couchpotato/core/media/movie/providers/trailer/youtube_dl/extractor/discovery.py | 18 | 1798 | from __future__ import unicode_literals
import re
import json
from .common import InfoExtractor
class DiscoveryIE(InfoExtractor):
_VALID_URL = r'http://www\.discovery\.com\/[a-zA-Z0-9\-]*/[a-zA-Z0-9\-]*/videos/(?P<id>[a-zA-Z0-9\-]*)(.htm)?'
_TEST = {
'url': 'http://www.discovery.com/tv-shows/mythbusters/videos/mission-impossible-outtakes.htm',
'md5': 'e12614f9ee303a6ccef415cb0793eba2',
'info_dict': {
'id': '614784',
'ext': 'mp4',
'title': 'MythBusters: Mission Impossible Outtakes',
'description': ('Watch Jamie Hyneman and Adam Savage practice being'
' each other -- to the point of confusing Jamie\'s dog -- and '
'don\'t miss Adam moon-walking as Jamie ... behind Jamie\'s'
' back.'),
'duration': 156,
},
}
def _real_extract(self, url):
mobj = re.match(self._VALID_URL, url)
video_id = mobj.group('id')
webpage = self._download_webpage(url, video_id)
video_list_json = self._search_regex(r'var videoListJSON = ({.*?});',
webpage, 'video list', flags=re.DOTALL)
video_list = json.loads(video_list_json)
info = video_list['clips'][0]
formats = []
for f in info['mp4']:
formats.append(
{'url': f['src'], 'ext': 'mp4', 'tbr': int(f['bitrate'][:-1])})
return {
'id': info['contentId'],
'title': video_list['name'],
'formats': formats,
'description': info['videoCaption'],
'thumbnail': info.get('videoStillURL') or info.get('thumbnailURL'),
'duration': info['duration'],
}
| gpl-3.0 |
GalaxyTab4/aosp-p_kernel_samsung_matissewifi | tools/perf/scripts/python/Perf-Trace-Util/lib/Perf/Trace/Core.py | 11088 | 3246 | # Core.py - Python extension for perf script, core functions
#
# Copyright (C) 2010 by Tom Zanussi <tzanussi@gmail.com>
#
# This software may be distributed under the terms of the GNU General
# Public License ("GPL") version 2 as published by the Free Software
# Foundation.
from collections import defaultdict
def autodict():
return defaultdict(autodict)
flag_fields = autodict()
symbolic_fields = autodict()
def define_flag_field(event_name, field_name, delim):
flag_fields[event_name][field_name]['delim'] = delim
def define_flag_value(event_name, field_name, value, field_str):
flag_fields[event_name][field_name]['values'][value] = field_str
def define_symbolic_field(event_name, field_name):
# nothing to do, really
pass
def define_symbolic_value(event_name, field_name, value, field_str):
symbolic_fields[event_name][field_name]['values'][value] = field_str
def flag_str(event_name, field_name, value):
string = ""
if flag_fields[event_name][field_name]:
print_delim = 0
keys = flag_fields[event_name][field_name]['values'].keys()
keys.sort()
for idx in keys:
if not value and not idx:
string += flag_fields[event_name][field_name]['values'][idx]
break
if idx and (value & idx) == idx:
if print_delim and flag_fields[event_name][field_name]['delim']:
string += " " + flag_fields[event_name][field_name]['delim'] + " "
string += flag_fields[event_name][field_name]['values'][idx]
print_delim = 1
value &= ~idx
return string
def symbol_str(event_name, field_name, value):
string = ""
if symbolic_fields[event_name][field_name]:
keys = symbolic_fields[event_name][field_name]['values'].keys()
keys.sort()
for idx in keys:
if not value and not idx:
string = symbolic_fields[event_name][field_name]['values'][idx]
break
if (value == idx):
string = symbolic_fields[event_name][field_name]['values'][idx]
break
return string
trace_flags = { 0x00: "NONE", \
0x01: "IRQS_OFF", \
0x02: "IRQS_NOSUPPORT", \
0x04: "NEED_RESCHED", \
0x08: "HARDIRQ", \
0x10: "SOFTIRQ" }
def trace_flag_str(value):
string = ""
print_delim = 0
keys = trace_flags.keys()
for idx in keys:
if not value and not idx:
string += "NONE"
break
if idx and (value & idx) == idx:
if print_delim:
string += " | ";
string += trace_flags[idx]
print_delim = 1
value &= ~idx
return string
def taskState(state):
states = {
0 : "R",
1 : "S",
2 : "D",
64: "DEAD"
}
if state not in states:
return "Unknown"
return states[state]
class EventHeaders:
def __init__(self, common_cpu, common_secs, common_nsecs,
common_pid, common_comm):
self.cpu = common_cpu
self.secs = common_secs
self.nsecs = common_nsecs
self.pid = common_pid
self.comm = common_comm
def ts(self):
return (self.secs * (10 ** 9)) + self.nsecs
def ts_format(self):
return "%d.%d" % (self.secs, int(self.nsecs / 1000))
| gpl-2.0 |
supermarcos/log2bq | mapreduce/lib/pipeline/simplejson/decoder.py | 43 | 15215 | #!/usr/bin/env python
"""Implementation of JSONDecoder
"""
import re
import sys
import struct
# Local changes for relative import.
from scanner import make_scanner
def _import_c_scanstring():
try:
from mapreduce.lib.simplejson._speedups import scanstring
return scanstring
except ImportError:
return None
c_scanstring = _import_c_scanstring()
__all__ = ['JSONDecoder']
FLAGS = re.VERBOSE | re.MULTILINE | re.DOTALL
def _floatconstants():
_BYTES = '7FF80000000000007FF0000000000000'.decode('hex')
# The struct module in Python 2.4 would get frexp() out of range here
# when an endian is specified in the format string. Fixed in Python 2.5+
if sys.byteorder != 'big':
_BYTES = _BYTES[:8][::-1] + _BYTES[8:][::-1]
nan, inf = struct.unpack('dd', _BYTES)
return nan, inf, -inf
NaN, PosInf, NegInf = _floatconstants()
class JSONDecodeError(ValueError):
"""Subclass of ValueError with the following additional properties:
msg: The unformatted error message
doc: The JSON document being parsed
pos: The start index of doc where parsing failed
end: The end index of doc where parsing failed (may be None)
lineno: The line corresponding to pos
colno: The column corresponding to pos
endlineno: The line corresponding to end (may be None)
endcolno: The column corresponding to end (may be None)
"""
def __init__(self, msg, doc, pos, end=None):
ValueError.__init__(self, errmsg(msg, doc, pos, end=end))
self.msg = msg
self.doc = doc
self.pos = pos
self.end = end
self.lineno, self.colno = linecol(doc, pos)
if end is not None:
self.endlineno, self.endcolno = linecol(doc, pos)
else:
self.endlineno, self.endcolno = None, None
def linecol(doc, pos):
lineno = doc.count('\n', 0, pos) + 1
if lineno == 1:
colno = pos
else:
colno = pos - doc.rindex('\n', 0, pos)
return lineno, colno
def errmsg(msg, doc, pos, end=None):
# Note that this function is called from _speedups
lineno, colno = linecol(doc, pos)
if end is None:
#fmt = '{0}: line {1} column {2} (char {3})'
#return fmt.format(msg, lineno, colno, pos)
fmt = '%s: line %d column %d (char %d)'
return fmt % (msg, lineno, colno, pos)
endlineno, endcolno = linecol(doc, end)
#fmt = '{0}: line {1} column {2} - line {3} column {4} (char {5} - {6})'
#return fmt.format(msg, lineno, colno, endlineno, endcolno, pos, end)
fmt = '%s: line %d column %d - line %d column %d (char %d - %d)'
return fmt % (msg, lineno, colno, endlineno, endcolno, pos, end)
_CONSTANTS = {
'-Infinity': NegInf,
'Infinity': PosInf,
'NaN': NaN,
}
STRINGCHUNK = re.compile(r'(.*?)(["\\\x00-\x1f])', FLAGS)
BACKSLASH = {
'"': u'"', '\\': u'\\', '/': u'/',
'b': u'\b', 'f': u'\f', 'n': u'\n', 'r': u'\r', 't': u'\t',
}
DEFAULT_ENCODING = "utf-8"
def py_scanstring(s, end, encoding=None, strict=True,
_b=BACKSLASH, _m=STRINGCHUNK.match):
"""Scan the string s for a JSON string. End is the index of the
character in s after the quote that started the JSON string.
Unescapes all valid JSON string escape sequences and raises ValueError
on attempt to decode an invalid string. If strict is False then literal
control characters are allowed in the string.
Returns a tuple of the decoded string and the index of the character in s
after the end quote."""
if encoding is None:
encoding = DEFAULT_ENCODING
chunks = []
_append = chunks.append
begin = end - 1
while 1:
chunk = _m(s, end)
if chunk is None:
raise JSONDecodeError(
"Unterminated string starting at", s, begin)
end = chunk.end()
content, terminator = chunk.groups()
# Content is contains zero or more unescaped string characters
if content:
if not isinstance(content, unicode):
content = unicode(content, encoding)
_append(content)
# Terminator is the end of string, a literal control character,
# or a backslash denoting that an escape sequence follows
if terminator == '"':
break
elif terminator != '\\':
if strict:
msg = "Invalid control character %r at" % (terminator,)
#msg = "Invalid control character {0!r} at".format(terminator)
raise JSONDecodeError(msg, s, end)
else:
_append(terminator)
continue
try:
esc = s[end]
except IndexError:
raise JSONDecodeError(
"Unterminated string starting at", s, begin)
# If not a unicode escape sequence, must be in the lookup table
if esc != 'u':
try:
char = _b[esc]
except KeyError:
msg = "Invalid \\escape: " + repr(esc)
raise JSONDecodeError(msg, s, end)
end += 1
else:
# Unicode escape sequence
esc = s[end + 1:end + 5]
next_end = end + 5
if len(esc) != 4:
msg = "Invalid \\uXXXX escape"
raise JSONDecodeError(msg, s, end)
uni = int(esc, 16)
# Check for surrogate pair on UCS-4 systems
if 0xd800 <= uni <= 0xdbff and sys.maxunicode > 65535:
msg = "Invalid \\uXXXX\\uXXXX surrogate pair"
if not s[end + 5:end + 7] == '\\u':
raise JSONDecodeError(msg, s, end)
esc2 = s[end + 7:end + 11]
if len(esc2) != 4:
raise JSONDecodeError(msg, s, end)
uni2 = int(esc2, 16)
uni = 0x10000 + (((uni - 0xd800) << 10) | (uni2 - 0xdc00))
next_end += 6
char = unichr(uni)
end = next_end
# Append the unescaped character
_append(char)
return u''.join(chunks), end
# Use speedup if available
scanstring = c_scanstring or py_scanstring
WHITESPACE = re.compile(r'[ \t\n\r]*', FLAGS)
WHITESPACE_STR = ' \t\n\r'
def JSONObject((s, end), encoding, strict, scan_once, object_hook,
object_pairs_hook, memo=None,
_w=WHITESPACE.match, _ws=WHITESPACE_STR):
# Backwards compatibility
if memo is None:
memo = {}
memo_get = memo.setdefault
pairs = []
# Use a slice to prevent IndexError from being raised, the following
# check will raise a more specific ValueError if the string is empty
nextchar = s[end:end + 1]
# Normally we expect nextchar == '"'
if nextchar != '"':
if nextchar in _ws:
end = _w(s, end).end()
nextchar = s[end:end + 1]
# Trivial empty object
if nextchar == '}':
if object_pairs_hook is not None:
result = object_pairs_hook(pairs)
return result, end
pairs = {}
if object_hook is not None:
pairs = object_hook(pairs)
return pairs, end + 1
elif nextchar != '"':
raise JSONDecodeError("Expecting property name", s, end)
end += 1
while True:
key, end = scanstring(s, end, encoding, strict)
key = memo_get(key, key)
# To skip some function call overhead we optimize the fast paths where
# the JSON key separator is ": " or just ":".
if s[end:end + 1] != ':':
end = _w(s, end).end()
if s[end:end + 1] != ':':
raise JSONDecodeError("Expecting : delimiter", s, end)
end += 1
try:
if s[end] in _ws:
end += 1
if s[end] in _ws:
end = _w(s, end + 1).end()
except IndexError:
pass
try:
value, end = scan_once(s, end)
except StopIteration:
raise JSONDecodeError("Expecting object", s, end)
pairs.append((key, value))
try:
nextchar = s[end]
if nextchar in _ws:
end = _w(s, end + 1).end()
nextchar = s[end]
except IndexError:
nextchar = ''
end += 1
if nextchar == '}':
break
elif nextchar != ',':
raise JSONDecodeError("Expecting , delimiter", s, end - 1)
try:
nextchar = s[end]
if nextchar in _ws:
end += 1
nextchar = s[end]
if nextchar in _ws:
end = _w(s, end + 1).end()
nextchar = s[end]
except IndexError:
nextchar = ''
end += 1
if nextchar != '"':
raise JSONDecodeError("Expecting property name", s, end - 1)
if object_pairs_hook is not None:
result = object_pairs_hook(pairs)
return result, end
pairs = dict(pairs)
if object_hook is not None:
pairs = object_hook(pairs)
return pairs, end
def JSONArray((s, end), scan_once, _w=WHITESPACE.match, _ws=WHITESPACE_STR):
values = []
nextchar = s[end:end + 1]
if nextchar in _ws:
end = _w(s, end + 1).end()
nextchar = s[end:end + 1]
# Look-ahead for trivial empty array
if nextchar == ']':
return values, end + 1
_append = values.append
while True:
try:
value, end = scan_once(s, end)
except StopIteration:
raise JSONDecodeError("Expecting object", s, end)
_append(value)
nextchar = s[end:end + 1]
if nextchar in _ws:
end = _w(s, end + 1).end()
nextchar = s[end:end + 1]
end += 1
if nextchar == ']':
break
elif nextchar != ',':
raise JSONDecodeError("Expecting , delimiter", s, end)
try:
if s[end] in _ws:
end += 1
if s[end] in _ws:
end = _w(s, end + 1).end()
except IndexError:
pass
return values, end
class JSONDecoder(object):
"""Simple JSON <http://json.org> decoder
Performs the following translations in decoding by default:
+---------------+-------------------+
| JSON | Python |
+===============+===================+
| object | dict |
+---------------+-------------------+
| array | list |
+---------------+-------------------+
| string | unicode |
+---------------+-------------------+
| number (int) | int, long |
+---------------+-------------------+
| number (real) | float |
+---------------+-------------------+
| true | True |
+---------------+-------------------+
| false | False |
+---------------+-------------------+
| null | None |
+---------------+-------------------+
It also understands ``NaN``, ``Infinity``, and ``-Infinity`` as
their corresponding ``float`` values, which is outside the JSON spec.
"""
def __init__(self, encoding=None, object_hook=None, parse_float=None,
parse_int=None, parse_constant=None, strict=True,
object_pairs_hook=None):
"""
*encoding* determines the encoding used to interpret any
:class:`str` objects decoded by this instance (``'utf-8'`` by
default). It has no effect when decoding :class:`unicode` objects.
Note that currently only encodings that are a superset of ASCII work,
strings of other encodings should be passed in as :class:`unicode`.
*object_hook*, if specified, will be called with the result of every
JSON object decoded and its return value will be used in place of the
given :class:`dict`. This can be used to provide custom
deserializations (e.g. to support JSON-RPC class hinting).
*object_pairs_hook* is an optional function that will be called with
the result of any object literal decode with an ordered list of pairs.
The return value of *object_pairs_hook* will be used instead of the
:class:`dict`. This feature can be used to implement custom decoders
that rely on the order that the key and value pairs are decoded (for
example, :func:`collections.OrderedDict` will remember the order of
insertion). If *object_hook* is also defined, the *object_pairs_hook*
takes priority.
