Datasets:
xszheng2020
/
the_stack_dedup_python_hits_7

Dataset card Data Studio Files
xet
Community
1
hexsha
string
size
int64
ext
string
lang
string
max_stars_repo_path
string
max_stars_repo_name
string
max_stars_repo_head_hexsha
string
max_stars_repo_licenses
list
max_stars_count
int64
max_stars_repo_stars_event_min_datetime
string
max_stars_repo_stars_event_max_datetime
string
max_issues_repo_path
string
max_issues_repo_name
string
max_issues_repo_head_hexsha
string
max_issues_repo_licenses
list
max_issues_count
int64
max_issues_repo_issues_event_min_datetime
string
max_issues_repo_issues_event_max_datetime
string
max_forks_repo_path
string
max_forks_repo_name
string
max_forks_repo_head_hexsha
string
max_forks_repo_licenses
list
max_forks_count
int64
max_forks_repo_forks_event_min_datetime
string
max_forks_repo_forks_event_max_datetime
string
content
string
avg_line_length
float64
max_line_length
int64
alphanum_fraction
float64
qsc_code_num_words_quality_signal
int64
qsc_code_num_chars_quality_signal
float64
qsc_code_mean_word_length_quality_signal
float64
qsc_code_frac_words_unique_quality_signal
float64
qsc_code_frac_chars_top_2grams_quality_signal
float64
qsc_code_frac_chars_top_3grams_quality_signal
float64
qsc_code_frac_chars_top_4grams_quality_signal
float64
qsc_code_frac_chars_dupe_5grams_quality_signal
float64
qsc_code_frac_chars_dupe_6grams_quality_signal
float64
qsc_code_frac_chars_dupe_7grams_quality_signal
float64
qsc_code_frac_chars_dupe_8grams_quality_signal
float64
qsc_code_frac_chars_dupe_9grams_quality_signal
float64
qsc_code_frac_chars_dupe_10grams_quality_signal
float64
qsc_code_frac_chars_replacement_symbols_quality_signal
float64
qsc_code_frac_chars_digital_quality_signal
float64
qsc_code_frac_chars_whitespace_quality_signal
float64
qsc_code_size_file_byte_quality_signal
float64
qsc_code_num_lines_quality_signal
float64
qsc_code_num_chars_line_max_quality_signal
float64
qsc_code_num_chars_line_mean_quality_signal
float64
qsc_code_frac_chars_alphabet_quality_signal
float64
qsc_code_frac_chars_comments_quality_signal
float64
qsc_code_cate_xml_start_quality_signal
float64
qsc_code_frac_lines_dupe_lines_quality_signal
float64
qsc_code_cate_autogen_quality_signal
float64
qsc_code_frac_lines_long_string_quality_signal
float64
qsc_code_frac_chars_string_length_quality_signal
float64
qsc_code_frac_chars_long_word_length_quality_signal
float64
qsc_code_frac_lines_string_concat_quality_signal
float64
qsc_code_cate_encoded_data_quality_signal
float64
qsc_code_frac_chars_hex_words_quality_signal
float64
qsc_code_frac_lines_prompt_comments_quality_signal
float64
qsc_code_frac_lines_assert_quality_signal
float64
qsc_codepython_cate_ast_quality_signal
float64
qsc_codepython_frac_lines_func_ratio_quality_signal
float64
qsc_codepython_cate_var_zero_quality_signal
bool
qsc_codepython_frac_lines_pass_quality_signal
float64
qsc_codepython_frac_lines_import_quality_signal
float64
qsc_codepython_frac_lines_simplefunc_quality_signal
float64
qsc_codepython_score_lines_no_logic_quality_signal
float64
qsc_codepython_frac_lines_print_quality_signal
float64
qsc_code_num_words
int64
qsc_code_num_chars
int64
qsc_code_mean_word_length
int64
qsc_code_frac_words_unique
null
qsc_code_frac_chars_top_2grams
int64
qsc_code_frac_chars_top_3grams
int64
qsc_code_frac_chars_top_4grams
int64
qsc_code_frac_chars_dupe_5grams
int64
qsc_code_frac_chars_dupe_6grams
int64
qsc_code_frac_chars_dupe_7grams
int64
qsc_code_frac_chars_dupe_8grams
int64
qsc_code_frac_chars_dupe_9grams
int64
qsc_code_frac_chars_dupe_10grams
int64
qsc_code_frac_chars_replacement_symbols
int64
qsc_code_frac_chars_digital
int64
qsc_code_frac_chars_whitespace
int64
qsc_code_size_file_byte
int64
qsc_code_num_lines
int64
qsc_code_num_chars_line_max
int64
qsc_code_num_chars_line_mean
int64
qsc_code_frac_chars_alphabet
int64
qsc_code_frac_chars_comments
int64
qsc_code_cate_xml_start
int64
qsc_code_frac_lines_dupe_lines
int64
qsc_code_cate_autogen
int64
qsc_code_frac_lines_long_string
int64
qsc_code_frac_chars_string_length
int64
qsc_code_frac_chars_long_word_length
int64
qsc_code_frac_lines_string_concat
null
qsc_code_cate_encoded_data
int64
qsc_code_frac_chars_hex_words
int64
qsc_code_frac_lines_prompt_comments
int64
qsc_code_frac_lines_assert
int64
qsc_codepython_cate_ast
int64
qsc_codepython_frac_lines_func_ratio
int64
qsc_codepython_cate_var_zero
int64
qsc_codepython_frac_lines_pass
int64
qsc_codepython_frac_lines_import
int64
qsc_codepython_frac_lines_simplefunc
int64
qsc_codepython_score_lines_no_logic
int64
qsc_codepython_frac_lines_print
int64
effective
string
hits
int64
7aeaab83c8b0d0e2aa568392d39d448c16da4d81
86
py
Python
src/orders/admin/__init__.py
tough-dev-school/education-backend
7d044bf917916f494d75170c0775bfed525238a6
[ "MIT" ]
62
2021-09-22T18:38:26.000Z
2022-03-29T06:09:42.000Z
src/orders/admin/__init__.py
tough-dev-school/education-backend
7d044bf917916f494d75170c0775bfed525238a6
[ "MIT" ]
50
2021-09-16T07:17:31.000Z
2022-03-26T12:06:58.000Z
src/orders/admin/__init__.py
tough-dev-school/education-backend
7d044bf917916f494d75170c0775bfed525238a6
[ "MIT" ]
16
2021-10-17T17:43:31.000Z
2022-03-26T11:22:45.000Z
import orders.admin.orders.admin # noqa import orders.admin.promocodes.admin # noqa
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0.790698
12
86
5.666667
0.416667
0.485294
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0.116279
86
2
45
43
0.894737
0.104651
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1
0
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0
7
bb3961b78bb4afde326d76ac3c9d6fed2901ae62
12,933
py
Python
metaci/testresults/migrations/0010_auto_20190204_1732.py
sfdc-qbranch/MetaCI
78ac0d2bccd2db381998321ebd71029dd5d9ab39
[ "BSD-3-Clause" ]
48
2018-10-24T14:52:06.000Z
2022-03-25T21:14:50.000Z
metaci/testresults/migrations/0010_auto_20190204_1732.py
sfdc-qbranch/MetaCI
78ac0d2bccd2db381998321ebd71029dd5d9ab39
[ "BSD-3-Clause" ]
2,034
2018-10-31T20:59:16.000Z
2022-03-22T21:38:03.000Z
metaci/testresults/migrations/0010_auto_20190204_1732.py
sfdc-qbranch/MetaCI
78ac0d2bccd2db381998321ebd71029dd5d9ab39
[ "BSD-3-Clause" ]
27
2018-12-24T18:16:23.000Z
2021-12-15T17:57:27.000Z
# -*- coding: utf-8 -*- # Generated by Django 1.11.15 on 2019-02-04 17:32 from __future__ import unicode_literals from django.db import migrations, models class Migration(migrations.Migration): dependencies = [ ("testresults", "0009_auto_20181207_2010"), ] operations = [ migrations.AlterField( model_name="testresult", name="callouts_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="callouts_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="callouts_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="cpu_time_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="cpu_time_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="cpu_time_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="dml_rows_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="dml_rows_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="dml_rows_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="dml_statements_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="dml_statements_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="dml_statements_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="future_calls_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="future_calls_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="future_calls_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="heap_size_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="heap_size_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="heap_size_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="mobile_apex_push_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="mobile_apex_push_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="mobile_apex_push_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="query_rows_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="query_rows_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="query_rows_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="queueable_jobs_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="queueable_jobs_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="queueable_jobs_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="soql_queries_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="soql_queries_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="soql_queries_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="sosl_queries_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="sosl_queries_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="sosl_queries_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_callouts_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_callouts_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_callouts_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_cpu_time_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_cpu_time_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_cpu_time_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_dml_rows_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_dml_rows_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_dml_rows_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_dml_statements_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_dml_statements_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_dml_statements_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_email_invocations_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_email_invocations_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_email_invocations_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_future_calls_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_future_calls_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_future_calls_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_heap_size_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_heap_size_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_heap_size_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_mobile_apex_push_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_mobile_apex_push_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_mobile_apex_push_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_query_rows_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_query_rows_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_query_rows_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_queueable_jobs_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_queueable_jobs_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_queueable_jobs_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_soql_queries_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_soql_queries_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_soql_queries_used", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_sosl_queries_allowed", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_sosl_queries_percent", field=models.IntegerField(blank=True, null=True), ), migrations.AlterField( model_name="testresult", name="test_sosl_queries_used", field=models.IntegerField(blank=True, null=True), ), ]
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10
700fdbf04eebbee79f920296db6409e9790e6f7c
131
py
Python
routes/__init__.py
Vladimir37/Sanelotto
94dfa1dfc74776cc6a954d26b6ce5d38f2cf6bf1
[ "MIT" ]
8
2016-03-21T17:09:02.000Z
2019-01-11T20:22:31.000Z
routes/__init__.py
Vladimir37/Sanelotto
94dfa1dfc74776cc6a954d26b6ce5d38f2cf6bf1
[ "MIT" ]
null
null
null
routes/__init__.py
Vladimir37/Sanelotto
94dfa1dfc74776cc6a954d26b6ce5d38f2cf6bf1
[ "MIT" ]
null
null
null
from routes import create from routes import generate from routes import help from routes import start from routes import uninstall
26.2
28
0.854962
20
131
5.6
0.4
0.446429
0.714286
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0.145038
131
5
28
26.2
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1
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1
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8
707f34acbb2163d5ada1b8aad0b7b5fec62fa602
25
py
Python
waterflows/__init__.py
jannefiluren/waterflows
ecfb0d46425477bfa77865771531e3dc874edb4c
[ "MIT" ]
null
null
null
waterflows/__init__.py
jannefiluren/waterflows
ecfb0d46425477bfa77865771531e3dc874edb4c
[ "MIT" ]
null
null
null
waterflows/__init__.py
jannefiluren/waterflows
ecfb0d46425477bfa77865771531e3dc874edb4c
[ "MIT" ]
null
null
null
def test(): return 5
8.333333
12
0.56
4
25
3.5
1
0
0
0
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0
0.058824
0.32
25
2
13
12.5
0.764706
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1
0.5
true
0
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0.5
1
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1
1
0
null
0
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1
1
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0
1
1
0
0
7
709f21b8e4a2cb4334ec6e2221f9e29a1d87b6d3
104
py
Python
db_setup.py
SumWum/HumanSona
37319bf7ba4f2b9a2d82038bbae3049c5137757a
[ "MIT" ]
null
null
null
db_setup.py
SumWum/HumanSona
37319bf7ba4f2b9a2d82038bbae3049c5137757a
[ "MIT" ]
1
2020-06-07T14:43:49.000Z
2020-06-07T14:43:49.000Z
db_setup.py
SumWum/HumanSona
37319bf7ba4f2b9a2d82038bbae3049c5137757a
[ "MIT" ]
null
null
null
from util import Handlers Handlers.Mongo.create_document("sonas") Handlers.Mongo.create_document("xp")
20.8
39
0.817308
14
104
5.928571
0.642857
0.313253
0.457831
0.650602
0
0
0
0
0
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0
0
0.067308
104
4
40
26
0.85567
0
0
0
0
0
0.067308
0
0
0
0
0
0
1
0
true
0
0.333333
0
0.333333
0
1
0
0
null
1
1
1
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null
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0
1
0
1
0
0
0
0
7
560b7cc6301fae56318385b9c017590707dc9b5d
171
py
Python
v1/projects/admin.py
buckyroberts/Website-API
e74d202a41533c7622acbe12c793d047d44012ad
[ "MIT" ]
64
2020-10-02T02:58:06.000Z
2022-01-29T20:00:50.000Z
v1/projects/admin.py
buckyroberts/Website-API
e74d202a41533c7622acbe12c793d047d44012ad
[ "MIT" ]
93
2020-10-04T22:53:46.000Z
2022-03-05T18:17:46.000Z
v1/projects/admin.py
buckyroberts/Website-API
e74d202a41533c7622acbe12c793d047d44012ad
[ "MIT" ]
21
2020-10-11T14:16:13.000Z
2021-11-09T17:50:25.000Z
from django.contrib import admin from .models.milestone import Milestone from .models.project import Project admin.site.register(Project) admin.site.register(Milestone)
21.375
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0
1
0
0
7
562faa062ba7ae3c0f9e7dac8f3f9f645279046b
107
py
Python
two_thinning/__init__.py
varikakasandor/dissertation-balls-into-bins
fba69dd5ffd0b4984795c9a5ec119bf8c6f47d9e
[ "Apache-2.0" ]
null
null
null
two_thinning/__init__.py
varikakasandor/dissertation-balls-into-bins
fba69dd5ffd0b4984795c9a5ec119bf8c6f47d9e
[ "Apache-2.0" ]
null
null
null
two_thinning/__init__.py
varikakasandor/dissertation-balls-into-bins
fba69dd5ffd0b4984795c9a5ec119bf8c6f47d9e
[ "Apache-2.0" ]
null
null
null
import two_thinning.constant_threshold import two_thinning.average_based import two_thinning.full_knowledge
35.666667
38
0.925234
15
107
6.2
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0.290323
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107
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1
0
0
7
563144d4befff3731738636ec5308437da2680bc
381
py
Python
gym_softrobot/utils/actuation/actuations/muscles/__init__.py
nmnaughton/gym-softrobot
7b7eb9bfb97f2e3d2c3e2f7df50ca96426a2482f
[ "MIT" ]
10
2022-01-11T19:49:02.000Z
2022-03-24T22:27:32.000Z
gym_softrobot/utils/actuation/actuations/muscles/__init__.py
nmnaughton/gym-softrobot
7b7eb9bfb97f2e3d2c3e2f7df50ca96426a2482f
[ "MIT" ]
7
2022-01-15T07:48:53.000Z
2022-03-07T17:43:44.000Z
gym_softrobot/utils/actuation/actuations/muscles/__init__.py
nmnaughton/gym-softrobot
7b7eb9bfb97f2e3d2c3e2f7df50ca96426a2482f
[ "MIT" ]
2
2022-03-06T19:43:06.000Z
2022-03-25T21:31:52.000Z
""" Created on Jan. 07, 2021 @author: Heng-Sheng (Hanson) Chang """ from gym_softrobot.utils.actuation.actuations.muscles.muscle import * from gym_softrobot.utils.actuation.actuations.muscles.oblique_muscle import * from gym_softrobot.utils.actuation.actuations.muscles.longitudinal_muscle import * from gym_softrobot.utils.actuation.actuations.muscles.transverse_muscle import *
38.1
82
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0.090615
0.20712
0.271845
0.724919
0.724919
0.724919
0.572816
0.572816
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0.016997
0.073491
381
9
83
42.333333
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1
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1
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1
0
0
8
565aadce2cd61148c4dba2f9444244f3521b206f
2,946
py
Python
DeepLearning_from_Scratch/Chapter4_TwoLayerNet.py
taekwang94/code-exercise
cbba690d41b53a7e3800ea288f4b973a084f1359
[ "MIT" ]
1
2020-08-04T02:59:58.000Z
2020-08-04T02:59:58.000Z
DeepLearning_from_Scratch/Chapter4_TwoLayerNet.py
taekwang94/code-exercise
cbba690d41b53a7e3800ea288f4b973a084f1359
[ "MIT" ]
1
2020-01-30T01:38:58.000Z
2020-01-30T01:38:58.000Z
DeepLearning_from_Scratch/Chapter4_TwoLayerNet.py
taekwang94/code-exercise
cbba690d41b53a7e3800ea288f4b973a084f1359
[ "MIT" ]
1
2020-01-30T01:34:25.000Z
2020-01-30T01:34:25.000Z
<<<<<<< HEAD import sys,os sys.path.append(os.pardir) from common.functions import * from common.gradient import numerical_gradient class TwoLayerNet: def __init__(self,input_size,hidden_size,output_size,weight_init_std=0.01): self.params={} self.params['W1'] = weight_init_std*np.random.rand(input_size,hidden_size) self.params['b1'] = np.zeros(hidden_size) self.params['W2'] = weight_init_std*np.random.rand(hidden_size,output_size) self.params['b2'] = np.zeros(output_size) def predict(self,x): W1,W2 = self.params['W1'],self.params['W2'] b1,b2 = self.params['b1'],self.params['b2'] a1 = np.dot(x,W1)+b1 z1 = sigmoid(a1) a2 = np.dot(z1,W2)+b2 y = softmax(a2) return y def loss(self,x,t): y = self.predict(x) return cross_entropy_error(y,t) def accuracy(self,x,t): y = self.predict(x) y = np.argmax(y,axis=1) t = np.argmax(y,axis=1) accuracy = np.sum(y==t)/float(x.shape[0]) return accuracy def numerical_gradient(self,x,t): loss_W = lambda W:self.loss(x,t) grads = {} grads['W1'] = numerical_gradient(loss_W, self.params['W1']) grads['W2'] = numerical_gradient(loss_W, self.params['W2']) grads['b1'] = numerical_gradient(loss_W, self.params['b1']) grads['b2'] = numerical_gradient(loss_W, self.params['b2']) ======= import sys,os sys.path.append(os.pardir) from common.functions import * from common.gradient import numerical_gradient class TwoLayerNet: def __init__(self,input_size,hidden_size,output_size,weight_init_std=0.01): self.params={} self.params['W1'] = weight_init_std*np.random.rand(input_size,hidden_size) self.params['b1'] = np.zeros(hidden_size) self.params['W2'] = weight_init_std*np.random.rand(hidden_size,output_size) self.params['b2'] = np.zeros(output_size) def predict(self,x): W1,W2 = self.params['W1'],self.params['W2'] b1,b2 = self.params['b1'],self.params['b2'] a1 = np.dot(x,W1)+b1 z1 = sigmoid(a1) a2 = np.dot(z1,W2)+b2 y = softmax(a2) return y def loss(self,x,t): y = self.predict(x) return cross_entropy_error(y,t) def accuracy(self,x,t): y = self.predict(x) y = np.argmax(y,axis=1) t = np.argmax(y,axis=1) accuracy = np.sum(y==t)/float(x.shape[0]) return accuracy def numerical_gradient(self,x,t): loss_W = lambda W:self.loss(x,t) grads = {} grads['W1'] = numerical_gradient(loss_W, self.params['W1']) grads['W2'] = numerical_gradient(loss_W, self.params['W2']) grads['b1'] = numerical_gradient(loss_W, self.params['b1']) grads['b2'] = numerical_gradient(loss_W, self.params['b2']) >>>>>>> e8dc90c85b9519d31ca84678bd32c29f74538635 return grads
31.340426
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0.613374
432
2,946
4.034722
0.138889
0.149168
0.096386
0.100975
0.968445
0.968445
0.968445
0.968445
0.968445
0.968445
0
0.043937
0.227427
2,946
94
84
31.340426
0.72188
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0.021717
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null
null
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0.081081
null
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null
0
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0
1
0
0
0
0
0
0
0
0
8
568acd515ab07ada1ef1bfdb2a7ed9ab038c550d
79
py
Python
Code/lecture 10/arthimetic.py
capacitybuilding/Introduction-to-Computng
77639e53ed53896581c4a8431f32198237ac70dc
[ "MIT" ]
null
null
null
Code/lecture 10/arthimetic.py
capacitybuilding/Introduction-to-Computng
77639e53ed53896581c4a8431f32198237ac70dc
[ "MIT" ]
null
null
null
Code/lecture 10/arthimetic.py
capacitybuilding/Introduction-to-Computng
77639e53ed53896581c4a8431f32198237ac70dc
[ "MIT" ]
null
null
null
print 8%5*6+23/2**3 print 5*8.0/(5+6)+3 print 8/3*9-5//2.0 print 3/8*5+6*5%6-7
15.8
19
0.582278
29
79
1.586207
0.344828
0.173913
0.130435
0
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0
0.366197
0.101266
79
4