*parse_float*, if specified, will be called with the string of every
JSON float to be decoded. By default, this is equivalent to
``float(num_str)``. This can be used to use another datatype or parser
for JSON floats (e.g. :class:`decimal.Decimal`).
*parse_int*, if specified, will be called with the string of every
JSON int to be decoded. By default, this is equivalent to
``int(num_str)``. This can be used to use another datatype or parser
for JSON integers (e.g. :class:`float`).
*parse_constant*, if specified, will be called with one of the
following strings: ``'-Infinity'``, ``'Infinity'``, ``'NaN'``. This
can be used to raise an exception if invalid JSON numbers are
encountered.
*strict* controls the parser's behavior when it encounters an
invalid control character in a string. The default setting of
``True`` means that unescaped control characters are parse errors, if
``False`` then control characters will be allowed in strings.
"""
self.encoding = encoding
self.object_hook = object_hook
self.object_pairs_hook = object_pairs_hook
self.parse_float = parse_float or float
self.parse_int = parse_int or int
self.parse_constant = parse_constant or _CONSTANTS.__getitem__
self.strict = strict
self.parse_object = JSONObject
self.parse_array = JSONArray
self.parse_string = scanstring
self.memo = {}
self.scan_once = make_scanner(self)
def decode(self, s, _w=WHITESPACE.match):
"""Return the Python representation of ``s`` (a ``str`` or ``unicode``
instance containing a JSON document)
"""
obj, end = self.raw_decode(s, idx=_w(s, 0).end())
end = _w(s, end).end()
if end != len(s):
raise JSONDecodeError("Extra data", s, end, len(s))
return obj
def raw_decode(self, s, idx=0):
"""Decode a JSON document from ``s`` (a ``str`` or ``unicode``
beginning with a JSON document) and return a 2-tuple of the Python
representation and the index in ``s`` where the document ended.
This can be used to decode a JSON document from a string that may
have extraneous data at the end.
"""
try:
obj, end = self.scan_once(s, idx)
except StopIteration:
raise JSONDecodeError("No JSON object could be decoded", s, idx)
return obj, end
| apache-2.0 |
Nexenta/cinder | cinder/api/v2/views/types.py | 9 | 2122 | # Copyright 2012 Red Hat, Inc.
# Copyright 2015 Intel Corporation
# All Rights Reserved.
#
# Licensed 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.
from cinder.api import common
class ViewBuilder(common.ViewBuilder):
def show(self, request, volume_type, brief=False):
"""Trim away extraneous volume type attributes."""
context = request.environ['cinder.context']
trimmed = dict(id=volume_type.get('id'),
name=volume_type.get('name'),
is_public=volume_type.get('is_public'),
description=volume_type.get('description'))
if common.validate_policy(
context,
'volume_extension:access_types_extra_specs'):
trimmed['extra_specs'] = volume_type.get('extra_specs')
if common.validate_policy(
context,
'volume_extension:access_types_qos_specs_id'):
trimmed['qos_specs_id'] = volume_type.get('qos_specs_id')
return trimmed if brief else dict(volume_type=trimmed)
def index(self, request, volume_types):
"""Index over trimmed volume types."""
volume_types_list = [self.show(request, volume_type, True)
for volume_type in volume_types]
volume_type_links = self._get_collection_links(request, volume_types,
'types')
volume_types_dict = dict(volume_types=volume_types_list)
if volume_type_links:
volume_types_dict['volume_type_links'] = volume_type_links
return volume_types_dict
| apache-2.0 |
resmo/ansible | test/units/executor/module_common/test_modify_module.py | 84 | 1383 | # Copyright (c) 2018 Matt Martz <matt@sivel.net>
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
# -*- coding: utf-8 -*-
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
import pytest
from ansible.executor.module_common import modify_module
from ansible.module_utils.six import PY2
from test_module_common import templar
FAKE_OLD_MODULE = b'''#!/usr/bin/python
import sys
print('{"result": "%s"}' % sys.executable)
'''
@pytest.fixture
def fake_old_module_open(mocker):
m = mocker.mock_open(read_data=FAKE_OLD_MODULE)
if PY2:
mocker.patch('__builtin__.open', m)
else:
mocker.patch('builtins.open', m)
# this test no longer makes sense, since a Python module will always either have interpreter discovery run or
# an explicit interpreter passed (so we'll never default to the module shebang)
# def test_shebang(fake_old_module_open, templar):
# (data, style, shebang) = modify_module('fake_module', 'fake_path', {}, templar)
# assert shebang == '#!/usr/bin/python'
def test_shebang_task_vars(fake_old_module_open, templar):
task_vars = {
'ansible_python_interpreter': '/usr/bin/python3'
}
(data, style, shebang) = modify_module('fake_module', 'fake_path', {}, templar, task_vars=task_vars)
assert shebang == '#!/usr/bin/python3'
| gpl-3.0 |
Stanford-Online/edx-platform | cms/djangoapps/contentstore/management/commands/tests/test_export.py | 24 | 2500 | """
Tests for exporting courseware to the desired path
"""
import unittest
import shutil
import ddt
from django.core.management import CommandError, call_command
from tempfile import mkdtemp
from xmodule.modulestore.tests.factories import CourseFactory
from xmodule.modulestore import ModuleStoreEnum
from xmodule.modulestore.tests.django_utils import ModuleStoreTestCase
from xmodule.modulestore.django import modulestore
class TestArgParsingCourseExport(unittest.TestCase):
"""
Tests for parsing arguments for the `export` management command
"""
def test_no_args(self):
"""
Test export command with no arguments
"""
errstring = "Error: too few arguments"
with self.assertRaisesRegexp(CommandError, errstring):
call_command('export')
@ddt.ddt
class TestCourseExport(ModuleStoreTestCase):
"""
Test exporting a course
"""
def setUp(self):
super(TestCourseExport, self).setUp()
# Temp directories (temp_dir_1: relative path, temp_dir_2: absolute path)
self.temp_dir_1 = mkdtemp()
self.temp_dir_2 = mkdtemp(dir="")
# Clean temp directories
self.addCleanup(shutil.rmtree, self.temp_dir_1)
self.addCleanup(shutil.rmtree, self.temp_dir_2)
@ddt.data(ModuleStoreEnum.Type.mongo, ModuleStoreEnum.Type.split)
def test_export_course_with_directory_name(self, store):
"""
Create a new course try exporting in a path specified
"""
course = CourseFactory.create(default_store=store)
course_id = unicode(course.id)
self.assertTrue(
modulestore().has_course(course.id),
"Could not find course in {}".format(store)
)
# Test `export` management command with invalid course_id
errstring = "Invalid course_key: 'InvalidCourseID'."
with self.assertRaisesRegexp(CommandError, errstring):
call_command('export', "InvalidCourseID", self.temp_dir_1)
# Test `export` management command with correct course_id
for output_dir in [self.temp_dir_1, self.temp_dir_2]:
call_command('export', course_id, output_dir)
def test_course_key_not_found(self):
"""
Test export command with a valid course key that doesn't exist
"""
errstring = "Course with x/y/z key not found."
with self.assertRaisesRegexp(CommandError, errstring):
call_command('export', "x/y/z", self.temp_dir_1)
| agpl-3.0 |
postlund/home-assistant | homeassistant/components/glances/const.py | 1 | 1779 | """Constants for Glances component."""
from homeassistant.const import DATA_GIBIBYTES, DATA_MEBIBYTES, TEMP_CELSIUS
DOMAIN = "glances"
CONF_VERSION = "version"
DEFAULT_HOST = "localhost"
DEFAULT_NAME = "Glances"
DEFAULT_PORT = 61208
DEFAULT_VERSION = 3
DEFAULT_SCAN_INTERVAL = 60
DATA_UPDATED = "glances_data_updated"
SUPPORTED_VERSIONS = [2, 3]
SENSOR_TYPES = {
"disk_use_percent": ["fs", "used percent", "%", "mdi:harddisk"],
"disk_use": ["fs", "used", DATA_GIBIBYTES, "mdi:harddisk"],
"disk_free": ["fs", "free", DATA_GIBIBYTES, "mdi:harddisk"],
"memory_use_percent": ["mem", "RAM used percent", "%", "mdi:memory"],
"memory_use": ["mem", "RAM used", DATA_MEBIBYTES, "mdi:memory"],
"memory_free": ["mem", "RAM free", DATA_MEBIBYTES, "mdi:memory"],
"swap_use_percent": ["memswap", "Swap used percent", "%", "mdi:memory"],
"swap_use": ["memswap", "Swap used", DATA_GIBIBYTES, "mdi:memory"],
"swap_free": ["memswap", "Swap free", DATA_GIBIBYTES, "mdi:memory"],
"processor_load": ["load", "CPU load", "15 min", "mdi:memory"],
"process_running": ["processcount", "Running", "Count", "mdi:memory"],
"process_total": ["processcount", "Total", "Count", "mdi:memory"],
"process_thread": ["processcount", "Thread", "Count", "mdi:memory"],
"process_sleeping": ["processcount", "Sleeping", "Count", "mdi:memory"],
"cpu_use_percent": ["cpu", "CPU used", "%", "mdi:memory"],
"sensor_temp": ["sensors", "Temp", TEMP_CELSIUS, "mdi:thermometer"],
"docker_active": ["docker", "Containers active", "", "mdi:docker"],
"docker_cpu_use": ["docker", "Containers CPU used", "%", "mdi:docker"],
"docker_memory_use": [
"docker",
"Containers RAM used",
DATA_MEBIBYTES,
"mdi:docker",
],
}
| apache-2.0 |
mushtaqak/edx-platform | lms/djangoapps/dashboard/support.py | 50 | 4528 | """
Views for support dashboard
"""
import logging
from django.contrib.auth.models import User
from django.views.generic.edit import FormView
from django.views.generic.base import TemplateView
from django.utils.translation import ugettext as _
from django.http import HttpResponseRedirect
from django.contrib import messages
from django import forms
from student.models import CourseEnrollment
from opaque_keys.edx.keys import CourseKey
from opaque_keys import InvalidKeyError
from opaque_keys.edx.locations import SlashSeparatedCourseKey
log = logging.getLogger(__name__)
class RefundForm(forms.Form):
"""
Form for manual refunds
"""
user = forms.EmailField(label=_("Email Address"), required=True)
course_id = forms.CharField(label=_("Course ID"), required=True)
confirmed = forms.CharField(widget=forms.HiddenInput, required=False)
def clean_user(self):
"""
validate user field
"""
user_email = self.cleaned_data['user']
try:
user = User.objects.get(email=user_email)
except User.DoesNotExist:
raise forms.ValidationError(_("User not found"))
return user
def clean_course_id(self):
"""
validate course id field
"""
course_id = self.cleaned_data['course_id']
try:
course_key = CourseKey.from_string(course_id)
except InvalidKeyError:
try:
course_key = SlashSeparatedCourseKey.from_deprecated_string(course_id)
except InvalidKeyError:
raise forms.ValidationError(_("Invalid course id"))
return course_key
def clean(self):
"""
clean form
"""
user, course_id = self.cleaned_data.get('user'), self.cleaned_data.get('course_id')
if user and course_id:
self.cleaned_data['enrollment'] = enrollment = CourseEnrollment.get_or_create_enrollment(user, course_id)
if enrollment.refundable():
raise forms.ValidationError(_("Course {course_id} not past the refund window.").format(course_id=course_id))
try:
self.cleaned_data['cert'] = enrollment.certificateitem_set.filter(mode='verified', status='purchased')[0]
except IndexError:
raise forms.ValidationError(_("No order found for {user} in course {course_id}").format(user=user, course_id=course_id))
return self.cleaned_data
def is_valid(self):
"""
returns whether form is valid
"""
is_valid = super(RefundForm, self).is_valid()
if is_valid and self.cleaned_data.get('confirmed') != 'true':
# this is a two-step form: first look up the data, then issue the refund.
# first time through, set the hidden "confirmed" field to true and then redisplay the form
# second time through, do the unenrollment/refund.
data = dict(self.data.items())
self.cleaned_data['confirmed'] = data['confirmed'] = 'true'
self.data = data
is_valid = False
return is_valid
class SupportDash(TemplateView):
"""
Support dashboard view
"""
template_name = 'dashboard/support.html'
class Refund(FormView):
"""
Refund form view
"""
template_name = 'dashboard/_dashboard_refund.html'
form_class = RefundForm
success_url = '/support/'
def get_context_data(self, **kwargs):
"""
extra context data to add to page
"""
form = getattr(kwargs['form'], 'cleaned_data', {})
if form.get('confirmed') == 'true':
kwargs['cert'] = form.get('cert')
kwargs['enrollment'] = form.get('enrollment')
return kwargs
def form_valid(self, form):
"""
unenrolls student, issues refund
"""
user = form.cleaned_data['user']
course_id = form.cleaned_data['course_id']
enrollment = form.cleaned_data['enrollment']
cert = form.cleaned_data['cert']
enrollment.can_refund = True
enrollment.update_enrollment(is_active=False)
log.info(u"%s manually refunded %s %s", self.request.user, user, course_id)
messages.success(self.request, _("Unenrolled {user} from {course_id}").format(user=user, course_id=course_id))
messages.success(self.request, _("Refunded {cost} for order id {order_id}").format(cost=cert.unit_cost, order_id=cert.order.id))
return HttpResponseRedirect('/support/refund/')
| agpl-3.0 |
basvandijk/nixops | nixops/backends/none.py | 3 | 2763 | # -*- coding: utf-8 -*-
import os
import sys
import nixops.util
from nixops.backends import MachineDefinition, MachineState
from nixops.util import attr_property, create_key_pair
class NoneDefinition(MachineDefinition):
"""Definition of a trivial machine."""
@classmethod
def get_type(cls):
return "none"
def __init__(self, xml, config):
MachineDefinition.__init__(self, xml, config)
self._target_host = xml.find("attrs/attr[@name='targetHost']/string").get("value")
class NoneState(MachineState):
"""State of a trivial machine."""