20
19.75
0.28169
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0
0
0
0
0
0
1
0
7
8e90d5a62108ca456f77030571c339ecb879b89c
10,395
py
Python
tests/test_delete.py
nmaxwell/OpenMesh-Python
daa461069decb459f990bfcc1131c55a2db7b5e5
[ "BSD-3-Clause" ]
9
2019-09-16T10:03:37.000Z
2022-02-03T17:56:24.000Z
tests/test_delete.py
Jiawei1996/OpenMesh-Python
daa461069decb459f990bfcc1131c55a2db7b5e5
[ "BSD-3-Clause" ]
2
2017-01-04T10:55:17.000Z
2017-01-16T16:59:34.000Z
tests/test_delete.py
jjennings955/openmesh-python-subdivide
7f39bd1693f009ddd8739c98671b122c4d4aba81
[ "BSD-3-Clause" ]
1
2020-04-13T15:23:59.000Z
2020-04-13T15:23:59.000Z
import unittest import openmesh import numpy as np class DeleteItems(unittest.TestCase): def setUp(self): self.mesh = openmesh.TriMesh() # Test setup: # # 5 ======== 4 ======== 3 # | 0 / | 2 / | # | / | / | # | / | / | # | / 1 | / 3 | # 0 ======== 1 ======== 2 vh0 = self.mesh.add_vertex([0, 0, 0]) vh1 = self.mesh.add_vertex([1, 0, 0]) vh2 = self.mesh.add_vertex([2, 0, 0]) vh3 = self.mesh.add_vertex([2, 1, 0]) vh4 = self.mesh.add_vertex([1, 1, 0]) vh5 = self.mesh.add_vertex([0, 1, 0]) fh0 = self.mesh.add_face(vh0, vh4, vh5) fh1 = self.mesh.add_face(vh0, vh1, vh4) fh2 = self.mesh.add_face(vh1, vh3, vh4) fh3 = self.mesh.add_face(vh1, vh2, vh3) def test_delete_vertex_with_idx_1(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete self.mesh.delete_vertex(self.mesh.vertex_handle(1)) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 3) self.assertEqual(self.mesh.n_halfedges(), 6) self.assertEqual(self.mesh.n_edges(), 3) self.assertEqual(self.mesh.n_faces(), 1) def test_delete_vertex_with_idx_1_without_isolated(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete self.mesh.delete_vertex(self.mesh.vertex_handle(1), False) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 5) self.assertEqual(self.mesh.n_halfedges(), 6) self.assertEqual(self.mesh.n_edges(), 3) self.assertEqual(self.mesh.n_faces(), 1) def test_delete_vertex_with_idx_2(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete self.mesh.delete_vertex(self.mesh.vertex_handle(2)) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 5) self.assertEqual(self.mesh.n_halfedges(), 14) self.assertEqual(self.mesh.n_edges(), 7) self.assertEqual(self.mesh.n_faces(), 3) def test_delete_vertex_with_idx_2_without_isolated(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete self.mesh.delete_vertex(self.mesh.vertex_handle(2), False) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 5) self.assertEqual(self.mesh.n_halfedges(), 14) self.assertEqual(self.mesh.n_edges(), 7) self.assertEqual(self.mesh.n_faces(), 3) def test_delete_edge_with_idx_1(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete center edge self.mesh.delete_edge(self.mesh.edge_handle(1)) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 5) self.assertEqual(self.mesh.n_halfedges(), 14) self.assertEqual(self.mesh.n_edges(), 7) self.assertEqual(self.mesh.n_faces(), 3) def test_delete_edge_with_idx_1_without_isolated(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete center edge self.mesh.delete_edge(self.mesh.edge_handle(1), False) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 14) self.assertEqual(self.mesh.n_edges(), 7) self.assertEqual(self.mesh.n_faces(), 3) def test_delete_edge_with_idx_4(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete center edge self.mesh.delete_edge(self.mesh.edge_handle(4)) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 12) self.assertEqual(self.mesh.n_edges(), 6) self.assertEqual(self.mesh.n_faces(), 2) def test_delete_edge_with_idx_4_without_isolated(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete center edge self.mesh.delete_edge(self.mesh.edge_handle(4), False) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 12) self.assertEqual(self.mesh.n_edges(), 6) self.assertEqual(self.mesh.n_faces(), 2) def test_delete_edge_with_idx_5(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete center edge self.mesh.delete_edge(self.mesh.edge_handle(5)) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 4) self.assertEqual(self.mesh.n_halfedges(), 10) self.assertEqual(self.mesh.n_edges(), 5) self.assertEqual(self.mesh.n_faces(), 2) def test_delete_edge_with_idx_5_without_isolated(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete center edge self.mesh.delete_edge(self.mesh.edge_handle(5), False) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 10) self.assertEqual(self.mesh.n_edges(), 5) self.assertEqual(self.mesh.n_faces(), 2) def test_delete_face_with_idx_1(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete center edge self.mesh.delete_face(self.mesh.face_handle(1)) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 16) self.assertEqual(self.mesh.n_edges(), 8) self.assertEqual(self.mesh.n_faces(), 3) def test_delete_face_with_idx_1_without_isolated(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete center edge self.mesh.delete_face(self.mesh.face_handle(1), False) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 16) self.assertEqual(self.mesh.n_edges(), 8) self.assertEqual(self.mesh.n_faces(), 3) def test_delete_face_with_idx_3(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete center edge self.mesh.delete_face(self.mesh.face_handle(3)) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 5) self.assertEqual(self.mesh.n_halfedges(), 14) self.assertEqual(self.mesh.n_edges(), 7) self.assertEqual(self.mesh.n_faces(), 3) def test_delete_face_with_idx_3_without_isolated(self): # check setup self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 18) self.assertEqual(self.mesh.n_edges(), 9) self.assertEqual(self.mesh.n_faces(), 4) # delete center edge self.mesh.delete_face(self.mesh.face_handle(3), False) self.mesh.garbage_collection() # check mesh after deletion self.assertEqual(self.mesh.n_vertices(), 6) self.assertEqual(self.mesh.n_halfedges(), 14) self.assertEqual(self.mesh.n_edges(), 7) self.assertEqual(self.mesh.n_faces(), 3) if __name__ == '__main__': suite = unittest.TestLoader().loadTestsFromTestCase(DeleteItems) unittest.TextTestRunner(verbosity=2).run(suite)
37.937956
68
0.614526
1,342
10,395
4.5693
0.053651
0.215264
0.347032
0.420091
0.950913
0.921559
0.921396
0.914873
0.914873
0.914873
0
0.02812
0.257624
10,395
273
69
38.076923
0.76649
0.087061
0
0.716763
0
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0.000848
0
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0
0
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0.647399
1
0.086705
false
0
0.017341
0
0.109827
0
0
0
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null
1
1
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1
1
1
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0
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0
0
0
0
0
0
0
0
11
8e97c6c53d4ef4937b702d70c414dbd70e583762
95
py
Python
Main/robot/__init__.py
Sherif-Abdou/RescueRobot
4e1ae39f973fc9af9cd51fb44e61278c7d3d5faa
[ "MIT" ]
null
null
null
Main/robot/__init__.py
Sherif-Abdou/RescueRobot
4e1ae39f973fc9af9cd51fb44e61278c7d3d5faa
[ "MIT" ]
2
2018-10-20T03:00:18.000Z
2018-10-26T01:19:18.000Z
Main/robot/__init__.py
Sherif-Abdou/RescueRobot
4e1ae39f973fc9af9cd51fb44e61278c7d3d5faa
[ "MIT" ]
null
null
null
import sentry_sdk sentry_sdk.init("https://1e9819f95a3d46fdb1ef8c96287c29e8@sentry.io/1310445")
47.5
77
0.863158
11
95
7.272727
0.727273
0.225
0
0
0
0
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0
0
0
0
0.290323
0.021053
95
2
77
47.5
0.569892
0
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0.604167
0
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1
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true
0
0.5
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0.5
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null
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null
0
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0
1
0
1
0
0
0
0
7
d9451fad2ad1f31872d93191bf5e52eab4ba6387
2,052
py
Python
planning_and_simulation_modules/utility/ProjectFolderBuilder.py
Planheat/Planheat-Tool
9764fcb86d3898b232c4cc333dab75ebe41cd421
[ "MIT" ]
2
2020-04-07T03:43:33.000Z
2021-03-23T13:17:42.000Z
planning_and_simulation_modules/utility/ProjectFolderBuilder.py
Planheat/Planheat-Tool
9764fcb86d3898b232c4cc333dab75ebe41cd421
[ "MIT" ]
1
2020-07-20T09:56:13.000Z
2020-07-22T10:26:06.000Z
planning_and_simulation_modules/utility/ProjectFolderBuilder.py
Planheat/Planheat-Tool
9764fcb86d3898b232c4cc333dab75ebe41cd421
[ "MIT" ]
1
2020-07-20T09:40:15.000Z
2020-07-20T09:40:15.000Z
import os import os.path from .. import master_planning_config as mp_config class ProjectFolderBuilder: def __init__(self): pass @staticmethod def run(): planning_folder = mp_config.CURRENT_PLANNING_DIRECTORY ProjectFolderBuilder.check_and_create_folder(os.path.join(planning_folder, "District")) ProjectFolderBuilder.check_and_create_folder(os.path.join(planning_folder, "District", "Baseline", "Networks")) ProjectFolderBuilder.check_and_create_folder(os.path.join(planning_folder, "District", "Future", "Networks")) ProjectFolderBuilder.check_and_create_folder(os.path.join(planning_folder, "District", "KPIs", "Tjulia", "district", "heating", "Results")) ProjectFolderBuilder.check_and_create_folder(os.path.join(planning_folder, "District", "KPIs", "Tjulia", "district", "heating", "input")) ProjectFolderBuilder.check_and_create_folder(os.path.join(planning_folder, "District", "KPIs", "Tjulia", "district", "cooling", "Results")) ProjectFolderBuilder.check_and_create_folder(os.path.join(planning_folder, "District", "KPIs", "Tjulia", "district", "cooling", "input")) ProjectFolderBuilder.check_and_create_folder(os.path.join(planning_folder, "District", "KPIs", "Tjulia", "single_building", "Results")) ProjectFolderBuilder.check_and_create_folder(os.path.join(planning_folder, "District", "KPIs", "Tjulia", "single_building", "input")) @staticmethod def check_and_create_folder(folder): if not os.path.isdir(folder): try: os.makedirs(folder, exist_ok=True) except: pass
55.459459
119
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2,052
6.13587
0.244565
0.058459
0.124004
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0.746678
0.746678
0.746678
0.746678
0.746678
0.746678
0
0
0.319201
2,052
36
120
57
0.80816
0
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0.322581
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0.140351
0
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1
0.096774
false
0.064516
0.096774
0
0.225806
0
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1