@classmethod
def get_type(cls):
return "none"
target_host = nixops.util.attr_property("targetHost", None)
_ssh_private_key = attr_property("none.sshPrivateKey", None)
_ssh_public_key = attr_property("none.sshPublicKey", None)
def __init__(self, depl, name, id):
MachineState.__init__(self, depl, name, id)
@property
def resource_id(self):
return self.vm_id
def get_physical_spec(self):
return {
('config', 'users', 'extraUsers', 'root', 'openssh',
'authorizedKeys', 'keys'): [self._ssh_public_key]
} if self._ssh_public_key else {}
def create(self, defn, check, allow_reboot, allow_recreate):
assert isinstance(defn, NoneDefinition)
self.set_common_state(defn)
self.target_host = defn._target_host
if not self.vm_id:
self.log_start("generating new SSH keypair...")
key_name = "NixOps client key for {0}".format(self.name)
self._ssh_private_key, self._ssh_public_key = \
create_key_pair(key_name=key_name)
self.log_end("done.")
self.vm_id = "nixops-{0}-{1}".format(self.depl.uuid, self.name)
def get_ssh_name(self):
assert self.target_host
return self.target_host
def get_ssh_private_key_file(self):
if self._ssh_private_key_file:
return self._ssh_private_key_file
else:
return self.write_ssh_private_key(self._ssh_private_key)
def get_ssh_flags(self):
super_state_flags = super(NoneState, self).get_ssh_flags()
if self.vm_id and self.cur_toplevel:
return super_state_flags + ["-o", "StrictHostKeyChecking=no", "-i", self.get_ssh_private_key_file()]
return super_state_flags
def _check(self, res):
if not self.vm_id:
res.exists = False
return
res.exists = True
res.is_up = nixops.util.ping_tcp_port(self.target_host, self.ssh_port)
if res.is_up:
MachineState._check(self, res)
def destroy(self, wipe=False):
# No-op; just forget about the machine.
return True
| lgpl-3.0 |
Workday/OpenFrame | tools/telemetry/telemetry/internal/platform/tracing_agent/chrome_tracing_agent.py | 2 | 7110 | # Copyright 2015 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
import os
import shutil
import stat
import sys
import tempfile
import traceback
from telemetry.internal.platform import tracing_agent
from telemetry.internal.platform.tracing_agent import (
chrome_tracing_devtools_manager)
from telemetry.timeline import tracing_config
_DESKTOP_OS_NAMES = ['linux', 'mac', 'win']
_STARTUP_TRACING_OS_NAMES = _DESKTOP_OS_NAMES + ['android']
# The trace config file path should be the same as specified in
# src/components/tracing/trace_config_file.[h|cc]
_CHROME_TRACE_CONFIG_DIR_ANDROID = '/data/local/'
_CHROME_TRACE_CONFIG_FILE_NAME = 'chrome-trace-config.json'
class ChromeTracingStartedError(Exception):
pass
class ChromeTracingStoppedError(Exception):
pass
class ChromeTracingAgent(tracing_agent.TracingAgent):
def __init__(self, platform_backend):
super(ChromeTracingAgent, self).__init__(platform_backend)
self._trace_config = None
self._trace_config_file = None
@property
def trace_config(self):
# Trace config is also used to check if Chrome tracing is running or not.
return self._trace_config
@property
def trace_config_file(self):
return self._trace_config_file
@classmethod
def IsStartupTracingSupported(cls, platform_backend):
if platform_backend.GetOSName() in _STARTUP_TRACING_OS_NAMES:
return True
else:
return False
@classmethod
def IsSupported(cls, platform_backend):
if cls.IsStartupTracingSupported(platform_backend):
return True
else:
return chrome_tracing_devtools_manager.IsSupported(platform_backend)
def _StartStartupTracing(self, config):
if not self.IsStartupTracingSupported(self._platform_backend):
return False
self._CreateTraceConfigFile(config)
return True
def _StartDevToolsTracing(self, trace_options, category_filter, timeout):
if not chrome_tracing_devtools_manager.IsSupported(self._platform_backend):
return False
devtools_clients = (chrome_tracing_devtools_manager
.GetActiveDevToolsClients(self._platform_backend))
if not devtools_clients:
return False
for client in devtools_clients:
if client.is_tracing_running:
raise ChromeTracingStartedError(
'Tracing is already running on devtools at port %s on platform'
'backend %s.' % (client.remote_port, self._platform_backend))
client.StartChromeTracing(
trace_options, category_filter.filter_string, timeout)
return True
def Start(self, trace_options, category_filter, timeout):
if not trace_options.enable_chrome_trace:
return False
if self._trace_config:
raise ChromeTracingStartedError(
'Tracing is already running on platform backend %s.'
% self._platform_backend)
if (trace_options.enable_android_graphics_memtrack and
self._platform_backend.GetOSName() == 'android'):
self._platform_backend.SetGraphicsMemoryTrackingEnabled(True)
# Chrome tracing Agent needs to start tracing for chrome browsers that are
# not yet started, and for the ones that already are. For the former, we
# first setup the trace_config_file, which allows browsers that starts after
# this point to use it for enabling tracing upon browser startup. For the
# latter, we invoke start tracing command through devtools for browsers that
# are already started and tracked by chrome_tracing_devtools_manager.
config = tracing_config.TracingConfig(trace_options, category_filter)
started_startup_tracing = self._StartStartupTracing(config)
started_devtools_tracing = self._StartDevToolsTracing(
trace_options, category_filter, timeout)
if started_startup_tracing or started_devtools_tracing:
self._trace_config = config
return True
return False
def Stop(self, trace_data_builder):
if not self._trace_config:
raise ChromeTracingStoppedError(
'Tracing is not running on platform backend %s.'
% self._platform_backend)
if self.IsStartupTracingSupported(self._platform_backend):
self._RemoveTraceConfigFile()
# We get all DevTools clients including the stale ones, so that we get an
# exception if there is a stale client. This is because we will potentially
# lose data if there is a stale client.
devtools_clients = (chrome_tracing_devtools_manager
.GetDevToolsClients(self._platform_backend))
raised_execption_messages = []
for client in devtools_clients:
try:
client.StopChromeTracing(trace_data_builder)
except Exception:
raised_execption_messages.append(
'Error when trying to stop Chrome tracing on devtools at port %s:\n%s'
% (client.remote_port,
''.join(traceback.format_exception(*sys.exc_info()))))
if (self._trace_config.tracing_options.enable_android_graphics_memtrack and
self._platform_backend.GetOSName() == 'android'):
self._platform_backend.SetGraphicsMemoryTrackingEnabled(False)
self._trace_config = None
if raised_execption_messages:
raise ChromeTracingStoppedError(
'Exceptions raised when trying to stop Chrome devtool tracing:\n' +
'\n'.join(raised_execption_messages))
def _CreateTraceConfigFileString(self, config):
# See src/components/tracing/trace_config_file.h for the format
trace_config_str = config.GetTraceConfigJsonString()
return '{"trace_config":' + trace_config_str + '}'
def _CreateTraceConfigFile(self, config):
assert not self._trace_config_file
if self._platform_backend.GetOSName() == 'android':
self._trace_config_file = os.path.join(_CHROME_TRACE_CONFIG_DIR_ANDROID,
_CHROME_TRACE_CONFIG_FILE_NAME)
self._platform_backend.device.WriteFile(self._trace_config_file,
self._CreateTraceConfigFileString(config), as_root=True)
elif self._platform_backend.GetOSName() in _DESKTOP_OS_NAMES:
self._trace_config_file = os.path.join(tempfile.mkdtemp(),
_CHROME_TRACE_CONFIG_FILE_NAME)
with open(self._trace_config_file, 'w') as f:
f.write(self._CreateTraceConfigFileString(config))
os.chmod(self._trace_config_file,
os.stat(self._trace_config_file).st_mode | stat.S_IROTH)
else:
raise NotImplementedError
def _RemoveTraceConfigFile(self):
if not self._trace_config_file:
return
if self._platform_backend.GetOSName() == 'android':
self._platform_backend.device.RunShellCommand(
['rm', '-f', self._trace_config_file], check_return=True,
as_root=True)
elif self._platform_backend.GetOSName() in _DESKTOP_OS_NAMES:
if os.path.exists(self._trace_config_file):
os.remove(self._trace_config_file)
shutil.rmtree(os.path.dirname(self._trace_config_file))
else:
raise NotImplementedError
self._trace_config_file = None
| bsd-3-clause |
GbalsaC/bitnamiP | venv/lib/python2.7/site-packages/docutils/parsers/rst/languages/ja.py | 128 | 3863 | # -*- coding: utf-8 -*-
# $Id: ja.py 7119 2011-09-02 13:00:23Z milde $
# Author: David Goodger <goodger@python.org>
# Copyright: This module has been placed in the public domain.
# New language mappings are welcome. Before doing a new translation, please
# read <http://docutils.sf.net/docs/howto/i18n.html>. Two files must be
# translated for each language: one in docutils/languages, the other in
# docutils/parsers/rst/languages.
"""
Japanese-language mappings for language-dependent features of
reStructuredText.
"""
__docformat__ = 'reStructuredText'
# Corrections to these translations are welcome!
# 間違いがあれば、どうぞ正しい翻訳を教えて下さい。
directives = {
# language-dependent: fixed
u'注目': 'attention',
u'注意': 'caution',
u'code (translation required)': 'code',
u'危険': 'danger',
u'エラー': 'error',
u'ヒント': 'hint',
u'重要': 'important',
u'備考': 'note',
u'通報': 'tip',
u'警告': 'warning',
u'戒告': 'admonition',
u'サイドバー': 'sidebar',
u'トピック': 'topic',
u'ラインブロック': 'line-block',
u'パーズドリテラル': 'parsed-literal',
u'ルブリック': 'rubric',
u'エピグラフ': 'epigraph',
u'題言': 'epigraph',
u'ハイライト': 'highlights',
u'見所': 'highlights',
u'プルクオート': 'pull-quote',
u'合成': 'compound',
u'コンテナー': 'container',
u'容器': 'container',
u'表': 'table',
u'csv表': 'csv-table',
u'リスト表': 'list-table',
#u'質問': 'questions',
#u'問答': 'questions',
#u'faq': 'questions',
u'math (translation required)': 'math',
u'メタ': 'meta',
#u'イメージマプ': 'imagemap',
u'イメージ': 'image',
u'画像': 'image',
u'フィグア': 'figure',
u'図版': 'figure',
u'インクルード': 'include',
u'含む': 'include',
u'組み込み': 'include',
u'生': 'raw',
u'原': 'raw',
u'換える': 'replace',
u'取り換える': 'replace',
u'掛け替える': 'replace',
u'ユニコード': 'unicode',
u'日付': 'date',
u'クラス': 'class',
u'ロール': 'role',
u'役': 'role',
u'ディフォルトロール': 'default-role',
u'既定役': 'default-role',
u'タイトル': 'title',
u'題': 'title', # 題名 件名
u'目次': 'contents',
u'節数': 'sectnum',
u'ヘッダ': 'header',
u'フッタ': 'footer',
#u'脚注': 'footnotes', # 脚註?
#u'サイテーション': 'citations', # 出典 引証 引用
u'ターゲットノート': 'target-notes', # 的注 的脚注
}
"""Japanese name to registered (in directives/__init__.py) directive name
mapping."""
roles = {
# language-dependent: fixed
u'略': 'abbreviation',
u'頭字語': 'acronym',
u'code (translation required)': 'code',
u'インデックス': 'index',
u'索引': 'index',
u'添字': 'subscript',
u'下付': 'subscript',
u'下': 'subscript',
u'上付': 'superscript',
u'上': 'superscript',
u'題参照': 'title-reference',
u'pep参照': 'pep-reference',
u'rfc参照': 'rfc-reference',
u'強調': 'emphasis',
u'強い': 'strong',
u'リテラル': 'literal',
u'整形済み': 'literal',
u'math (translation required)': 'math',
u'名付参照': 'named-reference',
u'無名参照': 'anonymous-reference',
u'脚注参照': 'footnote-reference',
u'出典参照': 'citation-reference',
u'代入参照': 'substitution-reference',
u'的': 'target',
u'uri参照': 'uri-reference',
u'uri': 'uri-reference',
u'url': 'uri-reference',
u'生': 'raw',}
"""Mapping of Japanese role names to canonical role names for interpreted
text."""
| agpl-3.0 |
ulfjack/bazel | third_party/py/mock/tests/_testwith.py | 109 | 6077 | # Copyright (C) 2007-2012 Michael Foord & the mock team
# E-mail: fuzzyman AT voidspace DOT org DOT uk
# http://www.voidspace.org.uk/python/mock/
from __future__ import with_statement
from tests.support import unittest2, is_instance
from mock import MagicMock, Mock, patch, sentinel, mock_open, call
from tests.support_with import catch_warnings, nested
something = sentinel.Something
something_else = sentinel.SomethingElse
class WithTest(unittest2.TestCase):
def test_with_statement(self):
with patch('tests._testwith.something', sentinel.Something2):
self.assertEqual(something, sentinel.Something2, "unpatched")
self.assertEqual(something, sentinel.Something)
def test_with_statement_exception(self):
try:
with patch('tests._testwith.something', sentinel.Something2):
self.assertEqual(something, sentinel.Something2, "unpatched")
raise Exception('pow')
except Exception:
pass
else:
self.fail("patch swallowed exception")
self.assertEqual(something, sentinel.Something)
def test_with_statement_as(self):
with patch('tests._testwith.something') as mock_something:
self.assertEqual(something, mock_something, "unpatched")
self.assertTrue(is_instance(mock_something, MagicMock),
"patching wrong type")
self.assertEqual(something, sentinel.Something)
def test_patch_object_with_statement(self):
class Foo(object):
something = 'foo'
original = Foo.something
with patch.object(Foo, 'something'):
self.assertNotEqual(Foo.something, original, "unpatched")
self.assertEqual(Foo.something, original)
def test_with_statement_nested(self):
with catch_warnings(record=True):
# nested is deprecated in Python 2.7
with nested(patch('tests._testwith.something'),
patch('tests._testwith.something_else')) as (mock_something, mock_something_else):
self.assertEqual(something, mock_something, "unpatched")
self.assertEqual(something_else, mock_something_else,
"unpatched")
self.assertEqual(something, sentinel.Something)
self.assertEqual(something_else, sentinel.SomethingElse)
def test_with_statement_specified(self):
with patch('tests._testwith.something', sentinel.Patched) as mock_something:
self.assertEqual(something, mock_something, "unpatched")
self.assertEqual(mock_something, sentinel.Patched, "wrong patch")
self.assertEqual(something, sentinel.Something)
def testContextManagerMocking(self):
mock = Mock()
mock.__enter__ = Mock()
mock.__exit__ = Mock()
mock.__exit__.return_value = False
with mock as m:
self.assertEqual(m, mock.__enter__.return_value)
mock.__enter__.assert_called_with()
mock.__exit__.assert_called_with(None, None, None)
def test_context_manager_with_magic_mock(self):
mock = MagicMock()
with self.assertRaises(TypeError):
with mock:
'foo' + 3
mock.__enter__.assert_called_with()
self.assertTrue(mock.__exit__.called)
def test_with_statement_same_attribute(self):
with patch('tests._testwith.something', sentinel.Patched) as mock_something:
self.assertEqual(something, mock_something, "unpatched")
with patch('tests._testwith.something') as mock_again:
self.assertEqual(something, mock_again, "unpatched")
self.assertEqual(something, mock_something,
"restored with wrong instance")
self.assertEqual(something, sentinel.Something, "not restored")
def test_with_statement_imbricated(self):
with patch('tests._testwith.something') as mock_something:
self.assertEqual(something, mock_something, "unpatched")
with patch('tests._testwith.something_else') as mock_something_else:
self.assertEqual(something_else, mock_something_else,
"unpatched")
self.assertEqual(something, sentinel.Something)
self.assertEqual(something_else, sentinel.SomethingElse)
def test_dict_context_manager(self):
foo = {}
with patch.dict(foo, {'a': 'b'}):
self.assertEqual(foo, {'a': 'b'})
self.assertEqual(foo, {})
with self.assertRaises(NameError):
with patch.dict(foo, {'a': 'b'}):
self.assertEqual(foo, {'a': 'b'})
raise NameError('Konrad')
self.assertEqual(foo, {})
class TestMockOpen(unittest2.TestCase):
def test_mock_open(self):
mock = mock_open()
with patch('%s.open' % __name__, mock, create=True) as patched:
self.assertIs(patched, mock)
open('foo')
mock.assert_called_once_with('foo')
def test_mock_open_context_manager(self):
mock = mock_open()
handle = mock.return_value
with patch('%s.open' % __name__, mock, create=True):
with open('foo') as f:
f.read()
expected_calls = [call('foo'), call().__enter__(), call().read(),
call().__exit__(None, None, None)]
self.assertEqual(mock.mock_calls, expected_calls)
self.assertIs(f, handle)
def test_explicit_mock(self):
mock = MagicMock()
mock_open(mock)
with patch('%s.open' % __name__, mock, create=True) as patched:
self.assertIs(patched, mock)
open('foo')
mock.assert_called_once_with('foo')
def test_read_data(self):
mock = mock_open(read_data='foo')
with patch('%s.open' % __name__, mock, create=True):
h = open('bar')
result = h.read()
self.assertEqual(result, 'foo')
if __name__ == '__main__':
unittest2.main()
| apache-2.0 |
ikargis/horizon_fod | openstack_dashboard/openstack/common/network_utils.py | 19 | 2207 | # vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright 2012 OpenStack Foundation.
# All Rights Reserved.
#
# Licensed 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.
"""
Network-related utilities and helper functions.
"""
from openstack_dashboard.openstack.common import log as logging
LOG = logging.getLogger(__name__)
def parse_host_port(address, default_port=None):
"""
Interpret a string as a host:port pair.
An IPv6 address MUST be escaped if accompanied by a port,
because otherwise ambiguity ensues: 2001:db8:85a3::8a2e:370:7334
means both [2001:db8:85a3::8a2e:370:7334] and
[2001:db8:85a3::8a2e:370]:7334.
>>> parse_host_port('server01:80')
('server01', 80)
>>> parse_host_port('server01')
('server01', None)
>>> parse_host_port('server01', default_port=1234)
('server01', 1234)
>>> parse_host_port('[::1]:80')
('::1', 80)
>>> parse_host_port('[::1]')
('::1', None)
>>> parse_host_port('[::1]', default_port=1234)
('::1', 1234)
>>> parse_host_port('2001:db8:85a3::8a2e:370:7334', default_port=1234)
('2001:db8:85a3::8a2e:370:7334', 1234)
"""
if address[0] == '[':
# Escaped ipv6
_host, _port = address[1:].split(']')
host = _host
if ':' in _port:
port = _port.split(':')[1]
else:
port = default_port
else:
if address.count(':') == 1:
host, port = address.split(':')
else:
# 0 means ipv4, >1 means ipv6.
# We prohibit unescaped ipv6 addresses with port.
host = address
port = default_port
return (host, None if port is None else int(port))
| apache-2.0 |
metaml/nupic | external/linux32/lib/python2.6/site-packages/matplotlib/colors.py | 69 | 31676 | """
A module for converting numbers or color arguments to *RGB* or *RGBA*
*RGB* and *RGBA* are sequences of, respectively, 3 or 4 floats in the
range 0-1.
This module includes functions and classes for color specification
conversions, and for mapping numbers to colors in a 1-D array of
colors called a colormap. Colormapping typically involves two steps:
a data array is first mapped onto the range 0-1 using an instance
of :class:`Normalize` or of a subclass; then this number in the 0-1
range is mapped to a color using an instance of a subclass of
:class:`Colormap`. Two are provided here:
:class:`LinearSegmentedColormap`, which is used to generate all
the built-in colormap instances, but is also useful for making
custom colormaps, and :class:`ListedColormap`, which is used for
generating a custom colormap from a list of color specifications.
The module also provides a single instance, *colorConverter*, of the
:class:`ColorConverter` class providing methods for converting single
color specifications or sequences of them to *RGB* or *RGBA*.
Commands which take color arguments can use several formats to specify
the colors. For the basic builtin colors, you can use a single letter
- b : blue
- g : green
- r : red
- c : cyan
- m : magenta
- y : yellow
- k : black
- w : white
Gray shades can be given as a string encoding a float in the 0-1
range, e.g.::
color = '0.75'
For a greater range of colors, you have two options. You can specify
the color using an html hex string, as in::
color = '#eeefff'
or you can pass an *R* , *G* , *B* tuple, where each of *R* , *G* , *B*
are in the range [0,1].
Finally, legal html names for colors, like 'red', 'burlywood' and
'chartreuse' are supported.
"""
import re
import numpy as np
from numpy import ma
import matplotlib.cbook as cbook
parts = np.__version__.split('.')
NP_MAJOR, NP_MINOR = map(int, parts[:2])
# true if clip supports the out kwarg
NP_CLIP_OUT = NP_MAJOR>=1 and NP_MINOR>=2
cnames = {
'aliceblue' : '#F0F8FF',
'antiquewhite' : '#FAEBD7',
'aqua' : '#00FFFF',
'aquamarine' : '#7FFFD4',
'azure' : '#F0FFFF',
'beige' : '#F5F5DC',
'bisque' : '#FFE4C4',
'black' : '#000000',
'blanchedalmond' : '#FFEBCD',
'blue' : '#0000FF',
'blueviolet' : '#8A2BE2',
'brown' : '#A52A2A',
'burlywood' : '#DEB887',
'cadetblue' : '#5F9EA0',
'chartreuse' : '#7FFF00',
'chocolate' : '#D2691E',
'coral' : '#FF7F50',
'cornflowerblue' : '#6495ED',
'cornsilk' : '#FFF8DC',
'crimson' : '#DC143C',
'cyan' : '#00FFFF',
'darkblue' : '#00008B',
'darkcyan' : '#008B8B',
'darkgoldenrod' : '#B8860B',
'darkgray' : '#A9A9A9',
'darkgreen' : '#006400',
'darkkhaki' : '#BDB76B',
'darkmagenta' : '#8B008B',
'darkolivegreen' : '#556B2F',
'darkorange' : '#FF8C00',
'darkorchid' : '#9932CC',
'darkred' : '#8B0000',
'darksalmon' : '#E9967A',
'darkseagreen' : '#8FBC8F',
'darkslateblue' : '#483D8B',
'darkslategray' : '#2F4F4F',
'darkturquoise' : '#00CED1',
'darkviolet' : '#9400D3',
'deeppink' : '#FF1493',
'deepskyblue' : '#00BFFF',
'dimgray' : '#696969',
'dodgerblue' : '#1E90FF',
'firebrick' : '#B22222',
'floralwhite' : '#FFFAF0',
'forestgreen' : '#228B22',
'fuchsia' : '#FF00FF',
'gainsboro' : '#DCDCDC',
'ghostwhite' : '#F8F8FF',
'gold' : '#FFD700',
'goldenrod' : '#DAA520',
'gray' : '#808080',
'green' : '#008000',
'greenyellow' : '#ADFF2F',
'honeydew' : '#F0FFF0',
'hotpink' : '#FF69B4',
'indianred' : '#CD5C5C',
'indigo' : '#4B0082',
'ivory' : '#FFFFF0',
'khaki' : '#F0E68C',
'lavender' : '#E6E6FA',
'lavenderblush' : '#FFF0F5',
'lawngreen' : '#7CFC00',
'lemonchiffon' : '#FFFACD',
'lightblue' : '#ADD8E6',
'lightcoral' : '#F08080',
'lightcyan' : '#E0FFFF',
'lightgoldenrodyellow' : '#FAFAD2',
'lightgreen' : '#90EE90',
'lightgrey' : '#D3D3D3',
'lightpink' : '#FFB6C1',
'lightsalmon' : '#FFA07A',
'lightseagreen' : '#20B2AA',
'lightskyblue' : '#87CEFA',
'lightslategray' : '#778899',
'lightsteelblue' : '#B0C4DE',
'lightyellow' : '#FFFFE0',
'lime' : '#00FF00',
'limegreen' : '#32CD32',
'linen' : '#FAF0E6',
'magenta' : '#FF00FF',
'maroon' : '#800000',
'mediumaquamarine' : '#66CDAA',
'mediumblue' : '#0000CD',
'mediumorchid' : '#BA55D3',
'mediumpurple' : '#9370DB',
'mediumseagreen' : '#3CB371',
'mediumslateblue' : '#7B68EE',
'mediumspringgreen' : '#00FA9A',
'mediumturquoise' : '#48D1CC',
'mediumvioletred' : '#C71585',
'midnightblue' : '#191970',
'mintcream' : '#F5FFFA',
'mistyrose' : '#FFE4E1',
'moccasin' : '#FFE4B5',
'navajowhite' : '#FFDEAD',
'navy' : '#000080',
'oldlace' : '#FDF5E6',
'olive' : '#808000',
'olivedrab' : '#6B8E23',
'orange' : '#FFA500',
'orangered' : '#FF4500',
'orchid' : '#DA70D6',
'palegoldenrod' : '#EEE8AA',
'palegreen' : '#98FB98',
'palevioletred' : '#AFEEEE',
'papayawhip' : '#FFEFD5',
'peachpuff' : '#FFDAB9',
'peru' : '#CD853F',
'pink' : '#FFC0CB',
'plum' : '#DDA0DD',
'powderblue' : '#B0E0E6',
'purple' : '#800080',
'red' : '#FF0000',
'rosybrown' : '#BC8F8F',
'royalblue' : '#4169E1',
'saddlebrown' : '#8B4513',
'salmon' : '#FA8072',
'sandybrown' : '#FAA460',
'seagreen' : '#2E8B57',
'seashell' : '#FFF5EE',
'sienna' : '#A0522D',
'silver' : '#C0C0C0',
'skyblue' : '#87CEEB',
'slateblue' : '#6A5ACD',
'slategray' : '#708090',
'snow' : '#FFFAFA',
'springgreen' : '#00FF7F',
'steelblue' : '#4682B4',
'tan' : '#D2B48C',
'teal' : '#008080',
'thistle' : '#D8BFD8',
'tomato' : '#FF6347',
'turquoise' : '#40E0D0',
'violet' : '#EE82EE',
'wheat' : '#F5DEB3',
'white' : '#FFFFFF',
'whitesmoke' : '#F5F5F5',
'yellow' : '#FFFF00',
'yellowgreen' : '#9ACD32',
}
# add british equivs
for k, v in cnames.items():
if k.find('gray')>=0:
k = k.replace('gray', 'grey')
cnames[k] = v
def is_color_like(c):
'Return *True* if *c* can be converted to *RGB*'
try:
colorConverter.to_rgb(c)
return True
except ValueError:
return False
def rgb2hex(rgb):
'Given a len 3 rgb tuple of 0-1 floats, return the hex string'
return '#%02x%02x%02x' % tuple([round(val*255) for val in rgb])
hexColorPattern = re.compile("\A#[a-fA-F0-9]{6}\Z")
def hex2color(s):
"""
Take a hex string *s* and return the corresponding rgb 3-tuple
Example: #efefef -> (0.93725, 0.93725, 0.93725)
"""
if not isinstance(s, basestring):
raise TypeError('hex2color requires a string argument')
if hexColorPattern.match(s) is None:
raise ValueError('invalid hex color string "%s"' % s)
return tuple([int(n, 16)/255.0 for n in (s[1:3], s[3:5], s[5:7])])
class ColorConverter:
"""
Provides methods for converting color specifications to *RGB* or *RGBA*
Caching is used for more efficient conversion upon repeated calls
with the same argument.
Ordinarily only the single instance instantiated in this module,
*colorConverter*, is needed.
"""
colors = {
'b' : (0.0, 0.0, 1.0),
'g' : (0.0, 0.5, 0.0),
'r' : (1.0, 0.0, 0.0),
'c' : (0.0, 0.75, 0.75),
'm' : (0.75, 0, 0.75),
'y' : (0.75, 0.75, 0),
'k' : (0.0, 0.0, 0.0),
'w' : (1.0, 1.0, 1.0),
}
cache = {}
def to_rgb(self, arg):
"""
Returns an *RGB* tuple of three floats from 0-1.
*arg* can be an *RGB* or *RGBA* sequence or a string in any of
several forms:
1) a letter from the set 'rgbcmykw'
2) a hex color string, like '#00FFFF'
3) a standard name, like 'aqua'
4) a float, like '0.4', indicating gray on a 0-1 scale
if *arg* is *RGBA*, the *A* will simply be discarded.
"""
try: return self.cache[arg]
except KeyError: pass
except TypeError: # could be unhashable rgb seq
arg = tuple(arg)
try: return self.cache[arg]
except KeyError: pass
except TypeError:
raise ValueError(
'to_rgb: arg "%s" is unhashable even inside a tuple'
% (str(arg),))
try:
if cbook.is_string_like(arg):
color = self.colors.get(arg, None)
if color is None:
str1 = cnames.get(arg, arg)
if str1.startswith('#'):
color = hex2color(str1)
else:
fl = float(arg)
if fl < 0 or fl > 1:
raise ValueError(
'gray (string) must be in range 0-1')
color = tuple([fl]*3)
elif cbook.iterable(arg):
if len(arg) > 4 or len(arg) < 3:
raise ValueError(
'sequence length is %d; must be 3 or 4'%len(arg))
color = tuple(arg[:3])
if [x for x in color if (float(x) < 0) or (x > 1)]:
# This will raise TypeError if x is not a number.
raise ValueError('number in rbg sequence outside 0-1 range')
else:
raise ValueError('cannot convert argument to rgb sequence')
self.cache[arg] = color
except (KeyError, ValueError, TypeError), exc:
raise ValueError('to_rgb: Invalid rgb arg "%s"\n%s' % (str(arg), exc))
# Error messages could be improved by handling TypeError
# separately; but this should be rare and not too hard
# for the user to figure out as-is.
return color
def to_rgba(self, arg, alpha=None):
"""
Returns an *RGBA* tuple of four floats from 0-1.
For acceptable values of *arg*, see :meth:`to_rgb`.
If *arg* is an *RGBA* sequence and *alpha* is not *None*,
*alpha* will replace the original *A*.
"""
try:
if not cbook.is_string_like(arg) and cbook.iterable(arg):
if len(arg) == 4:
if [x for x in arg if (float(x) < 0) or (x > 1)]:
# This will raise TypeError if x is not a number.
raise ValueError('number in rbga sequence outside 0-1 range')
if alpha is None:
return tuple(arg)
if alpha < 0.0 or alpha > 1.0:
raise ValueError("alpha must be in range 0-1")
return arg[0], arg[1], arg[2], arg[3] * alpha
r,g,b = arg[:3]
if [x for x in (r,g,b) if (float(x) < 0) or (x > 1)]:
raise ValueError('number in rbg sequence outside 0-1 range')
else:
r,g,b = self.to_rgb(arg)
if alpha is None:
alpha = 1.0
return r,g,b,alpha
except (TypeError, ValueError), exc:
raise ValueError('to_rgba: Invalid rgba arg "%s"\n%s' % (str(arg), exc))
def to_rgba_array(self, c, alpha=None):
"""
Returns a numpy array of *RGBA* tuples.
Accepts a single mpl color spec or a sequence of specs.
Special case to handle "no color": if *c* is "none" (case-insensitive),
then an empty array will be returned. Same for an empty list.
"""
try:
if c.lower() == 'none':
return np.zeros((0,4), dtype=np.float_)
except AttributeError:
pass
if len(c) == 0:
return np.zeros((0,4), dtype=np.float_)
try:
result = np.array([self.to_rgba(c, alpha)], dtype=np.float_)
except ValueError:
if isinstance(c, np.ndarray):
if c.ndim != 2 and c.dtype.kind not in 'SU':
raise ValueError("Color array must be two-dimensional")
result = np.zeros((len(c), 4))
for i, cc in enumerate(c):
result[i] = self.to_rgba(cc, alpha) # change in place
return np.asarray(result, np.float_)
colorConverter = ColorConverter()
def makeMappingArray(N, data):
"""Create an *N* -element 1-d lookup table
*data* represented by a list of x,y0,y1 mapping correspondences.
Each element in this list represents how a value between 0 and 1
(inclusive) represented by x is mapped to a corresponding value
between 0 and 1 (inclusive). The two values of y are to allow
for discontinuous mapping functions (say as might be found in a
sawtooth) where y0 represents the value of y for values of x
<= to that given, and y1 is the value to be used for x > than
that given). The list must start with x=0, end with x=1, and
all values of x must be in increasing order. Values between
the given mapping points are determined by simple linear interpolation.
The function returns an array "result" where ``result[x*(N-1)]``
gives the closest value for values of x between 0 and 1.
"""
try:
adata = np.array(data)
except:
raise TypeError("data must be convertable to an array")
shape = adata.shape
if len(shape) != 2 and shape[1] != 3:
raise ValueError("data must be nx3 format")
x = adata[:,0]
y0 = adata[:,1]
y1 = adata[:,2]
if x[0] != 0. or x[-1] != 1.0:
raise ValueError(
"data mapping points must start with x=0. and end with x=1")
if np.sometrue(np.sort(x)-x):
raise ValueError(
"data mapping points must have x in increasing order")
# begin generation of lookup table
x = x * (N-1)
lut = np.zeros((N,), np.float)
xind = np.arange(float(N))
ind = np.searchsorted(x, xind)[1:-1]
lut[1:-1] = ( ((xind[1:-1] - x[ind-1]) / (x[ind] - x[ind-1]))
* (y0[ind] - y1[ind-1]) + y1[ind-1])
lut[0] = y1[0]
lut[-1] = y0[-1]
# ensure that the lut is confined to values between 0 and 1 by clipping it
np.clip(lut, 0.0, 1.0)
#lut = where(lut > 1., 1., lut)
#lut = where(lut < 0., 0., lut)
return lut
class Colormap:
"""Base class for all scalar to rgb mappings
Important methods:
* :meth:`set_bad`
* :meth:`set_under`
* :meth:`set_over`
"""
def __init__(self, name, N=256):
"""
Public class attributes:
:attr:`N` : number of rgb quantization levels
:attr:`name` : name of colormap
"""
self.name = name
self.N = N
self._rgba_bad = (0.0, 0.0, 0.0, 0.0) # If bad, don't paint anything.
self._rgba_under = None
self._rgba_over = None
self._i_under = N
self._i_over = N+1
self._i_bad = N+2
self._isinit = False
def __call__(self, X, alpha=1.0, bytes=False):
"""
*X* is either a scalar or an array (of any dimension).