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0
1
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0
0
0
0
7
d95dffedd129b81ecdf920059e3062ac9b9ac0a8
5,947
py
Python
wrappers/python/aries_askar/ecdh.py
simnic/aries-askar
eafdc85e76f073426ea2ba57991cdf5d881b37a5
[ "Apache-2.0", "MIT" ]
13
2021-01-21T17:24:35.000Z
2022-03-30T11:34:25.000Z
wrappers/python/aries_askar/ecdh.py
simnic/aries-askar
eafdc85e76f073426ea2ba57991cdf5d881b37a5
[ "Apache-2.0", "MIT" ]
19
2021-01-10T02:02:25.000Z
2022-03-25T22:32:16.000Z
wrappers/python/aries_askar/ecdh.py
simnic/aries-askar
eafdc85e76f073426ea2ba57991cdf5d881b37a5
[ "Apache-2.0", "MIT" ]
9
2021-07-27T01:44:38.000Z
2022-03-30T06:09:45.000Z
from typing import Optional, Union from .bindings import Encrypted, key_derive_ecdh_es, key_derive_ecdh_1pu from .key import Key from .types import KeyAlg def _load_key(key: Union[dict, str, Key]) -> Key: if isinstance(key, (str, dict)): key = Key.from_jwk(key) return key class EcdhEs: def __init__( self, alg_id: Union[bytes, str], apu: Union[bytes, str], apv: Union[bytes, str], ): self._params = (alg_id, apu, apv) def _derive_key( self, enc_alg: Union[str, KeyAlg], ephemeral_key: Key, receiver_key: Key, receive: bool, ) -> Key: return Key( key_derive_ecdh_es( enc_alg, ephemeral_key._handle, receiver_key._handle, *self._params, receive, ) ) def encrypt_direct( self, enc_alg: Union[str, KeyAlg], ephemeral_key: Union[dict, str, Key], receiver_key: Union[dict, str, Key], message: Union[str, bytes], *, aad: bytes = None, nonce: bytes = None, ) -> Encrypted: derived = self._derive_key( enc_alg, _load_key(ephemeral_key), _load_key(receiver_key), False ) return derived.aead_encrypt(message, nonce=nonce, aad=aad) def decrypt_direct( self, enc_alg: Union[str, KeyAlg], ephemeral_key: Union[dict, str, Key], receiver_key: Union[dict, str, Key], ciphertext: bytes, *, nonce: bytes, tag: bytes, aad: bytes = None, ) -> bytes: derived = self._derive_key( enc_alg, _load_key(ephemeral_key), _load_key(receiver_key), True ) return derived.aead_decrypt(ciphertext, nonce=nonce, tag=tag, aad=aad) def sender_wrap_key( self, wrap_alg: Union[str, KeyAlg], ephemeral_key: Union[dict, str, Key], receiver_key: Union[dict, str, Key], cek: Key, ) -> Encrypted: derived = self._derive_key( wrap_alg, _load_key(ephemeral_key), _load_key(receiver_key), False ) return derived.wrap_key(cek) def receiver_unwrap_key( self, wrap_alg: Union[str, KeyAlg], enc_alg: Union[str, KeyAlg], ephemeral_key: Union[dict, str, Key], receiver_key: Union[dict, str, Key], ciphertext: bytes, *, nonce: bytes = None, tag: bytes = None, ) -> Key: derived = self._derive_key( wrap_alg, _load_key(ephemeral_key), _load_key(receiver_key), True ) return derived.unwrap_key(enc_alg, ciphertext, nonce=nonce, tag=tag) class Ecdh1PU: def __init__( self, alg_id: Union[bytes, str], apu: Union[bytes, str], apv: Union[bytes, str], ): self._params = (alg_id, apu, apv) def _derive_key( self, key_alg: Union[str, KeyAlg], ephemeral_key: Key, sender_key: Key, receiver_key: Key, cc_tag: Optional[bytes], receive: bool, ) -> Key: return Key( key_derive_ecdh_1pu( key_alg, ephemeral_key._handle, sender_key._handle, receiver_key._handle, *self._params, cc_tag, receive, ) ) def encrypt_direct( self, key_alg: Union[str, KeyAlg], ephemeral_key: Union[dict, str, Key], sender_key: Union[dict, str, Key], receiver_key: Union[dict, str, Key], message: Union[str, bytes], *, aad: bytes = None, nonce: bytes = None, ) -> Encrypted: derived = self._derive_key( key_alg, _load_key(ephemeral_key), _load_key(sender_key), _load_key(receiver_key), None, False, ) return derived.aead_encrypt(message, nonce=nonce, aad=aad) def decrypt_direct( self, enc_alg: Union[str, KeyAlg], ephemeral_key: Union[dict, str, Key], sender_key: Union[dict, str, Key], receiver_key: Union[dict, str, Key], ciphertext: bytes, *, nonce: bytes, tag: bytes, aad: bytes = None, ) -> bytes: derived = self._derive_key( enc_alg, _load_key(ephemeral_key), _load_key(sender_key), _load_key(receiver_key), None, True, ) return derived.aead_decrypt(ciphertext, nonce=nonce, tag=tag, aad=aad) def sender_wrap_key( self, wrap_alg: Union[str, KeyAlg], ephemeral_key: Union[dict, str, Key], sender_key: Union[dict, str, Key], receiver_key: Union[dict, str, Key], cek: Key, *, cc_tag: bytes, ) -> Encrypted: derived = self._derive_key( wrap_alg, _load_key(ephemeral_key), _load_key(sender_key), _load_key(receiver_key), cc_tag=cc_tag, receive=False, ) return derived.wrap_key(cek) def receiver_unwrap_key( self, wrap_alg: Union[str, KeyAlg], enc_alg: Union[str, KeyAlg], ephemeral_key: Union[dict, str, Key], sender_key: Union[dict, str, Key], receiver_key: Union[dict, str, Key], ciphertext: bytes, *, cc_tag: bytes, nonce: bytes = None, tag: bytes = None, ) -> Key: derived = self._derive_key( wrap_alg, _load_key(ephemeral_key), _load_key(sender_key), _load_key(receiver_key), cc_tag=cc_tag, receive=True, ) return derived.unwrap_key(enc_alg, ciphertext, nonce=nonce, tag=tag)
27.660465
78
0.539768
674
5,947
4.468843
0.08457
0.048805
0.083665
0.104582
0.89907
0.868526
0.868526
0.842629
0.795153
0.795153
0
0.000785
0.357659
5,947
214
79
27.78972
0.787696
0
0
0.817259
0
0
0
0
0
0
0
0
0
1
0.06599
false
0
0.020305
0.010152
0.152284
0
0
0
0
null
0
0
0
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
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null
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0
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0
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7
79ac3ff1dce5e04c5b86649e5352edab3d9cf64d
32,452
py
Python
tests/core/performance/test_snapshot_asset_price_collection.py
investing-algorithms/investing-algorithm-framework
d579e142a3857e2e2dfb59b7d6e54202f7df5466
[ "Apache-2.0" ]
1
2019-12-23T21:23:45.000Z
2019-12-23T21:23:45.000Z
tests/core/performance/test_snapshot_asset_price_collection.py
investing-algorithms/investing-algorithm-framework
d579e142a3857e2e2dfb59b7d6e54202f7df5466
[ "Apache-2.0" ]
null
null
null
tests/core/performance/test_snapshot_asset_price_collection.py
investing-algorithms/investing-algorithm-framework
d579e142a3857e2e2dfb59b7d6e54202f7df5466
[ "Apache-2.0" ]
1
2019-12-23T21:23:50.000Z
2019-12-23T21:23:50.000Z
# from datetime import timedelta, datetime # # from investing_algorithm_framework.core.models import Portfolio, TimeFrame, \ # TimeInterval, PortfolioSnapshot, OrderSide, db, SQLLitePortfolio, \ # SQLLitePortfolioSnapshot # from investing_algorithm_framework.core.performance import \ # SnapshotAssetPriceCollection # from tests.resources import TestBase, TestOrderAndPositionsObjectsMixin # # # class TestClass(TestBase, TestOrderAndPositionsObjectsMixin): # # def setUp(self) -> None: # super(TestClass, self).setUp() # self.start_algorithm() # # def test_unique_symbols(self): # portfolio = SQLLitePortfolio.query.first() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_HOUR # ) # # self.assertEqual( # 1, len(asset_price_collection._retrieve_unique_symbols()) # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_HOUR # ) # # self.assertEqual( # 2, len(asset_price_collection._retrieve_unique_symbols()) # ) # # def test_asset_prices_collection_one_minute(self): # portfolio = SQLLitePortfolio.query.first() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_HOUR # ) # # self.assertEqual(3, len(asset_price_collection.asset_prices)) # # for asset_prices_entry in asset_price_collection.asset_prices: # self.assertEqual( # TimeInterval.MINUTES_ONE.amount_of_data_points(), # len(asset_prices_entry) # ) # # def test_asset_prices_collection_fifteen_minute(self): # portfolio = SQLLitePortfolio.query.first() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_DAY # ) # # self.assertEqual(3, len(asset_price_collection.asset_prices)) # # for asset_prices_entry in asset_price_collection.asset_prices: # self.assertEqual( # TimeInterval.MINUTES_FIFTEEN.amount_of_data_points(), # len(asset_prices_entry) # ) # # def test_asset_prices_collection_one_hour(self): # portfolio = SQLLitePortfolio.query.first() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_WEEK # ) # # self.assertEqual(3, len(asset_price_collection.asset_prices)) # # for asset_price_entry in asset_price_collection.asset_prices: # self.assertEqual( # TimeInterval.HOURS_ONE.amount_of_data_points(), # len(asset_price_entry) # ) # # def test_asset_prices_collection_four_hour(self): # portfolio = SQLLitePortfolio.query.first() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_MONTH # ) # # self.assertEqual(3, len(asset_price_collection.asset_prices)) # # for asset_price_entry in asset_price_collection.asset_prices: # self.assertEqual( # TimeInterval.HOURS_FOUR.amount_of_data_points(), # len(asset_price_entry) # ) # # def test_asset_prices_collection_days(self): # portfolio = SQLLitePortfolio.query.first() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow(), # side=OrderSide.BUY.value, # execution_datetime=None, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_YEAR # ) # # self.assertEqual(3, len(asset_price_collection.asset_prices)) # # for asset_prices_entry in asset_price_collection.asset_prices: # self.assertEqual( # TimeInterval.DAYS_ONE.amount_of_data_points(), # len(asset_prices_entry) # ) # # def test_iteration_operation_with_pre_range_snapshot(self): # portfolio = SQLLitePortfolio.query.first() # # self.assertEqual(1, SQLLitePortfolioSnapshot.query.count()) # # first_snapshot = SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id # ).first() # # # Snapshot before range # first_snapshot.created_at = datetime.utcnow() - timedelta(minutes=70) # db.session.commit() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow() - timedelta(minutes=50), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow() - timedelta(minutes=40), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow() - timedelta(minutes=30), # side=OrderSide.BUY.value, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_HOUR # ) # # self.assertEqual(7, SQLLitePortfolioSnapshot.query.count()) # self.assertEqual(7, len(asset_price_collection.snapshots)) # # index = 0 # # for interval_date, snapshot, asset_prices in asset_price_collection: # # if index == 0: # self.assertIsNotNone(snapshot) # self.assertTrue(snapshot.created_at <= interval_date) # # index += 1 # # 3 prices per entry # self.assertEqual(3, len(asset_prices)) # self.assertIsNotNone(interval_date) # # peek_date, _ = asset_price_collection.asset_prices_queue.peek() # peek_snapshot = asset_price_collection.snapshot_queue.peek() # # if