If scalar, a tuple of rgba values is returned, otherwise
an array with the new shape = oldshape+(4,). If the X-values
are integers, then they are used as indices into the array.
If they are floating point, then they must be in the
interval (0.0, 1.0).
Alpha must be a scalar.
If bytes is False, the rgba values will be floats on a
0-1 scale; if True, they will be uint8, 0-255.
"""
if not self._isinit: self._init()
alpha = min(alpha, 1.0) # alpha must be between 0 and 1
alpha = max(alpha, 0.0)
self._lut[:-3, -1] = alpha
mask_bad = None
if not cbook.iterable(X):
vtype = 'scalar'
xa = np.array([X])
else:
vtype = 'array'
xma = ma.asarray(X)
xa = xma.filled(0)
mask_bad = ma.getmask(xma)
if xa.dtype.char in np.typecodes['Float']:
np.putmask(xa, xa==1.0, 0.9999999) #Treat 1.0 as slightly less than 1.
# The following clip is fast, and prevents possible
# conversion of large positive values to negative integers.
if NP_CLIP_OUT:
np.clip(xa * self.N, -1, self.N, out=xa)
else:
xa = np.clip(xa * self.N, -1, self.N)
xa = xa.astype(int)
# Set the over-range indices before the under-range;
# otherwise the under-range values get converted to over-range.
np.putmask(xa, xa>self.N-1, self._i_over)
np.putmask(xa, xa<0, self._i_under)
if mask_bad is not None and mask_bad.shape == xa.shape:
np.putmask(xa, mask_bad, self._i_bad)
if bytes:
lut = (self._lut * 255).astype(np.uint8)
else:
lut = self._lut
rgba = np.empty(shape=xa.shape+(4,), dtype=lut.dtype)
lut.take(xa, axis=0, mode='clip', out=rgba)
# twice as fast as lut[xa];
# using the clip or wrap mode and providing an
# output array speeds it up a little more.
if vtype == 'scalar':
rgba = tuple(rgba[0,:])
return rgba
def set_bad(self, color = 'k', alpha = 1.0):
'''Set color to be used for masked values.
'''
self._rgba_bad = colorConverter.to_rgba(color, alpha)
if self._isinit: self._set_extremes()
def set_under(self, color = 'k', alpha = 1.0):
'''Set color to be used for low out-of-range values.
Requires norm.clip = False
'''
self._rgba_under = colorConverter.to_rgba(color, alpha)
if self._isinit: self._set_extremes()
def set_over(self, color = 'k', alpha = 1.0):
'''Set color to be used for high out-of-range values.
Requires norm.clip = False
'''
self._rgba_over = colorConverter.to_rgba(color, alpha)
if self._isinit: self._set_extremes()
def _set_extremes(self):
if self._rgba_under:
self._lut[self._i_under] = self._rgba_under
else:
self._lut[self._i_under] = self._lut[0]
if self._rgba_over:
self._lut[self._i_over] = self._rgba_over
else:
self._lut[self._i_over] = self._lut[self.N-1]
self._lut[self._i_bad] = self._rgba_bad
def _init():
'''Generate the lookup table, self._lut'''
raise NotImplementedError("Abstract class only")
def is_gray(self):
if not self._isinit: self._init()
return (np.alltrue(self._lut[:,0] == self._lut[:,1])
and np.alltrue(self._lut[:,0] == self._lut[:,2]))
class LinearSegmentedColormap(Colormap):
"""Colormap objects based on lookup tables using linear segments.
The lookup table is generated using linear interpolation for each
primary color, with the 0-1 domain divided into any number of
segments.
"""
def __init__(self, name, segmentdata, N=256):
"""Create color map from linear mapping segments
segmentdata argument is a dictionary with a red, green and blue
entries. Each entry should be a list of *x*, *y0*, *y1* tuples,
forming rows in a table.
Example: suppose you want red to increase from 0 to 1 over
the bottom half, green to do the same over the middle half,
and blue over the top half. Then you would use::
cdict = {'red': [(0.0, 0.0, 0.0),
(0.5, 1.0, 1.0),
(1.0, 1.0, 1.0)],
'green': [(0.0, 0.0, 0.0),
(0.25, 0.0, 0.0),
(0.75, 1.0, 1.0),
(1.0, 1.0, 1.0)],
'blue': [(0.0, 0.0, 0.0),
(0.5, 0.0, 0.0),
(1.0, 1.0, 1.0)]}
Each row in the table for a given color is a sequence of
*x*, *y0*, *y1* tuples. In each sequence, *x* must increase
monotonically from 0 to 1. For any input value *z* falling
between *x[i]* and *x[i+1]*, the output value of a given color
will be linearly interpolated between *y1[i]* and *y0[i+1]*::
row i: x y0 y1
/
/
row i+1: x y0 y1
Hence y0 in the first row and y1 in the last row are never used.
.. seealso::
:func:`makeMappingArray`
"""
self.monochrome = False # True only if all colors in map are identical;
# needed for contouring.
Colormap.__init__(self, name, N)
self._segmentdata = segmentdata
def _init(self):
self._lut = np.ones((self.N + 3, 4), np.float)
self._lut[:-3, 0] = makeMappingArray(self.N, self._segmentdata['red'])
self._lut[:-3, 1] = makeMappingArray(self.N, self._segmentdata['green'])
self._lut[:-3, 2] = makeMappingArray(self.N, self._segmentdata['blue'])
self._isinit = True
self._set_extremes()
class ListedColormap(Colormap):
"""Colormap object generated from a list of colors.
This may be most useful when indexing directly into a colormap,
but it can also be used to generate special colormaps for ordinary
mapping.
"""
def __init__(self, colors, name = 'from_list', N = None):
"""
Make a colormap from a list of colors.
*colors*
a list of matplotlib color specifications,
or an equivalent Nx3 floating point array (*N* rgb values)
*name*
a string to identify the colormap
*N*
the number of entries in the map. The default is *None*,
in which case there is one colormap entry for each
element in the list of colors. If::
N < len(colors)
the list will be truncated at *N*. If::
N > len(colors)
the list will be extended by repetition.
"""
self.colors = colors
self.monochrome = False # True only if all colors in map are identical;
# needed for contouring.
if N is None:
N = len(self.colors)
else:
if cbook.is_string_like(self.colors):
self.colors = [self.colors] * N
self.monochrome = True
elif cbook.iterable(self.colors):
self.colors = list(self.colors) # in case it was a tuple
if len(self.colors) == 1:
self.monochrome = True
if len(self.colors) < N:
self.colors = list(self.colors) * N
del(self.colors[N:])
else:
try: gray = float(self.colors)
except TypeError: pass
else: self.colors = [gray] * N
self.monochrome = True
Colormap.__init__(self, name, N)
def _init(self):
rgb = np.array([colorConverter.to_rgb(c)
for c in self.colors], np.float)
self._lut = np.zeros((self.N + 3, 4), np.float)
self._lut[:-3, :-1] = rgb
self._lut[:-3, -1] = 1
self._isinit = True
self._set_extremes()
class Normalize:
"""
Normalize a given value to the 0-1 range
"""
def __init__(self, vmin=None, vmax=None, clip=False):
"""
If *vmin* or *vmax* is not given, they are taken from the input's
minimum and maximum value respectively. If *clip* is *True* and
the given value falls outside the range, the returned value
will be 0 or 1, whichever is closer. Returns 0 if::
vmin==vmax
Works with scalars or arrays, including masked arrays. If
*clip* is *True*, masked values are set to 1; otherwise they
remain masked. Clipping silently defeats the purpose of setting
the over, under, and masked colors in the colormap, so it is
likely to lead to surprises; therefore the default is
*clip* = *False*.
"""
self.vmin = vmin
self.vmax = vmax
self.clip = clip
def __call__(self, value, clip=None):
if clip is None:
clip = self.clip
if cbook.iterable(value):
vtype = 'array'
val = ma.asarray(value).astype(np.float)
else:
vtype = 'scalar'
val = ma.array([value]).astype(np.float)
self.autoscale_None(val)
vmin, vmax = self.vmin, self.vmax
if vmin > vmax:
raise ValueError("minvalue must be less than or equal to maxvalue")
elif vmin==vmax:
return 0.0 * val
else:
if clip:
mask = ma.getmask(val)
val = ma.array(np.clip(val.filled(vmax), vmin, vmax),
mask=mask)
result = (val-vmin) * (1.0/(vmax-vmin))
if vtype == 'scalar':
result = result[0]
return result
def inverse(self, value):
if not self.scaled():
raise ValueError("Not invertible until scaled")
vmin, vmax = self.vmin, self.vmax
if cbook.iterable(value):
val = ma.asarray(value)
return vmin + val * (vmax - vmin)
else:
return vmin + value * (vmax - vmin)
def autoscale(self, A):
'''
Set *vmin*, *vmax* to min, max of *A*.
'''
self.vmin = ma.minimum(A)
self.vmax = ma.maximum(A)
def autoscale_None(self, A):
' autoscale only None-valued vmin or vmax'
if self.vmin is None: self.vmin = ma.minimum(A)
if self.vmax is None: self.vmax = ma.maximum(A)
def scaled(self):
'return true if vmin and vmax set'
return (self.vmin is not None and self.vmax is not None)
class LogNorm(Normalize):
"""
Normalize a given value to the 0-1 range on a log scale
"""
def __call__(self, value, clip=None):
if clip is None:
clip = self.clip
if cbook.iterable(value):
vtype = 'array'
val = ma.asarray(value).astype(np.float)
else:
vtype = 'scalar'
val = ma.array([value]).astype(np.float)
self.autoscale_None(val)
vmin, vmax = self.vmin, self.vmax
if vmin > vmax:
raise ValueError("minvalue must be less than or equal to maxvalue")
elif vmin<=0:
raise ValueError("values must all be positive")
elif vmin==vmax:
return 0.0 * val
else:
if clip:
mask = ma.getmask(val)
val = ma.array(np.clip(val.filled(vmax), vmin, vmax),
mask=mask)
result = (ma.log(val)-np.log(vmin))/(np.log(vmax)-np.log(vmin))
if vtype == 'scalar':
result = result[0]
return result
def inverse(self, value):
if not self.scaled():
raise ValueError("Not invertible until scaled")
vmin, vmax = self.vmin, self.vmax
if cbook.iterable(value):
val = ma.asarray(value)
return vmin * ma.power((vmax/vmin), val)
else:
return vmin * pow((vmax/vmin), value)
class BoundaryNorm(Normalize):
'''
Generate a colormap index based on discrete intervals.
Unlike :class:`Normalize` or :class:`LogNorm`,
:class:`BoundaryNorm` maps values to integers instead of to the
interval 0-1.
Mapping to the 0-1 interval could have been done via
piece-wise linear interpolation, but using integers seems
simpler, and reduces the number of conversions back and forth
between integer and floating point.
'''
def __init__(self, boundaries, ncolors, clip=False):
'''
*boundaries*
a monotonically increasing sequence
*ncolors*
number of colors in the colormap to be used
If::
b[i] <= v < b[i+1]
then v is mapped to color j;
as i varies from 0 to len(boundaries)-2,
j goes from 0 to ncolors-1.
Out-of-range values are mapped to -1 if low and ncolors
if high; these are converted to valid indices by
:meth:`Colormap.__call__` .
'''
self.clip = clip
self.vmin = boundaries[0]
self.vmax = boundaries[-1]
self.boundaries = np.asarray(boundaries)
self.N = len(self.boundaries)
self.Ncmap = ncolors
if self.N-1 == self.Ncmap:
self._interp = False
else:
self._interp = True
def __call__(self, x, clip=None):
if clip is None:
clip = self.clip
x = ma.asarray(x)
mask = ma.getmaskarray(x)
xx = x.filled(self.vmax+1)
if clip:
np.clip(xx, self.vmin, self.vmax)
iret = np.zeros(x.shape, dtype=np.int16)
for i, b in enumerate(self.boundaries):
iret[xx>=b] = i
if self._interp:
iret = (iret * (float(self.Ncmap-1)/(self.N-2))).astype(np.int16)
iret[xx<self.vmin] = -1
iret[xx>=self.vmax] = self.Ncmap
ret = ma.array(iret, mask=mask)
if ret.shape == () and not mask:
ret = int(ret) # assume python scalar
return ret
def inverse(self, value):
return ValueError("BoundaryNorm is not invertible")
class NoNorm(Normalize):
'''
Dummy replacement for Normalize, for the case where we
want to use indices directly in a
:class:`~matplotlib.cm.ScalarMappable` .
'''
def __call__(self, value, clip=None):
return value
def inverse(self, value):
return value
# compatibility with earlier class names that violated convention:
normalize = Normalize
no_norm = NoNorm
| agpl-3.0 |
Kast0rTr0y/ansible | test/sanity/validate-modules/utils.py | 33 | 3443 | # -*- coding: utf-8 -*-
#
# Copyright (C) 2015 Matt Martz <matt@sivel.net>
# Copyright (C) 2015 Rackspace US, Inc.
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import ast
import sys
# We only use StringIO, since we cannot setattr on cStringIO
from StringIO import StringIO
import yaml
import yaml.reader
def find_globals(g, tree):
"""Uses AST to find globals in an ast tree"""
for child in tree:
if hasattr(child, 'body') and isinstance(child.body, list):
find_globals(g, child.body)
elif isinstance(child, (ast.FunctionDef, ast.ClassDef)):
g.add(child.name)
continue
elif isinstance(child, ast.Assign):
try:
g.add(child.targets[0].id)
except (IndexError, AttributeError):
pass
elif isinstance(child, ast.Import):
g.add(child.names[0].name)
elif isinstance(child, ast.ImportFrom):
for name in child.names:
g_name = name.asname or name.name
if g_name == '*':
continue
g.add(g_name)
class CaptureStd():
"""Context manager to handle capturing stderr and stdout"""
def __enter__(self):
self.sys_stdout = sys.stdout
self.sys_stderr = sys.stderr
sys.stdout = self.stdout = StringIO()
sys.stderr = self.stderr = StringIO()
setattr(sys.stdout, 'encoding', self.sys_stdout.encoding)
setattr(sys.stderr, 'encoding', self.sys_stderr.encoding)
return self
def __exit__(self, exc_type, exc_value, traceback):
sys.stdout = self.sys_stdout
sys.stderr = self.sys_stderr
def get(self):
"""Return ``(stdout, stderr)``"""
return self.stdout.getvalue(), self.stderr.getvalue()
def parse_yaml(value, lineno, module, name, load_all=False):
traces = []
errors = []
data = None
if load_all:
loader = yaml.safe_load_all
else:
loader = yaml.safe_load
try:
data = loader(value)
if load_all:
data = list(data)
except yaml.MarkedYAMLError as e:
e.problem_mark.line += lineno - 1
e.problem_mark.name = '%s.%s' % (module, name)
errors.append('%s is not valid YAML. Line %d column %d' %
(name, e.problem_mark.line + 1,
e.problem_mark.column + 1))
traces.append(e)
except yaml.reader.ReaderError as e:
traces.append(e)
errors.append('%s is not valid YAML. Character '
'0x%x at position %d.' %
(name, e.character, e.position))
except yaml.YAMLError as e:
traces.append(e)
errors.append('%s is not valid YAML: %s: %s' % (name, type(e), e))
return data, errors, traces
| gpl-3.0 |
stackforge/tricircle | tricircle/tests/unit/network/test_central_sfc_plugin.py | 1 | 36327 | # Copyright 2017 Huawei Technologies Co., Ltd.