peek_date is not None: # self.assertTrue(interval_date < peek_date) # # if snapshot is not None and peek_snapshot is not None: # self.assertTrue(snapshot.created_at < peek_snapshot.created_at) # # def test_iterate_operation_one_hour(self): # portfolio = SQLLitePortfolio.query.first() # # self.assertEqual( # 1, # SQLLitePortfolioSnapshot.query.filter_by(portfolio_id=portfolio.id).count() # ) # # first_snapshot = SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id # ).first() # # first_snapshot.created_at = datetime.utcnow() - timedelta(minutes=100) # db.session.commit() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow() - timedelta(minutes=50), # side=OrderSide.BUY.value, # execution_datetime=datetime.utcnow() - timedelta(minutes=49), # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow() - timedelta(minutes=40), # side=OrderSide.BUY.value, # execution_datetime=datetime.utcnow() - timedelta(minutes=39), # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow() - timedelta(minutes=30), # side=OrderSide.BUY.value, # execution_datetime=datetime.utcnow() - timedelta(minutes=29), # executed=True, # ) # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_HOUR # ) # # self.assertEqual(7, len(asset_price_collection.snapshots)) # # total_amount_of_snapshots_visited = 0 # first_snapshot_passed = False # current_snapshot = None # # for interval_date, snapshot, asset_prices in asset_price_collection: # # # 3 prices per entry # self.assertEqual(3, len(asset_prices)) # self.assertIsNotNone(interval_date) # # peek_date, _ = asset_price_collection.asset_prices_queue.peek() # peek_snapshot = asset_price_collection.snapshot_queue.peek() # # if peek_date is not None: # self.assertTrue(interval_date < peek_date) # # if snapshot is not None: # # if not first_snapshot_passed: # total_amount_of_snapshots_visited += 1 # current_snapshot = snapshot # first_snapshot_passed = True # # if current_snapshot is not None: # if current_snapshot != snapshot: # total_amount_of_snapshots_visited += 1 # current_snapshot = snapshot # # if peek_snapshot is not None: # self.assertTrue( # snapshot.created_at < peek_snapshot.created_at # ) # # # 7 snapshots should be visited, including the snapshot created at # # the start # self.assertEqual(7, total_amount_of_snapshots_visited) # # def test_iterate_operation_one_day(self): # portfolio = SQLLitePortfolio.query.first() # # self.assertEqual( # 1, # SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id).count() # ) # # first_snapshot = SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id # ).first() # # first_snapshot.created_at = datetime.utcnow() - timedelta(hours=40) # db.session.commit() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow() - timedelta(hours=20), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow() - timedelta(hours=18), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow() - timedelta(hours=15), # side=OrderSide.BUY.value, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_DAY # ) # # self.assertEqual(7, len(asset_price_collection.snapshots)) # # total_amount_of_snapshots_visited = 0 # first_snapshot_passed = False # current_snapshot = None # # for interval_date, snapshot, asset_prices in asset_price_collection: # # # 3 prices per entry # self.assertEqual(3, len(asset_prices)) # self.assertIsNotNone(interval_date) # # peek_date, _ = asset_price_collection.asset_prices_queue.peek() # peek_snapshot = asset_price_collection.snapshot_queue.peek() # # if peek_date is not None: # self.assertTrue(interval_date < peek_date) # # if snapshot is not None: # # if not first_snapshot_passed: # total_amount_of_snapshots_visited += 1 # # self.assertEqual( # snapshot.created_at, first_snapshot.created_at # ) # current_snapshot = snapshot # first_snapshot_passed = True # # if current_snapshot is not None: # if current_snapshot.created_at != snapshot.created_at: # total_amount_of_snapshots_visited += 1 # current_snapshot = snapshot # # if peek_snapshot is not None: # self.assertTrue( # snapshot.created_at < peek_snapshot.created_at # ) # # # 7 snapshots should be visited, including the snapshot created at # # the start # self.assertEqual(7, total_amount_of_snapshots_visited) # # def test_iterate_operation_one_week(self): # portfolio = SQLLitePortfolio.query.first() # # self.assertEqual( # 1, # SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id).count() # ) # # first_snapshot = SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id # ).first() # # first_snapshot.created_at = datetime.utcnow() - timedelta(days=10) # db.session.commit() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow() - timedelta(days=6), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow() - timedelta(days=5), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow() - timedelta(days=4), # side=OrderSide.BUY.value, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_WEEK # ) # # self.assertEqual(7, len(asset_price_collection.snapshots)) # # total_amount_of_snapshots_visited = 0 # first_snapshot_passed = False # current_snapshot = None # # for interval_date, snapshot, asset_prices in asset_price_collection: # # # 3 prices per entry # self.assertEqual(3, len(asset_prices)) # self.assertIsNotNone(interval_date) # # peek_date, _ = asset_price_collection.asset_prices_queue.peek() # peek_snapshot = asset_price_collection.snapshot_queue.peek() # # if peek_date is not None: # self.assertTrue(interval_date < peek_date) # # if snapshot is not None: # # if not first_snapshot_passed: # total_amount_of_snapshots_visited += 1 # # self.assertEqual( # snapshot.created_at, first_snapshot.created_at # ) # current_snapshot = snapshot # first_snapshot_passed = True # # if current_snapshot is not None: # if current_snapshot.created_at != snapshot.created_at: # total_amount_of_snapshots_visited += 1 # current_snapshot = snapshot # # if peek_snapshot is not None: # self.assertTrue( # snapshot.created_at < peek_snapshot.created_at # ) # # # 7 snapshots should be visited, including the snapshot created at # # the start # self.assertEqual(7, total_amount_of_snapshots_visited) # # def test_iterate_operation_one_month(self): # portfolio = SQLLitePortfolio.query.first() # # self.assertEqual( # 1, # SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id).count() # ) # # first_snapshot = SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id # ).first() # # first_snapshot.created_at = datetime.utcnow() - timedelta(days=40) # db.session.commit() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow() - timedelta(days=20), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow() - timedelta(days=18), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow() - timedelta(days=15), # side=OrderSide.BUY.value, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_MONTH # ) # # self.assertEqual(7, len(asset_price_collection.snapshots)) # # total_amount_of_snapshots_visited = 0 # first_snapshot_passed = False # current_snapshot = None # # for interval_date, snapshot, asset_prices in asset_price_collection: # # # 3 prices per entry # self.assertEqual(3, len(asset_prices)) # self.assertIsNotNone(interval_date) # # peek_date, _ = asset_price_collection.asset_prices_queue.peek() # peek_snapshot = asset_price_collection.snapshot_queue.peek() # # if peek_date is not None: # self.assertTrue(interval_date < peek_date) # # if snapshot is not None: # # if not first_snapshot_passed: # total_amount_of_snapshots_visited += 1 # # self.assertEqual( # snapshot.created_at, first_snapshot.created_at # ) # current_snapshot = snapshot # first_snapshot_passed = True # # if current_snapshot is not None: # if current_snapshot.created_at != snapshot.created_at: # total_amount_of_snapshots_visited += 1 # current_snapshot = snapshot # # if peek_snapshot is not None: # self.assertTrue( # snapshot.created_at < peek_snapshot.created_at # ) # # # 7 snapshots should be visited, including the snapshot created at # # the start # self.assertEqual(7, total_amount_of_snapshots_visited) # # def test_iterate_operation_one_year(self): # portfolio = SQLLitePortfolio.query.first() # # self.assertEqual( # 1, # SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id).count() # ) # # first_snapshot = SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id # ).first() # # first_snapshot.created_at = datetime.utcnow() - timedelta(weeks=40) # db.session.commit() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow() - timedelta(weeks=20), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow() - timedelta(weeks=18), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow() - timedelta(weeks=15), # side=OrderSide.BUY.value, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_YEAR # ) # # self.assertEqual(7, len(asset_price_collection.snapshots)) # # total_amount_of_snapshots_visited = 0 # first_snapshot_passed = False # current_snapshot = None # # for interval_date, snapshot, asset_prices in asset_price_collection: # # # 3 prices per entry # self.assertEqual(3, len(asset_prices)) # self.assertIsNotNone(interval_date) # # peek_date, _ = asset_price_collection.asset_prices_queue.peek() # peek_snapshot = asset_price_collection.snapshot_queue.peek() # # if peek_date is not None: # self.assertTrue(interval_date < peek_date) # # if snapshot is not None: # # if not first_snapshot_passed: # total_amount_of_snapshots_visited += 1 # # self.assertEqual( # snapshot.created_at, first_snapshot.created_at # ) # current_snapshot = snapshot # first_snapshot_passed = True # # if current_snapshot is not None: # if current_snapshot.created_at != snapshot.created_at: # total_amount_of_snapshots_visited += 1 # current_snapshot = snapshot # # if peek_snapshot is not None: # self.assertTrue( # snapshot.created_at < peek_snapshot.created_at # ) # # # 7 snapshots should be visited, including the snapshot created at # # the start # self.assertEqual(7, total_amount_of_snapshots_visited) # # def test_iteration_operation_with_inner_snapshots(self): # amount_of_snapshots_visited = 0 # # portfolio = SQLLitePortfolio.query.first() # # self.assertEqual(1, SQLLitePortfolioSnapshot.query.count()) # # first_snapshot = SQLLitePortfolioSnapshot.query.filter_by( # portfolio_id=portfolio.id # ).first() # # # Snapshot before range # first_snapshot.created_at = datetime.utcnow() - timedelta(minutes=70) # db.session.commit() # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_A, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_A).price, # creation_datetime=datetime.utcnow() - timedelta(minutes=50), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_B, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_B).price, # creation_datetime=datetime.utcnow() - timedelta(minutes=49), # side=OrderSide.BUY.value, # executed=True, # ) # # self.create_limit_order( # portfolio, # self.TARGET_SYMBOL_C, # amount=1, # price=self.get_price(self.TARGET_SYMBOL_C).price, # creation_datetime=datetime.utcnow() - timedelta(minutes=48), # side=OrderSide.BUY.value, # executed=True, # ) # # asset_price_collection = SnapshotAssetPriceCollection( # portfolio, TimeFrame.ONE_DAY # ) # # self.assertEqual(7, len(asset_price_collection.snapshots)) # # index = 0 # # old_snapshot = None # # for interval_date, snapshot, asset_prices in asset_price_collection: # # if old_snapshot != snapshot: # amount_of_snapshots_visited += 1 # # index += 1 # # 3 prices per entry # self.assertEqual(3, len(asset_prices)) # self.assertIsNotNone(interval_date) # # peek_date, _ = asset_price_collection.asset_prices_queue.peek() # peek_snapshot = asset_price_collection.snapshot_queue.peek() # # if peek_date is not None: # self.assertTrue(interval_date < peek_date) # # if snapshot is not None and peek_snapshot is not None: # self.assertTrue(snapshot.created_at < peek_snapshot.created_at) # # old_snapshot = snapshot
34.932185