# All Rights Reserved
#
# Licensed 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 copy
from mock import patch
import six
import unittest
from networking_sfc.db import sfc_db
from networking_sfc.services.flowclassifier import plugin as fc_plugin
import neutron.conf.common as q_config
from neutron.db import db_base_plugin_v2
import neutron_lib.context as q_context
from neutron_lib.plugins import directory
from neutronclient.common import exceptions as client_exceptions
from oslo_config import cfg
from oslo_utils import uuidutils
from tricircle.common import client
from tricircle.common import constants
from tricircle.common import context
import tricircle.db.api as db_api
from tricircle.db import core
from tricircle.db import models
import tricircle.network.central_fc_driver as fc_driver
from tricircle.network import central_plugin
import tricircle.network.central_sfc_driver as sfc_driver
import tricircle.network.central_sfc_plugin as sfc_plugin
from tricircle.network import helper
import tricircle.tests.unit.utils as test_utils
from tricircle.xjob import xmanager
_resource_store = test_utils.get_resource_store()
TOP_PORTS = _resource_store.TOP_PORTS
TOP_PORTPAIRS = _resource_store.TOP_SFC_PORT_PAIRS
TOP_PORTPAIRGROUPS = _resource_store.TOP_SFC_PORT_PAIR_GROUPS
TOP_PORTCHAINS = _resource_store.TOP_SFC_PORT_CHAINS
TOP_FLOWCLASSIFIERS = _resource_store.TOP_SFC_FLOW_CLASSIFIERS
TOP_CHAIN_GROUP_ASSOCS = _resource_store.TOP_SFC_CHAIN_GROUP_ASSOCIATIONS
TOP_CHAIN_CLASSIFIER_ASSOCS = (
_resource_store.TOP_SFC_CHAIN_CLASSIFIER_ASSOCIATIONS)
BOTTOM1_PORTS = _resource_store.BOTTOM1_PORTS
BOTTOM2_PORTS = _resource_store.BOTTOM2_PORTS
BOTTOM1_PORTPAIRS = _resource_store.BOTTOM1_SFC_PORT_PAIRS
BOTTOM2_PORTPAIRS = _resource_store.BOTTOM2_SFC_PORT_PAIRS
BOTTOM1_PORTPAIRGROUPS = _resource_store.BOTTOM1_SFC_PORT_PAIR_GROUPS
BOTTOM2_PORTPAIRGROUPS = _resource_store.BOTTOM2_SFC_PORT_PAIR_GROUPS
BOTTOM1_PORTCHAINS = _resource_store.BOTTOM1_SFC_PORT_CHAINS
BOTTOM2_PORTCHAINS = _resource_store.BOTTOM2_SFC_PORT_CHAINS
BOTTOM1_FLOWCLASSIFIERS = _resource_store.BOTTOM1_SFC_FLOW_CLASSIFIERS
BOTTOM2_FLOWCLASSIFIERS = _resource_store.BOTTOM2_SFC_FLOW_CLASSIFIERS
TEST_TENANT_ID = test_utils.TEST_TENANT_ID
DotDict = test_utils.DotDict
class FakeNetworkHelper(helper.NetworkHelper):
def __init__(self):
super(FakeNetworkHelper, self).__init__()
def _get_client(self, region_name=None):
return FakeClient(region_name)
class FakeBaseXManager(xmanager.XManager):
def __init__(self):
self.clients = {constants.TOP: client.Client()}
self.helper = FakeNetworkHelper()
def _get_client(self, region_name=None):
return FakeClient(region_name)
def sync_service_function_chain(self, ctx, payload):
(b_pod_id, t_port_chain_id, net_id) = payload[
constants.JT_SFC_SYNC].split('#')
if b_pod_id == constants.POD_NOT_SPECIFIED:
mappings = db_api.get_bottom_mappings_by_top_id(
ctx, net_id, constants.RT_NETWORK)
b_pods = [mapping[0] for mapping in mappings]
for b_pod in b_pods:
payload = '%s#%s#%s' % (b_pod['pod_id'], t_port_chain_id,
net_id)
super(FakeBaseXManager, self).sync_service_function_chain(
ctx, {constants.JT_SFC_SYNC: payload})
else:
super(FakeBaseXManager, self).sync_service_function_chain(
ctx, payload)
class FakeXManager(FakeBaseXManager):
def __init__(self, fake_plugin):
super(FakeXManager, self).__init__()
self.xjob_handler = FakeBaseRPCAPI(fake_plugin)
class FakeBaseRPCAPI(object):
def __init__(self, fake_plugin):
self.xmanager = FakeBaseXManager()
def sync_service_function_chain(self, ctxt, project_id, portchain_id,
net_id, pod_id):
combine_id = '%s#%s#%s' % (pod_id, portchain_id, net_id)
self.xmanager.sync_service_function_chain(
ctxt,
payload={constants.JT_SFC_SYNC: combine_id})
def recycle_resources(self, ctx, project_id):
self.xmanager.recycle_resources(ctx, payload={
constants.JT_RESOURCE_RECYCLE: project_id})
class FakeRPCAPI(FakeBaseRPCAPI):
def __init__(self, fake_plugin):
self.xmanager = FakeXManager(fake_plugin)
class FakeClient(test_utils.FakeClient):
def delete_resources(self, _type, ctx, _id):
if _type == constants.RT_PORT_PAIR:
pp = self.get_resource(constants.RT_PORT_PAIR, ctx, _id)
if not pp:
raise client_exceptions.NotFound()
if pp['portpairgroup_id']:
raise client_exceptions.Conflict(constants.STR_IN_USE)
elif _type == constants.RT_FLOW_CLASSIFIER:
pc_list = self._res_map[self.region_name][constants.RT_PORT_CHAIN]
for pc in pc_list:
if _id in pc['flow_classifiers']:
raise client_exceptions.Conflict(constants.STR_IN_USE)
return super(FakeClient, self).delete_resources(_type, ctx, _id)
def create_resources(self, _type, ctx, body):
if _type == constants.RT_PORT_PAIR:
pp_list = self._res_map[self.region_name][constants.RT_PORT_PAIR]
for pp in pp_list:
if body[_type]['ingress'] == pp['ingress']:
raise client_exceptions.BadRequest(constants.STR_USED_BY)
elif _type == constants.RT_PORT_PAIR_GROUP:
ppg_list = self._res_map[self.region_name][
constants.RT_PORT_PAIR_GROUP]
for pp in body[_type]['port_pairs']:
for ppg in ppg_list:
if pp in ppg['port_pairs']:
raise client_exceptions.Conflict(constants.STR_IN_USE)
elif _type == constants.RT_FLOW_CLASSIFIER:
fc_list = self._res_map[self.region_name][
constants.RT_FLOW_CLASSIFIER]
for fc in fc_list:
if (body[_type]['logical_source_port'] ==
fc['logical_source_port']):
raise client_exceptions.BadRequest(
constants.STR_CONFLICTS_WITH)
elif _type == constants.RT_PORT_CHAIN:
pc_list = self._res_map[self.region_name][constants.RT_PORT_CHAIN]
for fc in body[_type]['flow_classifiers']:
for pc in pc_list:
if fc in pc['flow_classifiers']:
raise client_exceptions.Conflict(constants.STR_IN_USE)
return super(FakeClient, self).create_resources(_type, ctx, body)
def get_port_chains(self, ctx, portchain_id):
res = self.get_resource('port_chain', ctx, portchain_id)
return copy.copy(res) if res else res
def get_port_pair_groups(self, ctx, portpairgroup_id):
res = self.get_resource('port_pair_group', ctx, portpairgroup_id)
return copy.copy(res) if res else res
def get_flow_classifiers(self, ctx, flowclassifier_id):
res = self.get_resource('flow_classifier', ctx, flowclassifier_id)
return copy.copy(res) if res else res
def list_port_pairs(self, ctx, filters=None, _copy=True):
portpairs = self.list_resources('port_pair', ctx, filters)
portpairs_copy = [copy.copy(pp) for pp in portpairs]
return portpairs_copy if _copy else portpairs
def list_flow_classifiers(self, ctx, filters=None):
return self.list_resources('flow_classifier', ctx, filters)
def list_port_chains(self, ctx, filters=None):
return self.list_resources('port_chain', ctx, filters)
def list_port_pair_groups(self, ctx, filters=None):
return self.list_resources('port_pair_group', ctx, filters)
def update_port_pairs(self, ctx, portpair_id, body):
return self.update_resources('port_pair', ctx,
portpair_id, body)
def update_port_pair_groups(self, ctx, portpairgroup_id, body):
filters = [{'key': 'portpairgroup_id',
'comparator': 'eq',
'value': portpairgroup_id}]
pps = self.list_port_pairs(ctx, filters, False)
for pp in pps:
pp['portpairgroup_id'] = None
return self.update_resources('port_pair_group', ctx,
portpairgroup_id, body)
def update_flow_classifiers(self, ctx, flowclassifier_id, body):
return self.update_resources('flow_classifier', ctx,
flowclassifier_id, body)
def update_port_chains(self, ctx, portchain_id, body):
return self.update_resources('port_chain', ctx,
portchain_id, body)
def get_ports(self, ctx, port_id):
return self.get_resource('port', ctx, port_id)
def delete_port_chains(self, context, portchain_id):
pc = self.get_resource('port_chain', context, portchain_id)
if not pc:
raise client_exceptions.NotFound()
self.delete_resources('port_chain', context, portchain_id)
def delete_port_pairs(self, context, portpair_id):
pp = self.get_resource('port_pair', context, portpair_id)
if not pp:
raise client_exceptions.NotFound()
pp = self.get_resource('port_pair', context, portpair_id)
if pp and pp.get('portpairgroup_id'):
raise client_exceptions.Conflict("in use")
self.delete_resources('port_pair', context, portpair_id)
def delete_port_pair_groups(self, context, portpairgroup_id):
ppg = self.get_resource('port_pair_group', context, portpairgroup_id)
if not ppg:
raise client_exceptions.NotFound()
for pc in BOTTOM1_PORTCHAINS:
if portpairgroup_id in pc['port_pair_groups']:
raise client_exceptions.Conflict("in use")
self.delete_resources('port_pair_group', context, portpairgroup_id)
def delete_flow_classifiers(self, context, flowclassifier_id):
fc = self.get_resource('flow_classifier', context, flowclassifier_id)
if not fc:
raise client_exceptions.NotFound()
for pc in BOTTOM1_PORTCHAINS:
if flowclassifier_id in pc['flow_classifiers']:
raise client_exceptions.Conflict("in use")
self.delete_resources('flow_classifier', context, flowclassifier_id)
class FakeNeutronContext(q_context.Context):
def __init__(self):
self._session = None
self.is_admin = True
self.is_advsvc = False
self.tenant_id = TEST_TENANT_ID
@property
def session(self):
if not self._session:
self._session = FakeSession()
return self._session
def elevated(self):
return self
class FakeSession(test_utils.FakeSession):
def _fill_port_chain_dict(self, port_chain, model_dict, fields=None):
model_dict['port_pair_groups'] = [
assoc['portpairgroup_id']
for assoc in port_chain['chain_group_associations']]
model_dict['flow_classifiers'] = [
assoc['flowclassifier_id']
for assoc in port_chain['chain_classifier_associations']]
def add_hook(self, model_obj, model_dict):
if model_obj.__tablename__ == 'sfc_port_chains':
self._fill_port_chain_dict(model_obj, model_dict)
class FakeDriver(object):
def __init__(self, driver, name):
self.obj = driver
self.name = name
class FakeSfcDriver(sfc_driver.TricircleSfcDriver):
def __init__(self):
self.xjob_handler = FakeRPCAPI(self)
self.helper = helper.NetworkHelper(self)
def _get_client(self, region_name):
return FakeClient(region_name)
class FakeFcDriver(fc_driver.TricircleFcDriver):
def __init__(self):
self.xjob_handler = FakeRPCAPI(self)
self.helper = helper.NetworkHelper(self)
def _get_client(self, region_name):
return FakeClient(region_name)
class FakeFcPlugin(fc_plugin.FlowClassifierPlugin):
def __init__(self):
super(FakeFcPlugin, self).__init__()
self.driver_manager.ordered_drivers = [FakeDriver(
FakeFcDriver(), "tricircle_fc")]
class FakeSfcPlugin(sfc_plugin.TricircleSfcPlugin):
def __init__(self):
super(FakeSfcPlugin, self).__init__()
self.driver_manager.ordered_drivers = [FakeDriver(
FakeSfcDriver(), "tricircle_sfc")]
def _get_client(self, region_name):
return FakeClient(region_name)
def get_port_pairs(self, context, filters=None):
ret = []
client = self._get_client('top')
for key, values in six.iteritems(filters):
for v in values:
_filter = [{'key': key, 'comparator': 'eq', 'value': v}]
res = client.list_resources('port_pair', context, _filter)
if res:
ret.extend(res)
return ret
def get_port_chain(self, context, id, fields=None):
client = self._get_client('top')
filter = [{'key': 'id', 'comparator': 'eq', 'value': id}]
portchains = client.list_resources('port_chain', context, filter)
if portchains:
return portchains[0]
return None
def fake_get_context_from_neutron_context(q_context):
ctx = context.get_db_context()
ctx.project_id = q_context.project_id
return ctx
def fake_validate_pps_in_ppg(self, portpairs_list, id=None):
pass
def fake_make_port_pair_group_dict(self, port_pair_group, fields=None):
port_pairs = port_pair_group.port_pairs
if isinstance(port_pairs[0], test_utils.DotDict):
port_pair_group['port_pairs'] = [pp['id'] for pp in port_pairs]
return port_pair_group
def fake_make_port_chain_dict(self, port_chain, fields=None):
port_chain['port_pair_groups'] = [assoc['portpairgroup_id'] for assoc in
port_chain.chain_group_associations]
port_chain['flow_classifiers'] = [assoc['flowclassifier_id'] for assoc in
port_chain.chain_classifier_associations]
return port_chain
def fake_make_port_pair_dict(self, port_pair, fields=None):
return port_pair
class FakeCorePlugin(central_plugin.TricirclePlugin):
def __init__(self):
pass
def get_port(self, ctx, _id):
return self._get_port(ctx, _id)
def _get_port(self, ctx, _id):
top_client = FakeClient()
_filters = [{'key': 'id', 'comparator': 'eq', 'value': _id}]
return top_client.list_resources('port', ctx, _filters)[0]
def fake_get_plugin(alias='core'):
if alias == 'sfc':
return FakeSfcPlugin()
return FakeCorePlugin()
class PluginTest(unittest.TestCase):
def setUp(self):
core.initialize()
core.ModelBase.metadata.create_all(core.get_engine())
cfg.CONF.register_opts(q_config.core_opts)
core.get_engine().execute('pragma foreign_keys=on')
self.context = context.Context()
xmanager.IN_TEST = True
directory.get_plugin = fake_get_plugin
def _basic_pod_setup(self):
pod1 = {'pod_id': 'pod_id_1',
'region_name': 'pod_1',
'az_name': 'az_name_1'}
pod2 = {'pod_id': 'pod_id_2',
'region_name': 'pod_2',
'az_name': 'az_name_2'}
pod3 = {'pod_id': 'pod_id_0',
'region_name': 'top_pod',
'az_name': ''}
for pod in (pod1, pod2, pod3):
db_api.create_pod(self.context, pod)
def _prepare_net_test(self, project_id, ctx, pod_name):
t_net_id = uuidutils.generate_uuid()
pod_id = 'pod_id_1' if pod_name == 'pod_1' else 'pod_id_2'
core.create_resource(ctx, models.ResourceRouting,
{'top_id': t_net_id,
'bottom_id': t_net_id,
'pod_id': pod_id,
'project_id': project_id,
'resource_type': constants.RT_NETWORK})
return t_net_id
def _prepare_port_test(self, tenant_id, ctx, pod_name, net_id):
t_port_id = uuidutils.generate_uuid()
t_port = {
'id': t_port_id,
'network_id': net_id
}
TOP_PORTS.append(DotDict(t_port))
b_port = {
'id': t_port_id,
'network_id': net_id
}
if pod_name == 'pod_1':
BOTTOM1_PORTS.append(DotDict(b_port))
else:
BOTTOM2_PORTS.append(DotDict(b_port))
pod_id = 'pod_id_1' if pod_name == 'pod_1' else 'pod_id_2'
core.create_resource(ctx, models.ResourceRouting,
{'top_id': t_port_id,
'bottom_id': t_port_id,
'pod_id': pod_id,
'project_id': tenant_id,
'resource_type': constants.RT_PORT})
return t_port_id
def _update_port_pair_test(self, ppg_mappings, port_pairs):
for pp_id, ppg_id in six.iteritems(ppg_mappings):
for pp in port_pairs:
if pp['id'] == pp_id:
pp['portpairgroup_id'] = ppg_id
def _prepare_port_pair_test(self, project_id, t_ctx, pod_name,
index, ingress, egress, create_bottom,
portpairgroup_id=None):
t_pp_id = uuidutils.generate_uuid()
b_pp_id = uuidutils.generate_uuid()
top_pp = {
'id': t_pp_id,
'project_id': project_id,
'tenant_id': project_id,
'ingress': ingress,
'egress': egress,
'name': 'top_pp_%d' % index,
'service_function_parameters': {
"weight": 1,
"correlation": DotDict({'value': 'null'})},
'description': "description",
'portpairgroup_id': portpairgroup_id
}
TOP_PORTPAIRS.append(DotDict(top_pp))
if create_bottom:
btm_pp = {
'id': b_pp_id,
'project_id': project_id,
'tenant_id': project_id,
'ingress': ingress,
'egress': egress,
'name': 'btm_pp_%d' % index,
'service_function_parameters': {
"weight": 1,
"correlation": DotDict({'value': 'null'})},
'description': "description",
'portpairgroup_id': portpairgroup_id
}
if pod_name == 'pod_1':
BOTTOM1_PORTPAIRS.append(DotDict(btm_pp))
else:
BOTTOM2_PORTPAIRS.append(DotDict(btm_pp))
pod_id = 'pod_id_1' if pod_name == 'pod_1' else 'pod_id_2'
core.create_resource(t_ctx, models.ResourceRouting,
{'top_id': t_pp_id,
'bottom_id': b_pp_id,
'pod_id': pod_id,
'project_id': project_id,
'resource_type': constants.RT_PORT_PAIR})
return t_pp_id, b_pp_id
def _prepare_port_pair_group_test(self, project_id, t_ctx, pod_name, index,
t_pp_ids, create_bottom, b_pp_ids):
t_ppg_id = uuidutils.generate_uuid()
b_ppg_id = uuidutils.generate_uuid()
t_client = FakeClient()
b_client = FakeClient(pod_name)
t_pps = [t_client.get_resource(
'port_pair', t_ctx, e) for e in t_pp_ids]
if create_bottom:
b_pps = [b_client.get_resource(
'port_pair', t_ctx, e) for e in b_pp_ids]
top_ppg = {
"group_id": 1,
"description": "",
"tenant_id": project_id,
"port_pair_group_parameters": {"lb_fields": []},
"port_pairs": t_pps,
"project_id": project_id,
"id": t_ppg_id,
"name": 'top_ppg_%d' % index,
"tap_enabled": False}
TOP_PORTPAIRGROUPS.append(DotDict(top_ppg))
if create_bottom:
btm_ppg = {
"group_id": 1,
"description": "",
"tenant_id": project_id,
"port_pair_group_parameters": {"lb_fields": []},
"port_pairs": b_pps,
"project_id": project_id,
"id": b_ppg_id,
"name": 'btm_ppg_%d' % index,
"tap_enabled": False}
if pod_name == 'pod_1':
BOTTOM1_PORTPAIRGROUPS.append(DotDict(btm_ppg))
else:
BOTTOM2_PORTPAIRGROUPS.append(DotDict(btm_ppg))
pod_id = 'pod_id_1' if pod_name == 'pod_1' else 'pod_id_2'
core.create_resource(t_ctx, models.ResourceRouting,
{'top_id': t_ppg_id,
'bottom_id': b_ppg_id,
'pod_id': pod_id,
'project_id': project_id,
'resource_type':
constants.RT_PORT_PAIR_GROUP})
return t_ppg_id, b_ppg_id
def _prepare_flow_classifier_test(self, project_id, t_ctx, pod_name,
index, src_port_id, create_bottom):
t_fc_id = uuidutils.generate_uuid()
b_fc_id = uuidutils.generate_uuid()
top_fc = {
"source_port_range_min": None,
"destination_ip_prefix": None,
"protocol": None,
"description": "",
"l7_parameters": {},
"source_port_range_max": None,
"id": t_fc_id,
"name": "t_fc_%s" % index,
"ethertype": "IPv4",
"tenant_id": project_id,
"source_ip_prefix": "1.0.0.0/24",
"logical_destination_port": None,
"destination_port_range_min": None,
"destination_port_range_max": None,
"project_id": project_id,
"logical_source_port": src_port_id}
TOP_FLOWCLASSIFIERS.append(DotDict(top_fc))
if create_bottom:
btm_fc = {
"source_port_range_min": None,
"destination_ip_prefix": None,
"protocol": None,
"description": "",
"l7_parameters": {},
"source_port_range_max": None,
"id": b_fc_id,
"name": "b_fc_%s" % index,
"ethertype": "IPv4",
"tenant_id": project_id,
"source_ip_prefix": "1.0.0.0/24",
"logical_destination_port": None,
"destination_port_range_min": None,
"destination_port_range_max": None,
"project_id": project_id,
"logical_source_port": src_port_id}
if pod_name == 'pod_1':
BOTTOM1_FLOWCLASSIFIERS.append(DotDict(btm_fc))
else:
BOTTOM2_FLOWCLASSIFIERS.append(DotDict(btm_fc))
pod_id = 'pod_id_1' if pod_name == 'pod_1' else 'pod_id_2'
core.create_resource(t_ctx, models.ResourceRouting,
{'top_id': t_fc_id,
'bottom_id': b_fc_id,
'pod_id': pod_id,
'project_id': project_id,
'resource_type':
constants.RT_FLOW_CLASSIFIER})
return t_fc_id, b_fc_id
def _prepare_chain_group_assoc_test(self, chain_id, group_id):
chain_group_assoc = {'portpairgroup_id': group_id,
'portchain_id': chain_id}
TOP_CHAIN_GROUP_ASSOCS.append(DotDict(chain_group_assoc))
def _prepare_chain_classifier_assoc_test(self,
chain_id, flowclassifier_id):
chain_classifier_assoc = {'flowclassifier_id': flowclassifier_id,
'portchain_id': chain_id}
TOP_CHAIN_CLASSIFIER_ASSOCS.append(DotDict(chain_classifier_assoc))
def _prepare_port_chain_test(self, project_id, t_ctx, pod_name,
index, create_bottom, ids):
t_pc_id = uuidutils.generate_uuid()
b_pc_id = uuidutils.generate_uuid()
top_pc = {
"tenant_id": project_id,
"name": "t_pc_%s" % index,
"chain_parameters": {
"symmetric": False, "correlation": "mpls"},
"port_pair_groups": ids['t_ppg_id'],
"flow_classifiers": ids['t_fc_id'],
"project_id": project_id,
"chain_id": 1,
"description": "",
"id": t_pc_id}
TOP_PORTCHAINS.append(DotDict(top_pc))
if create_bottom:
btm_pc = {
"tenant_id": project_id,
"name": "b_pc_%s" % index,
"chain_parameters": {
"symmetric": False, "correlation": "mpls"},
"port_pair_groups": ids['b_ppg_id'],
"flow_classifiers": ids['b_fc_id'],
"project_id": project_id,
"chain_id": 1,
"description": "",
"id": b_pc_id}
if pod_name == 'pod_1':
BOTTOM1_PORTCHAINS.append(DotDict(btm_pc))
else:
BOTTOM2_PORTCHAINS.append(DotDict(btm_pc))
pod_id = 'pod_id_1' if pod_name == 'pod_1' else 'pod_id_2'
core.create_resource(t_ctx, models.ResourceRouting,
{'top_id': t_pc_id,
'bottom_id': b_pc_id,
'pod_id': pod_id,
'project_id': project_id,
'resource_type': constants.RT_PORT_CHAIN})
return t_pc_id, b_pc_id
def test_get_client(self):
driver = fc_driver.TricircleFcDriver()
t_client = driver._get_client('top')
self.assertEqual(t_client.region_name, 'top')
@patch.object(context, 'get_context_from_neutron_context',
new=fake_get_context_from_neutron_context)
@patch.object(directory, 'get_plugin', new=fake_get_plugin)
def test_get_port(self):
self._basic_pod_setup()
project_id = TEST_TENANT_ID
t_ctx = context.get_db_context()
port_id = self._prepare_port_test(project_id, t_ctx, 'pod_1', None)
self.assertIsNotNone(port_id)
@patch.object(context, 'get_context_from_neutron_context',
new=fake_get_context_from_neutron_context)
def test_delete_port_chain(self):
project_id = TEST_TENANT_ID
q_ctx = FakeNeutronContext()
t_ctx = context.get_db_context()
self._basic_pod_setup()
fake_plugin = FakeSfcPlugin()
ids = {'t_ppg_id': [uuidutils.generate_uuid()],
'b_ppg_id': [uuidutils.generate_uuid()],
't_fc_id': [uuidutils.generate_uuid()],
'b_fc_id': [uuidutils.generate_uuid()]}
t_pc_id1, _ = self._prepare_port_chain_test(
project_id, t_ctx, 'pod_1', 0, True, ids)
fake_plugin.delete_port_chain(q_ctx, t_pc_id1)
pc_mappings = db_api.get_bottom_mappings_by_top_id(
t_ctx, t_pc_id1, constants.RT_PORT_CHAIN)
self.assertEqual(len(TOP_PORTCHAINS), 0)
self.assertEqual(len(BOTTOM1_PORTCHAINS), 0)
self.assertEqual(len(pc_mappings), 0)
t_pc_id2, _ = self._prepare_port_chain_test(
project_id, t_ctx, 'pod_1', 0, True, ids)
BOTTOM1_PORTCHAINS.pop()
fake_plugin.delete_port_chain(q_ctx, t_pc_id2)
pc_mappings = db_api.get_bottom_mappings_by_top_id(
t_ctx, t_pc_id2, constants.RT_PORT_CHAIN)
self.assertEqual(len(TOP_PORTCHAINS), 0)
self.assertEqual(len(pc_mappings), 0)
@patch.object(sfc_db.SfcDbPlugin, '_make_port_pair_group_dict',
new=fake_make_port_pair_group_dict)
@patch.object(context, 'get_context_from_neutron_context',
new=fake_get_context_from_neutron_context)
def test_delete_port_pair_group(self):
project_id = TEST_TENANT_ID
q_ctx = FakeNeutronContext()
t_ctx = context.get_db_context()
self._basic_pod_setup()
fake_plugin = FakeSfcPlugin()
t_pp_id = uuidutils.generate_uuid()
b_pp_id = uuidutils.generate_uuid()
t_ppg_id1, _ = self._prepare_port_pair_group_test(
project_id, t_ctx, 'pod_1', 0, [t_pp_id], True, [b_pp_id])
fake_plugin.delete_port_pair_group(q_ctx, t_ppg_id1)
ppg_mappings = db_api.get_bottom_mappings_by_top_id(
t_ctx, t_ppg_id1, constants.RT_PORT_PAIR_GROUP)
self.assertEqual(len(TOP_PORTPAIRGROUPS), 0)
self.assertEqual(len(BOTTOM1_PORTPAIRGROUPS), 0)
self.assertEqual(len(ppg_mappings), 0)
t_ppg_id2, _ = self._prepare_port_pair_group_test(
project_id, t_ctx, 'pod_1', 0, [t_pp_id], True, [b_pp_id])
BOTTOM1_PORTPAIRGROUPS.pop()
fake_plugin.delete_port_pair_group(q_ctx, t_ppg_id2)
ppg_mappings = db_api.get_bottom_mappings_by_top_id(
t_ctx, t_ppg_id2, constants.RT_PORT_PAIR_GROUP)
self.assertEqual(len(TOP_PORTPAIRGROUPS), 0)
self.assertEqual(len(ppg_mappings), 0)
@patch.object(sfc_db.SfcDbPlugin, '_make_port_pair_dict',
new=fake_make_port_pair_dict)
@patch.object(context, 'get_context_from_neutron_context',
new=fake_get_context_from_neutron_context)
def test_delete_port_pair(self):
project_id = TEST_TENANT_ID
q_ctx = FakeNeutronContext()
t_ctx = context.get_db_context()
self._basic_pod_setup()
fake_plugin = FakeSfcPlugin()
ingress = uuidutils.generate_uuid()
egress = uuidutils.generate_uuid()
t_pp1_id, _ = self._prepare_port_pair_test(
project_id, t_ctx, 'pod_1', 0, ingress, egress, True)
fake_plugin.delete_port_pair(q_ctx, t_pp1_id)
ppg_mappings = db_api.get_bottom_mappings_by_top_id(
t_ctx, t_pp1_id, constants.RT_PORT_PAIR_GROUP)
self.assertEqual(len(TOP_PORTPAIRS), 0)
self.assertEqual(len(BOTTOM1_PORTPAIRS), 0)
self.assertEqual(len(ppg_mappings), 0)
t_pp2_id, _ = self._prepare_port_pair_test(
project_id, t_ctx, 'pod_1', 0, ingress, egress, True)
BOTTOM1_PORTPAIRS.pop()
fake_plugin.delete_port_pair(q_ctx, t_pp2_id)
ppg_mappings = db_api.get_bottom_mappings_by_top_id(
t_ctx, t_pp2_id, constants.RT_PORT_PAIR_GROUP)
self.assertEqual(len(TOP_PORTPAIRS), 0)
self.assertEqual(len(ppg_mappings), 0)
@patch.object(context, 'get_context_from_neutron_context',
new=fake_get_context_from_neutron_context)
def test_delete_flow_classifier(self):
project_id = TEST_TENANT_ID
q_ctx = FakeNeutronContext()
t_ctx = context.get_db_context()
self._basic_pod_setup()
fake_plugin = FakeFcPlugin()
src_port_id = uuidutils.generate_uuid()
t_fc_id1, _ = self._prepare_flow_classifier_test(
project_id, t_ctx, 'pod_1', 0, src_port_id, True)
fake_plugin.delete_flow_classifier(q_ctx, t_fc_id1)
ppg_mappings = db_api.get_bottom_mappings_by_top_id(
t_ctx, t_fc_id1, constants.RT_FLOW_CLASSIFIER)
self.assertEqual(len(TOP_FLOWCLASSIFIERS), 0)
self.assertEqual(len(BOTTOM1_FLOWCLASSIFIERS), 0)
self.assertEqual(len(ppg_mappings), 0)
t_fc_id2, _ = self._prepare_flow_classifier_test(
project_id, t_ctx, 'pod_1', 0, src_port_id, True)
BOTTOM1_FLOWCLASSIFIERS.pop()
fake_plugin.delete_flow_classifier(q_ctx, t_fc_id2)
ppg_mappings = db_api.get_bottom_mappings_by_top_id(
t_ctx, t_fc_id2, constants.RT_FLOW_CLASSIFIER)
self.assertEqual(len(TOP_FLOWCLASSIFIERS), 0)
self.assertEqual(len(ppg_mappings), 0)
@patch.object(sfc_db.SfcDbPlugin, '_validate_pps_in_ppg',
new=fake_validate_pps_in_ppg)
@patch.object(sfc_db.SfcDbPlugin, '_make_port_chain_dict',
new=fake_make_port_chain_dict)
@patch.object(sfc_db.SfcDbPlugin, '_make_port_pair_group_dict',
new=fake_make_port_pair_group_dict)
@patch.object(sfc_db.SfcDbPlugin, '_make_port_pair_dict',
new=fake_make_port_pair_dict)
@patch.object(sfc_db.SfcDbPlugin, 'get_port_chain',
new=FakeSfcPlugin.get_port_chain)
@patch.object(db_base_plugin_v2.NeutronDbPluginV2, 'get_port',
new=FakeCorePlugin.get_port)
@patch.object(sfc_db.SfcDbPlugin, 'get_port_pairs',
new=FakeSfcPlugin.get_port_pairs)
@patch.object(context, 'get_context_from_neutron_context',
new=fake_get_context_from_neutron_context)
def test_update_service_function_chain(self):
project_id = TEST_TENANT_ID
t_ctx = context.get_db_context()
self._basic_pod_setup()
t_net_id = self._prepare_net_test(project_id, t_ctx, 'pod_1')
src_port_id = self._prepare_port_test(project_id,
t_ctx, 'pod_1', t_net_id)
ingress1 = self._prepare_port_test(project_id, t_ctx,
'pod_1', t_net_id)
egress1 = self._prepare_port_test(project_id, t_ctx, 'pod_1', t_net_id)
t_pp1_id, b_pp1_id = self._prepare_port_pair_test(
project_id, t_ctx, 'pod_1', 0, ingress1, egress1, True)
t_ppg1_id, b_ppg1_id = self._prepare_port_pair_group_test(
project_id, t_ctx, 'pod_1', 0,
[t_pp1_id], True, [b_pp1_id])
ppg_mapping = {t_pp1_id: t_ppg1_id}
self._update_port_pair_test(ppg_mapping, TOP_PORTPAIRS)
t_fc1_id, b_fc1_id = self._prepare_flow_classifier_test(
project_id, t_ctx, 'pod_1', 0, src_port_id, True)
ids = {'t_ppg_id': [t_ppg1_id],
'b_ppg_id': [b_ppg1_id],
't_fc_id': [t_fc1_id],
'b_fc_id': [b_fc1_id]}
t_pc1_id, b_pc1_id = self._prepare_port_chain_test(
project_id, t_ctx, 'pod_1', 0, True, ids)
self._prepare_chain_group_assoc_test(t_pc1_id, t_ppg1_id)
self._prepare_chain_classifier_assoc_test(t_pc1_id, t_fc1_id)
ingress2 = self._prepare_port_test(project_id, t_ctx,
'pod_1', t_net_id)
egress2 = self._prepare_port_test(project_id, t_ctx, 'pod_1', t_net_id)
t_pp2_id, b_pp2_id = self._prepare_port_pair_test(
project_id, t_ctx, 'pod_1', 0, ingress2, egress2, True)
ppg_mapping = {t_pp2_id: t_ppg1_id}
self._update_port_pair_test(ppg_mapping, TOP_PORTPAIRS)
t_ppg2_id, b_ppg2_id = self._prepare_port_pair_group_test(
project_id, t_ctx, 'pod_1', 0,
[], True, [])
t_fc2_id, b_fc2_id = self._prepare_flow_classifier_test(
project_id, t_ctx, 'pod_1', 0, src_port_id, True)
self._prepare_chain_group_assoc_test(t_pc1_id, t_ppg2_id)
self._prepare_chain_classifier_assoc_test(t_pc1_id, t_fc2_id)
def tearDown(self):
core.ModelBase.metadata.drop_all(core.get_engine())
test_utils.get_resource_store().clean()
cfg.CONF.unregister_opts(q_config.core_opts)
xmanager.IN_TEST = False
| apache-2.0 |
SciTools/cube_browser | setup.py | 1 | 2272 | #!/usr/bin/env python
from __future__ import print_function
import os
from setuptools import setup
NAME = 'cube_browser'
DIR = os.path.abspath(os.path.dirname(__file__))
def extract_packages():
packages = []
root = os.path.join(DIR, 'lib', NAME)
offset = len(os.path.dirname(root)) + 1
for dpath, dnames, fnames in os.walk(root):
if os.path.exists(os.path.join(dpath, '__init__.py')):
package = dpath[offset:].replace(os.path.sep, '.')