89
0.566591
3,085
32,452
5.664506
0.045705
0.04578
0.073248
0.04578
0.964464
0.951989
0.949986
0.943062
0.942089
0.942089
0
0.007795
0.335881
32,452
928
90
34.969828
0.803035
0.942192
0
null
0
null
0
0
null
0
0
0
null
1
null
true
0
0
null
null
null
0
0
0
null
0
0
0
1
1
1
1
1
1
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
null
0
0
0
0
0
0
1
0
0
0
0
0
0
8
79d530a03d936aad942089c2d8c3df22c5bb489d
2,178
py
Python
Huawei-EU-Challenge/BFS/serial_bfs/data.py
JackBai0914/Competitive-Programming-Codebase
a1cabf0fa5072b07a7da25d66bf455eb45b0b7e9
[ "MIT" ]
null
null
null
Huawei-EU-Challenge/BFS/serial_bfs/data.py
JackBai0914/Competitive-Programming-Codebase
a1cabf0fa5072b07a7da25d66bf455eb45b0b7e9
[ "MIT" ]
null
null
null
Huawei-EU-Challenge/BFS/serial_bfs/data.py
JackBai0914/Competitive-Programming-Codebase
a1cabf0fa5072b07a7da25d66bf455eb45b0b7e9
[ "MIT" ]
null
null
null
list1 = [0,1,2,4,3,20,6,79,60,78,62,151,7,14,31,45,32,47,95,113,146,166,148,189,8,81,33,116,34,117,96,181,150,211,152,212,16,165,67,164,69,188,123,226,196,255,197,256,101,121,138,198,140,216,225,266,239,278,253,281,104,179,142,200,144,209,227,267,250,286,251,287,5,9,10,115,11,18,93,111,12,97,94,218,21,178,206,261,108,208,247,271,110,210,265,272,13,44,22,43,59,61,23,36,129,145,130,147,24,114,131,149,132,191,38,207,184,205,185,244,219,262,171,274,241,277,221,263,243,280,245,283,17,28,29,41,30,169,119,249,229,268,231,269,15,25,46,63,48,64,77,167,75,190,168,201,26,82,162,176,163,199,203,270,254,282,258,284,19,80,112,202,177,187,260,285,37,51,57,74,58,76,52,248,183,259,182,257,42,180,215,264,27,50,87,128,40,49,65,68,102,122,173,195,175,235,86,100,125,137,126,139,213,224,233,238,234,273,103,127,141,143,214,220,236,276,237,279,35,92,85,66,217,91,107,222,228,109,223,230,53,84,136,160,71,83,98,174,135,155,156,170,157,172,158,159,242,275,99,134,118,133,153,154,39,56,54,55,72,186,120,232,194,246,193,240,73,161,204,252,70,90,88,89,105,192,106,124] # list1 = sorted(list1) print(list1) list2 = [0,1,2,4,3,20,6,79,60,78,62,151,7,14,31,45,32,47,95,113,146,166,148,189,8,81,33,116,34,117,96,181,150,211,152,212,16,165,67,164,69,188,123,226,196,255,197,256,101,121,138,198,140,216,225,266,239,278,253,281,104,179,142,200,144,209,227,267,250,286,251,287,5,9,10,115,11,18,93,111,12,97,94,218,21,178,206,261,108,208,247,271,110,210,265,272,13,22,43,59,44,61,23,36,129,145,130,147,24,114,131,149,132,191,38,207,184,205,185,244,219,262,171,274,241,277,221,263,243,280,245,283,17,28,29,41,30,169,119,249,229,268,231,269,15,25,46,63,48,64,77,167,75,190,168,201,26,82,162,176,163,199,203,270,254,282,258,284,19,80,112,202,177,187,260,285,37,51,57,74,58,76,52,248,183,259,182,257,42,180,215,264,27,40,49,65,50,68,102,122,173,195,175,235,86,100,125,137,126,139,213,224,233,238,234,273,87,103,127,141,128,143,214,220,236,276,237,279,35,85,66,217,91,107,222,228,92,109,223,230,53,71,83,98,84,174,135,155,156,170,157,172,136,158,159,242,160,275,99,118,133,153,134,154,39,54,55,72,56,186,120,232,194,246,193,240,73,161,204,252,70,88,89,105,90,192,106,124] # list2 = sorted(list2) print(list2)
311.142857
1,051
0.720845
588
2,178
2.670068
0.496599
0.002548
0.003822
0.005096
0.815287
0.815287
0.815287
0.765605
0.736306
0.736306
0
0.701203
0.007346
2,178
7
1,052
311.142857
0.024977
0.019743
0
0
0
0
0
0
0
0
0
0
0
1
0
false
0
0
0
0
0.5
0
0
0
null
0
0
0
1
1
1
1
1
1
0
1
0
0
1
1
1
1
0
0
0
0
0
0
0
null
0
0
0
0
0
0
0
0
0
0
0
1
0
12
8dbd8a01f44f398e6fc19f789b0d58f943159371
16,535
py
Python
Python/windwardrestapi/Model/ServiceError.py
windward-studios/Windward-REST-version-2-Clients
8fd467e6f4ece6fcc435609ffb23448d07af3131
[ "MIT" ]
null
null
null
Python/windwardrestapi/Model/ServiceError.py
windward-studios/Windward-REST-version-2-Clients
8fd467e6f4ece6fcc435609ffb23448d07af3131
[ "MIT" ]
1
2020-10-12T20:32:05.000Z
2020-10-12T20:38:04.000Z
Python/windwardrestapi/Model/ServiceError.py
windward-studios/Windward-REST-version-2-Clients
8fd467e6f4ece6fcc435609ffb23448d07af3131
[ "MIT" ]
null
null
null
__pyarmor__(__name__, __file__, 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5c1f2c1aa466be276ef12723afa78a437bc50c55
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py
Python
pyaz/ad/app/__init__.py
py-az-cli/py-az-cli
9a7dc44e360c096a5a2f15595353e9dad88a9792
[ "MIT" ]
null
null
null
pyaz/ad/app/__init__.py
py-az-cli/py-az-cli
9a7dc44e360c096a5a2f15595353e9dad88a9792
[ "MIT" ]
null
null
null
pyaz/ad/app/__init__.py
py-az-cli/py-az-cli
9a7dc44e360c096a5a2f15595353e9dad88a9792
[ "MIT" ]
1
2022-02-03T09:12:01.000Z
2022-02-03T09:12:01.000Z
''' Manage applications with AAD Graph. ''' from ... pyaz_utils import _call_az from . import credential, owner, permission def create(display_name, app_roles=None, available_to_other_tenants=None, credential_description=None, end_date=None, homepage=None, identifier_uris=None, key_type=None, key_usage=None, key_value=None, native_app=None, oauth2_allow_implicit_flow=None, optional_claims=None, password=None, reply_urls=None, required_resource_accesses=None, start_date=None): ''' Create a web application, web API or native application Required Parameters: - display_name -- the display name of the application Optional Parameters: - app_roles -- declare the roles you want to associate with your application. Should be in manifest json format. See examples below for details - available_to_other_tenants -- the application can be used from any Azure AD tenants - credential_description -- the description of the password - end_date -- Date or datetime after which credentials expire(e.g. '2017-12-31T11:59:59+00:00' or '2017-12-31'). Default value is one year after current time - homepage -- the url where users can sign in and use your app. - identifier_uris -- space-separated unique URIs that Azure AD can use for this app. - key_type -- the type of the key credentials associated with the application - key_usage -- the usage of the key credentials associated with the application. - key_value -- the value for the key credentials associated with the application - native_app -- an application which can be installed on a user's device or computer - oauth2_allow_implicit_flow -- whether to allow implicit grant flow for OAuth2 - optional_claims -- declare the optional claims for the application. Should be in manifest json format. See examples below for details. Please reference https://docs.microsoft.com/azure/active-directory/develop/active-directory-optional-claims#optionalclaim-type for optional claim properties. - password -- app password, aka 'client secret' - reply_urls -- space-separated URIs to which Azure AD will redirect in response to an OAuth 2.0 request. The value does not need to be a physical endpoint, but must be a valid URI. - required_resource_accesses -- resource scopes and roles the application requires access to. Should be in manifest json format. See examples below for details - start_date -- Date or datetime at which credentials become valid(e.g. '2017-01-01T01:00:00+00:00' or '2017-01-01'). Default value is current time ''' return _call_az("az ad app create", locals()) def delete(id): ''' Delete an application. Required Parameters: - id -- identifier uri, application id, or object id ''' return _call_az("az ad app delete", locals()) def list(all=None, app_id=None, display_name=None, filter=None, identifier_uri=None, show_mine=None): ''' List applications. Optional Parameters: - all -- list all entities, expect long delay if under a big organization - app_id -- application id - display_name -- the display name of the application - filter -- OData filter, e.g. --filter "displayname eq 'test' and servicePrincipalType eq 'Application'" - identifier_uri -- graph application identifier, must be in uri format - show_mine -- list entities owned by the current user ''' return _call_az("az ad app list", locals()) def show(id): ''' Get the details of an application. Required Parameters: - id -- identifier uri, application id, or object id ''' return _call_az("az ad app show", locals()) def update(id, add=None, app_roles=None, available_to_other_tenants=None, credential_description=None, display_name=None, end_date=None, force_string=None, homepage=None, identifier_uris=None, key_type=None, key_usage=None, key_value=None, oauth2_allow_implicit_flow=None, optional_claims=None, password=None, remove=None, reply_urls=None, required_resource_accesses=None, set=None, start_date=None): ''' Update an application. Required Parameters: - id -- identifier uri, application id, or object id Optional Parameters: - add -- Add an object to a list of objects by specifying a path and key value pairs. Example: --add property.listProperty <key=value, string or JSON string> - app_roles -- declare the roles you want to associate with your application. Should be in manifest json format. See examples below for details - available_to_other_tenants -- the application can be used from any Azure AD tenants - credential_description -- the description of the password - display_name -- the display name of the application - end_date -- Date or datetime after which credentials expire(e.g. '2017-12-31T11:59:59+00:00' or '2017-12-31'). Default value is one year after current time - force_string -- When using 'set' or 'add', preserve string literals instead