packages.append(package)
return packages
def extract_version():
version = None
fname = os.path.join(DIR, 'lib', NAME, '__init__.py')
with open(fname) as fin:
for line in fin:
if (line.startswith('__version__')):
_, version = line.split('=')
version = version.strip()[1:-1] # Remove quotation.
break
return version
def extract_description():
description = 'Cube Browser'
fname = os.path.join(DIR, 'README.md')
if os.path.isfile(fname):
with open(fname) as fin:
description = fin.read()
return description
install_requires = ['iris']
setup_args = dict(
name = NAME,
version = extract_version(),
description = 'Cube Browser.',
long_description = extract_description(),
platforms = ['Linux', 'Mac OS X', 'Windows'],
license = 'BSD 3-clause',
url = 'https://github.com/SciTools/cube_browser',
package_dir = {'': 'lib'},
packages = extract_packages(),
classifiers = [
'License :: OSI Approved :: BSD License',
'Development Status :: 1 - Planning Development Status',
'Programming Language :: Python :: 2.7',
'Programming Language :: Python :: 3.4',
'Programming Language :: Python :: 3.5',
'Operating System :: OS Independent',
'Intended Audience :: Science/Research',
'Intended Audience :: Developers',
'Natural Language :: English',
'Topic :: Scientific/Engineering',
'Topic :: Software Development :: Libraries'],
install_requires = install_requires,
test_suite = '{}.tests'.format(NAME),
)
if __name__ == "__main__":
setup(**setup_args)
| bsd-3-clause |
disqus/Diamond | src/diamond/test/testcollector.py | 24 | 1083 | #!/usr/bin/python
# coding=utf-8
################################################################################
from test import unittest
import configobj
from diamond.collector import Collector
class BaseCollectorTest(unittest.TestCase):
def test_SetCustomHostname(self):
config = configobj.ConfigObj()
config['server'] = {}
config['server']['collectors_config_path'] = ''
config['collectors'] = {}
config['collectors']['default'] = {
'hostname': 'custom.localhost',
}
c = Collector(config, [])
self.assertEquals('custom.localhost', c.get_hostname())
def test_SetHostnameViaShellCmd(self):
config = configobj.ConfigObj()
config['server'] = {}
config['server']['collectors_config_path'] = ''
config['collectors'] = {}
config['collectors']['default'] = {
'hostname': 'echo custom.localhost',
'hostname_method': 'shell',
}
c = Collector(config, [])
self.assertEquals('custom.localhost', c.get_hostname())
| mit |
joshsamara/game-website | core/migrations/0001_squashed_0020_merge.py | 1 | 11615 | # -*- coding: utf-8 -*-
from __future__ import unicode_literals
from django.db import models, migrations
import stdimage.models
import django.utils.timezone
from django.conf import settings
class Migration(migrations.Migration):
replaces = [(b'core', '0001_initial'), (b'core', '0002_auto_20150320_0150'), (b'core', '0003_remove_game_owner'), (b'core', '0004_auto_20150320_1822'), (b'core', '0005_auto_20150320_1826'), (b'core', '0006_auto_20150320_1836'), (b'core', '0002_auto_20150318_1928'), (b'core', '0007_merge'), (b'core', '0008_auto_20150321_2352'), (b'core', '0009_gamerating'), (b'core', '0010_auto_20150325_1358'), (b'core', '0011_auto_20150406_1529'), (b'core', '0012_auto_20150406_1611'), (b'core', '0011_game_featured'), (b'core', '0013_merge'), (b'core', '0014_auto_20150413_1351'), (b'core', '0015_auto_20150413_1604'), (b'core', '0016_usernotification_read'), (b'core', '0014_auto_20150413_1639'), (b'core', '0017_merge'), (b'core', '0014_auto_20150408_1930'), (b'core', '0015_game_game_file'), (b'core', '0016_auto_20150408_2004'), (b'core', '0018_merge'), (b'core', '0019_auto_20150422_2004'), (b'core', '0019_auto_20150415_1917'), (b'core', '0020_merge')]
dependencies = [
('auth', '0001_initial'),
]
operations = [
migrations.CreateModel(
name='User',
fields=[
('id', models.AutoField(verbose_name='ID', serialize=False, auto_created=True, primary_key=True)),
('password', models.CharField(max_length=128, verbose_name='password')),
('last_login', models.DateTimeField(default=django.utils.timezone.now, verbose_name='last login')),
('is_superuser', models.BooleanField(default=False, help_text='Designates that this user has all permissions without explicitly assigning them.', verbose_name='superuser status')),
('email', models.EmailField(unique=True, max_length=75)),
('first_name', models.CharField(max_length=30)),
('last_name', models.CharField(max_length=30)),
('is_staff', models.BooleanField(default=False, help_text=b'Designates whether the user can log into this admin site.')),
('date_joined', models.DateTimeField(default=django.utils.timezone.now, blank=True)),
('birthday', models.DateField(null=True)),
('gender', models.CharField(blank=True, max_length=1, choices=[(b'M', b'Male'), (b'F', b'Female'), (b'O', b'Other')])),
('public', models.BooleanField(default=False)),
],
options={
'verbose_name': 'user',
'verbose_name_plural': 'users',
},
bases=(models.Model,),
),
migrations.CreateModel(
name='Game',
fields=[
('id', models.AutoField(verbose_name='ID', serialize=False, auto_created=True, primary_key=True)),
('name', models.CharField(max_length=50)),
('link', models.URLField()),
('image', stdimage.models.StdImageField(upload_to=b'game_images')),
('description', models.TextField(max_length=5000)),
('date_published', models.DateField()),
('event_name', models.CharField(max_length=75)),
('genre', models.CharField(max_length=50)),
],
options={
},
bases=(models.Model,),
),
migrations.CreateModel(
name='Group',
fields=[
('id', models.AutoField(verbose_name='ID', serialize=False, auto_created=True, primary_key=True)),
('name', models.CharField(max_length=50)),
('members', models.ManyToManyField(to=settings.AUTH_USER_MODEL)),
],
options={
},
bases=(models.Model,),
),
migrations.AddField(
model_name='game',
name='group',
field=models.ForeignKey(blank=True, to='core.Group', null=True),
preserve_default=True,
),
migrations.AddField(
model_name='user',
name='groups',
field=models.ManyToManyField(related_query_name='user', related_name='user_set', to=b'auth.Group', blank=True, help_text='The groups this user belongs to. A user will get all permissions granted to each of his/her group.', verbose_name='groups'),
preserve_default=True,
),
migrations.AddField(
model_name='user',
name='user_permissions',
field=models.ManyToManyField(related_query_name='user', related_name='user_set', to=b'auth.Permission', blank=True, help_text='Specific permissions for this user.', verbose_name='user permissions'),
preserve_default=True,
),
migrations.AlterField(
model_name='game',
name='date_published',
field=models.DateField(auto_now_add=True),
preserve_default=True,
),
migrations.CreateModel(
name='GameTag',
fields=[
('id', models.AutoField(verbose_name='ID', serialize=False, auto_created=True, primary_key=True)),
('value', models.CharField(max_length=50)),
],
options={
},
bases=(models.Model,),
),
migrations.AddField(
model_name='game',
name='tags',
field=models.ManyToManyField(to=b'core.GameTag', null=True, blank=True),
preserve_default=True,
),
migrations.RemoveField(
model_name='game',
name='genre',
),
migrations.AlterField(
model_name='game',
name='event_name',
field=models.CharField(default=b'', max_length=75, blank=True),
preserve_default=True,
),
migrations.AlterField(
model_name='game',
name='image',
field=stdimage.models.StdImageField(null=True, upload_to=b'game_images', blank=True),
preserve_default=True,
),
migrations.RemoveField(
model_name='game',
name='link',
),
migrations.AddField(
model_name='game',
name='game_file',
field=models.FileField(null=True, upload_to=b'', blank=True),
preserve_default=True,
),
migrations.CreateModel(
name='GameRating',
fields=[
('id', models.AutoField(verbose_name='ID', serialize=False, auto_created=True, primary_key=True)),
('value', models.FloatField(choices=[(0.5, 0.5), (1, 1), (1.5, 1.5), (2, 2), (2.5, 2.5), (3, 3), (3.5, 3.5), (4, 4), (4.5, 4.5), (5, 5)])),
('game', models.ForeignKey(to='core.Game')),
('user', models.ForeignKey(to=settings.AUTH_USER_MODEL)),
],
options={
},
bases=(models.Model,),
),
migrations.AlterField(
model_name='game',
name='date_published',
field=models.DateTimeField(auto_now_add=True),
preserve_default=True,
),
migrations.AlterField(
model_name='user',
name='birthday',
field=models.DateField(null=True, blank=True),
preserve_default=True,
),
migrations.AlterField(
model_name='user',
name='date_joined',
field=models.DateTimeField(auto_now_add=True),
preserve_default=True,
),
migrations.AlterField(
model_name='user',
name='first_name',
field=models.CharField(max_length=30, blank=True),
preserve_default=True,
),
migrations.AlterField(
model_name='user',
name='gender',
field=models.CharField(max_length=1, choices=[(b'N/A', b'Prefer not to disclose'), (b'M', b'Male'), (b'F', b'Female'), (b'O', b'Other')]),
preserve_default=True,
),
migrations.AlterField(
model_name='user',
name='last_name',
field=models.CharField(max_length=30, blank=True),
preserve_default=True,
),
migrations.AlterField(
model_name='game',
name='date_published',
field=models.DateField(auto_now_add=True),
preserve_default=True,
),
migrations.AlterField(
model_name='user',
name='gender',
field=models.CharField(blank=True, max_length=1, choices=[(b'', b'Prefer not to disclose'), (b'M', b'Male'), (b'F', b'Female'), (b'O', b'Other')]),
preserve_default=True,
),
migrations.AlterField(
model_name='user',
name='public',
field=models.BooleanField(default=False, help_text=b'Determines whether or not your profile is open to the public'),
preserve_default=True,
),
migrations.AddField(
model_name='game',
name='featured',
field=models.BooleanField(default=False),
preserve_default=True,
),
migrations.CreateModel(
name='UserNotification',
fields=[
('id', models.AutoField(verbose_name='ID', serialize=False, auto_created=True, primary_key=True)),
('redirect_url', models.URLField()),
('description', models.CharField(max_length=256)),
('user', models.ForeignKey(to=settings.AUTH_USER_MODEL)),
('read', models.BooleanField(default=False)),
],
options={
},
bases=(models.Model,),
),
migrations.AlterField(
model_name='user',
name='public',
field=models.BooleanField(default=True, help_text=b'Determines whether or not your profile is open to the public'),
preserve_default=True,
),
migrations.AlterField(
model_name='user',
name='public',
field=models.BooleanField(default=True, help_text=b'Determines whether or not your profile is open to the public'),
preserve_default=True,
),
migrations.CreateModel(
name='MyFile',
fields=[
('id', models.AutoField(verbose_name='ID', serialize=False, auto_created=True, primary_key=True)),
('game_file', models.FileField(null=True, upload_to=b'', blank=True)),
('name', models.CharField(max_length=100, null=True)),
],
options={
},
bases=(models.Model,),
),
migrations.RemoveField(
model_name='game',
name='game_file',
),
migrations.AlterField(
model_name='user',
name='public',
field=models.BooleanField(default=True, help_text=b'Determines whether or not your profile is open to the public'),
preserve_default=True,
),
migrations.AddField(
model_name='game',
name='game_file',
field=models.ManyToManyField(to=b'core.MyFile', blank=True),
preserve_default=True,
),
migrations.AlterField(
model_name='game',
name='group',
field=models.ForeignKey(to='core.Group'),
preserve_default=True,
),
]
| mit |
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