of attempting to convert to JSON. - homepage -- the url where users can sign in and use your app. - identifier_uris -- space-separated unique URIs that Azure AD can use for this app. - key_type -- the type of the key credentials associated with the application - key_usage -- the usage of the key credentials associated with the application. - key_value -- the value for the key credentials associated with the application - oauth2_allow_implicit_flow -- whether to allow implicit grant flow for OAuth2 - optional_claims -- declare the optional claims for the application. Should be in manifest json format. See examples below for details. Please reference https://docs.microsoft.com/azure/active-directory/develop/active-directory-optional-claims#optionalclaim-type for optional claim properties. - password -- app password, aka 'client secret' - remove -- Remove a property or an element from a list. Example: --remove property.list <indexToRemove> OR --remove propertyToRemove - reply_urls -- space-separated URIs to which Azure AD will redirect in response to an OAuth 2.0 request. The value does not need to be a physical endpoint, but must be a valid URI. - required_resource_accesses -- resource scopes and roles the application requires access to. Should be in manifest json format. See examples below for details - set -- Update an object by specifying a property path and value to set. Example: --set property1.property2=<value> - start_date -- Date or datetime at which credentials become valid(e.g. '2017-01-01T01:00:00+00:00' or '2017-01-01'). Default value is current time ''' return _call_az("az ad app update", locals())
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2,981
py
Python
tests/cu_utils/test_transform.py
aerdem4/rapids-kaggle-utils
5e9fab9ec5abe1ba5f5843571e4d4ae34a378646
[ "MIT" ]
26
2020-03-04T08:21:08.000Z
2021-08-09T23:06:17.000Z
tests/cu_utils/test_transform.py
aerdem4/rapids-kaggle-utils
5e9fab9ec5abe1ba5f5843571e4d4ae34a378646
[ "MIT" ]
2
2020-03-16T15:48:24.000Z
2020-05-03T17:19:13.000Z
tests/cu_utils/test_transform.py
aerdem4/rapids-kaggle-utils
5e9fab9ec5abe1ba5f5843571e4d4ae34a378646
[ "MIT" ]
3
2020-04-15T06:14:56.000Z
2022-01-25T08:39:25.000Z
from numba import cuda import cu_utils.transform as cutr import numpy as np SIZE = 128 np.random.seed(0) def test_cu_mean_transform(): arr = np.random.rand(SIZE) res = np.zeros(SIZE) cuda.jit(cutr.cu_mean_transform)(arr, res) np.testing.assert_almost_equal(res, np.mean(arr)) np.testing.assert_equal(res.shape[0], SIZE) def test_cu_min_transform(): arr = np.random.rand(SIZE) res = np.zeros(SIZE) cuda.jit(cutr.cu_min_transform)(arr, res) np.testing.assert_almost_equal(res, np.min(arr)) np.testing.assert_equal(res.shape[0], SIZE) def test_cu_max_transform(): arr = np.random.rand(SIZE) res = np.zeros(SIZE) cuda.jit(cutr.cu_max_transform)(arr, res) np.testing.assert_almost_equal(res, np.max(arr)) np.testing.assert_equal(res.shape[0], SIZE) def test_cu_shift_transform(): arr = np.random.rand(SIZE) res = np.zeros(SIZE) shift = 3 null_val = -1 cuda.jit(cutr.get_cu_shift_transform(shift_by=shift, null_val=null_val))(arr, res) np.testing.assert_equal(res[shift:], arr[:-shift]) np.testing.assert_equal(res[:shift], null_val) np.testing.assert_equal(res.shape[0], SIZE) res = np.zeros(SIZE) shift = -4 cuda.jit(cutr.get_cu_shift_transform(shift_by=shift, null_val=null_val))(arr, res) np.testing.assert_equal(res[:shift], arr[-shift:]) np.testing.assert_equal(res[shift:], null_val) np.testing.assert_equal(res.shape[0], SIZE) def test_cu_rolling_mean_transform(): arr = np.random.rand(SIZE) res = np.zeros(SIZE) window = 3 null_val = -1 cuda.jit(cutr.get_cu_rolling_mean_transform(window=window, null_val=null_val))(arr, res) expected = arr.copy() for i in range(1, window): expected += np.roll(arr, i) expected /= window np.testing.assert_equal(res[window-1:], expected[window-1:]) np.testing.assert_equal(res[:window-1], null_val) np.testing.assert_equal(res.shape[0], SIZE) def test_cu_rolling_max_transform(): arr = np.random.rand(SIZE) res = np.zeros(SIZE) window = 5 null_val = -1 cuda.jit(cutr.get_cu_rolling_max_transform(window=window, null_val=null_val))(arr, res) expected = arr.copy() for i in range(1, window): expected = np.maximum(np.roll(arr, i), expected) np.testing.assert_equal(res[window-1:], expected[window-1:]) np.testing.assert_equal(res[:window-1], null_val) np.testing.assert_equal(res.shape[0], SIZE) def test_cu_rolling_min_transform(): arr = np.random.rand(SIZE) res = np.zeros(SIZE) window = 5 null_val = -1 cuda.jit(cutr.get_cu_rolling_min_transform(window=window, null_val=null_val))(arr, res) expected = arr.copy() for i in range(1, window): expected = np.minimum(np.roll(arr, i), expected) np.testing.assert_equal(res[window-1:], expected[window-1:]) np.testing.assert_equal(res[:window-1], null_val) np.testing.assert_equal(res.shape[0], SIZE)
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2,981
4.051975
0.106029
0.096973
0.161621
0.18471
0.924577
0.916367
0.904053
0.904053
0.904053
0.883017
0
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0.169406
2,981
110
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27.1
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7
30df38392742e9e8b560936c4a8dfb90e609912e
98
py
Python
frontend/context_processors.py
hungbbear/spleeter-web
52b3dabc02e88818e54e9a88b63c07986eace92b
[ "MIT" ]
202
2020-05-10T02:50:11.000Z
2022-03-25T00:34:01.000Z
frontend/context_processors.py
hungbbear/spleeter-web
52b3dabc02e88818e54e9a88b63c07986eace92b
[ "MIT" ]
76
2020-06-12T10:28:30.000Z
2022-03-25T20:10:01.000Z
frontend/context_processors.py
hungbbear/spleeter-web
52b3dabc02e88818e54e9a88b63c07986eace92b
[ "MIT" ]
57
2020-05-18T01:20:50.000Z
2022-03-21T10:34:23.000Z
import os def debug(context): return {'DJANGO_DEVELOPMENT': os.getenv('DJANGO_DEVELOPMENT')}
19.6
66
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98
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0.75
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7
eb695f0cc8fbd5a7150197c8b0a39bbaf4015a2b
549
py
Python
BOReL/environments/mujoco/rand_param_envs/gym/envs/classic_control/__init__.py
hai-h-nguyen/pomdp-baselines
629180d56641810d99653a116cca41ede65172eb
[ "MIT" ]
40
2021-10-15T14:53:00.000Z
2022-03-31T02:27:20.000Z
BOReL/environments/mujoco/rand_param_envs/gym/envs/classic_control/__init__.py
hai-h-nguyen/pomdp-baselines
629180d56641810d99653a116cca41ede65172eb
[ "MIT" ]
1
2022-03-13T04:02:30.000Z
2022-03-13T04:02:30.000Z
BOReL/environments/mujoco/rand_param_envs/gym/envs/classic_control/__init__.py
hai-h-nguyen/pomdp-baselines
629180d56641810d99653a116cca41ede65172eb
[ "MIT" ]
5
2021-11-28T04:08:13.000Z
2022-03-17T02:33:51.000Z
from environments.mujoco.rand_param_envs.gym.envs.classic_control.cartpole import ( CartPoleEnv, ) from environments.mujoco.rand_param_envs.gym.envs.classic_control.mountain_car import ( MountainCarEnv, ) from environments.mujoco.rand_param_envs.gym.envs.classic_control.continuous_mountain_car import ( Continuous_MountainCarEnv, ) from environments.mujoco.rand_param_envs.gym.envs.classic_control.pendulum import ( PendulumEnv, ) from environments.mujoco.rand_param_envs.gym.envs.classic_control.acrobot import ( AcrobotEnv, )
34.3125
98
0.826958
69
549
6.304348
0.289855
0.183908
0.252874
0.298851
0.708046
0.708046
0.708046
0.708046
0.708046
0.708046
0
0
0.091075
549
15
99
36.6
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true
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1
0
0
0
0
9
6972b48d8701951070fe82838f6705fca3ffea8f
131
py
Python
tests/test_pyqt4.py
robocorp/pyscreenshot
7cf03b23f4bdf1e4a2e3df1893de598e852dd346
[ "BSD-2-Clause" ]
1
2021-03-17T17:02:28.000Z
2021-03-17T17:02:28.000Z
tests/test_pyqt4.py
robocorp/rpaframework-screenshot
7cf03b23f4bdf1e4a2e3df1893de598e852dd346
[ "BSD-2-Clause" ]
null
null
null
tests/test_pyqt4.py
robocorp/rpaframework-screenshot
7cf03b23f4bdf1e4a2e3df1893de598e852dd346
[ "BSD-2-Clause" ]
null
null
null
from ref import backend_to_check, check_import if check_import("PyQt4"): def test_pyqt4(): backend_to_check("pyqt")
16.375
46
0.709924
19
131
4.526316
0.578947
0.209302
0.325581
0
0
0
0
0
0
0
0
0.018868
0.19084
131
7
47
18.714286
0.792453
0
0
0
0
0
0.069231
0
0
0
0
0
0
1
0.25
true
0
0.5
0
0.75
0
1
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0
null
1
1
0
0
0
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0
0
0
0
0
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1
1
0
1
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1
0
0
8
c60cdebfa33388396e6b5238af36dd3d0e5bdbbe
23,006
py
Python
barbican/tests/model/repositories/test_repositories_acls.py
mail2nsrajesh/barbican
d16d932b77486e9b2f8c6d30e628a6e66517b1a6
[ "Apache-2.0" ]
177
2015-01-02T09:35:53.000Z
2022-02-26T01:43:55.000Z
barbican/tests/model/repositories/test_repositories_acls.py
kkutysllb/barbican
7b14d983e0dce6dcffe9781b05c52335b8203fc7
[ "Apache-2.0" ]
5
2019-08-14T06:46:03.000Z
2021-12-13T20:01:25.000Z
barbican/tests/model/repositories/test_repositories_acls.py
kkutysllb/barbican
7b14d983e0dce6dcffe9781b05c52335b8203fc7
[ "Apache-2.0" ]
87
2015-01-13T17:33:40.000Z
2021-11-09T05:30:36.000Z
# 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 barbican.common import exception from barbican.model import models from barbican.model import repositories from barbican.tests import database_utils class TestACLMixin(object): def _assert_acl_users(self, user_ids, acls, acl_id, check_size=True): """Checks that all input users are present in matching acl users data. It also checks if number of acl users are same as input users when check_size flag is True. """ acls_map = self._map_id_to_acl(acls) acl_users = acls_map[acl_id].to_dict_fields()['users'] if check_size: self.assertEqual(len(user_ids), len(acl_users)) self.assertTrue(all(user_id in user_ids for user_id in acl_users)) def _map_id_to_acl(self, acls): """Provides dictionary of id and acl from acls list.""" m = {} for acl in acls: m[acl.id] = acl return m class WhenTestingSecretACLRepository(database_utils.RepositoryTestCase, TestACLMixin): def setUp(self): super(WhenTestingSecretACLRepository, self).setUp() self.acl_repo = repositories.get_secret_acl_repository() def _create_base_secret(self, project_id=None): # Setup the secret and needed base relationship secret_repo = repositories.get_secret_repository() session = secret_repo.get_session() if project_id is None: # don't re-create project if it created earlier project = models.Project() project.external_id = "keystone_project_id" project.save(session=session) project_id = project.id secret_model = models.Secret() secret_model.project_id = project_id secret = secret_repo.create_from(secret_model, session=session) secret.save(session=session) session.commit() return secret def test_get_by_secret_id(self): session = self.acl_repo.get_session() secret = self._create_base_secret() acls = self.acl_repo.get_by_secret_id(secret.id, session) self.assertEqual(0, len(acls)) acl1 = self.acl_repo.create_from(models.SecretACL(secret.id, 'read', True, ['u1', 'u2']), session) acls = self.acl_repo.get_by_secret_id(secret.id, session) self.assertEqual(1, len(acls)) self.assertEqual(acl1.id, acls[0].id) self.assertEqual('read', acls[0].operation) self._assert_acl_users(['u2', 'u1'], acls, acl1.id) def test_get_by_entity_id(self): session = self.acl_repo.get_session() secret = self._create_base_secret() acl1 = self.acl_repo.create_from(models.SecretACL( secret.id, 'read', True, ['u1', 'u2']), session) acl = self.acl_repo.get(acl1.id, session) self.assertIsNotNone(acl) self.assertEqual(acl1.id, acl.id) self.assertEqual('read', acl.operation) self._assert_acl_users(['u1', 'u2'], [acl], acl1.id) self.acl_repo.delete_entity_by_id(acl1.id, session) acl = self.acl_repo.get(acl1.id, session, suppress_exception=True) self.assertIsNone(acl) def test_should_raise_notfound_exception_get_by_entity_id(self): self.assertRaises(exception.NotFound, self.acl_repo.get, "invalid_id", suppress_exception=False) def test_create_or_replace_from_for_new_acls(self): """Check create_or_replace_from and get count call. It creates new acls with users and make sure that same users are returned when acls are queries by secret id. It uses get count to assert expected number of acls for that secret. """ session = self.acl_repo.get_session() secret = self._create_base_secret() acl1 = self.acl_repo.create_from(models.SecretACL( secret.id, 'read'), session) self.acl_repo.create_or_replace_from( secret, acl1, user_ids=['u1', 'u2'], session=session) acl2 = self.acl_repo.create_from(models.SecretACL( secret.id, 'write', False), session) self.acl_repo.create_or_replace_from( secret, acl2, user_ids=['u1', 'u2', 'u3'], session=session) acl3 = self.acl_repo.create_from(models.SecretACL( secret.id, 'delete'), session) self.acl_repo.create_or_replace_from( secret, acl3, user_ids=[], session=session) acls = self.acl_repo.get_by_secret_id(secret.id, session) self.assertEqual(3, len(acls)) id_map = self._map_id_to_acl(acls) self.assertTrue(id_map[acl1.id].project_access) self.assertFalse(id_map[acl2.id].project_access) self.assertEqual('read', id_map[acl1.id].operation) self.assertEqual('write', id_map[acl2.id].operation) self.assertEqual('delete', id_map[acl3.id].operation) # order of input users should not matter self._assert_acl_users(['u1', 'u2'], acls, acl1.id) self._assert_acl_users(['u2', 'u1'], acls, acl1.id) self._assert_acl_users(['u2', 'u1', 'u3'], acls, acl2.id) count = self.acl_repo.get_count(secret.id, session) self.assertEqual(3, count) self.assertEqual(count, len(acls)) def test_create_or_replace_from_with_none_or_blank_users(self): session = self.acl_repo.get_session() secret = self._create_base_secret() acl1 = self.acl_repo.create_from(models.SecretACL( secret.id, 'read'), session) self.acl_repo.create_or_replace_from( secret, acl1, user_ids=None, session=session) acl2 = self.acl_repo.create_from(models.SecretACL( secret.id, 'list'), session) self.acl_repo.create_or_replace_from( secret, acl1, user_ids=[], session=session) acls = self.acl_repo.get_by_secret_id(secret.id, session) id_map = self._map_id_to_acl(acls) self.assertIsNone(id_map[acl1.id].to_dict_fields().get('users')) self.assertIsNone(id_map[acl2.id].to_dict_fields().get('users')) def test_create_or_replace_from_for_existing_acls(self): """Check create_or_replace_from and get count call. It modifies existing acls with users and make sure that updated users and project_access flag changes are returned when acls are queries by secret id. It uses get count to assert expected number of acls for that secret. """ session = self.acl_repo.get_session() secret = self._create_base_secret() acl1 = self.acl_repo.create_from(models.SecretACL( secret.id, 'read'), session) self.acl_repo.create_or_replace_from( secret, acl1, user_ids=['u1', 'u2'], session=session) acl2 = self.acl_repo.create_from(models.SecretACL( secret.id, 'write'), session) self.acl_repo.create_or_replace_from( secret, acl2, user_ids=['u1', 'u2', 'u3'], session=session) acl3 = self.acl_repo.create_from(models.SecretACL( secret.id, 'list'), session) self.acl_repo.create_or_replace_from( secret, acl3, user_ids=[], session=session) acls = self.acl_repo.get_by_secret_id(secret.id, session) self.assertEqual(3, len(acls)) id_map = self._map_id_to_acl(acls) # replace users in existing acls id_map[acl1.id].project_access = False self.acl_repo.create_or_replace_from( secret, id_map[acl1.id], user_ids=['u5'], session=session) self.acl_repo.create_or_replace_from( secret, id_map[acl2.id], user_ids=['u1', 'u2', 'u3', 'u4'], session=session) self.acl_repo.create_or_replace_from( secret, id_map[acl3.id], user_ids=['u1', 'u2', 'u4'], session=session) session.commit() # commit the changes made so far acls = self.acl_repo.get_by_secret_id(secret.id, session) id_map = self._map_id_to_acl(acls) self.assertEqual(3, len(acls)) self.assertFalse(id_map[acl1.id].project_access) self.assertTrue(id_map[acl2.id].project_access) self.assertTrue(id_map[acl3.id].project_access) self._assert_acl_users(['u5'], acls, acl1.id) self._assert_acl_users(['u1', 'u2', 'u3', 'u4'], acls, acl2.id) self._assert_acl_users(['u1', 'u2', 'u4'], acls, acl3.id) def test_get_count(self): session = self.acl_repo.get_session() secret1 = self._create_base_secret() acl1 = self.acl_repo.create_from(models.SecretACL(secret1.id, 'read', None, ['u1', 'u2']), session) self.acl_repo.create_or_replace_from(secret1, acl1) secret2 = self._create_base_secret(secret1.project.id) acl21 = self.acl_repo.create_from(models.SecretACL(secret2.id, 'read', None, ['u3', 'u4']), session) self.acl_repo.create_or_replace_from(secret2, acl21) acl22 = self.acl_repo.create_from(models.SecretACL(secret2.id, 'write', None, ['u5', 'u6']), session) self.acl_repo.create_or_replace_from(secret2, acl22) self.assertEqual(1, self.acl_repo.get_count(secret1.id)) self.assertEqual(2, self.acl_repo.get_count(secret2.id)) def test_delete_single_acl_and_count(self): session = self.acl_repo.get_session() secret = self._create_base_secret() acl1 = self.acl_repo.create_from(models.SecretACL(secret.id, 'read', None, ['u1', 'u2']), session) self.acl_repo.create_or_replace_from(secret, acl1) acl2 = self.acl_repo.create_from( models.SecretACL(secret.id, 'write'), session) self.acl_repo.create_or_replace_from( secret, acl2, user_ids=['u1', 'u2', 'u3']) acl3 = self.acl_repo.create_from(models.SecretACL( secret.id, 'list'), session) self.acl_repo.create_or_replace_from(secret, acl3, user_ids=['u1', 'u3']) count = self.acl_repo.get_count(secret.id) self.assertEqual(3, count) self.acl_repo.delete_entity_by_id(acl2.id, None) session.commit() self.assertEqual(2, len(secret.secret_acls)) deleted_acl = self.acl_repo.get(acl2.id, suppress_exception=True) self.assertIsNone(deleted_acl) acls = self.acl_repo.get_by_secret_id(secret.id) self.assertEqual(2, len(acls)) count = self.acl_repo.get_count(secret.id) self.assertEqual(2, count) def test_delete_acls_for_secret(self): session = self.acl_repo.get_session() secret = self._create_base_secret() acl1 = self.acl_repo.create_from(models.SecretACL( secret.id, 'read'), session) self.acl_repo.create_or_replace_from( secret, acl1, user_ids=['u1', 'u2'], session=session) acl2 = self.acl_repo.create_from(models.SecretACL( secret.id, 'write'), session) self.acl_repo.create_or_replace_from( secret, acl2, user_ids=['u1', 'u2', 'u3'], session=session) self.acl_repo.delete_acls_for_secret(secret) acls = self.acl_repo.get_by_secret_id(secret.id) self.assertEqual(0, len(acls)) class WhenTestingContainerACLRepository(database_utils.RepositoryTestCase, TestACLMixin): def setUp(self): super(WhenTestingContainerACLRepository, self).setUp() self.acl_repo = repositories.get_container_acl_repository() def _create_base_container(self, project_id=None): # Setup the container and needed base relationship container_repo = repositories.get_container_repository() session = container_repo.get_session() if project_id is None: project = models.Project() project.external_id = "keystone_project_id" project.save(session=session) project_id = project.id container = models.Container() container.project_id = project_id container.save(session=session) session.commit() return container def test_get_by_container_id(self): session = self.acl_repo.get_session() container = self._create_base_container() acls = self.acl_repo.get_by_container_id(container.id, session) self.assertEqual(0, len(acls)) acl1 = self.acl_repo.create_from(models.ContainerACL(container.id, 'read', True, ['u1', 'u2']), session) acls = self.acl_repo.get_by_container_id(container.id, session) self.assertEqual(1, len(acls)) self.assertEqual(acl1.id, acls[0].id) self.assertEqual('read', acls[0].operation) self._assert_acl_users(['u1', 'u2'], acls, acl1.id) def test_get_by_entity_id(self): session = self.acl_repo.get_session() container = self._create_base_container() acl1 = self.acl_repo.create_from(models.ContainerACL( container.id, 'read', True, ['u1', 'u2']), session) acl = self.acl_repo.get(acl1.id, session) self.assertIsNotNone(acl) self.assertEqual(acl1.id, acl.id) self.assertEqual('read', acl.operation) self._assert_acl_users(['u1', 'u2'], [acl], acl1.id) self.acl_repo.delete_entity_by_id(acl1.id, session) acl = self.acl_repo.get(acl1.id, session, suppress_exception=True) self.assertIsNone(acl) def test_should_raise_notfound_exception_get_by_entity_id(self): self.assertRaises(exception.NotFound, self.acl_repo.get, "invalid_id", suppress_exception=False) def test_create_or_replace_from_for_new_acls(self): """Check create_or_replace_from and get count call. It creates new acls with users and make sure that same users are returned when acls are queries by secret id. It uses get count to assert expected number of acls for that secret. """ session = self.acl_repo.get_session() container = self._create_base_container() acl1 = self.acl_repo.create_from(models.ContainerACL( container.id, 'read'), session) self.acl_repo.create_or_replace_from( container, acl1, user_ids=['u1', 'u2'], session=session) acl2 = self.acl_repo.create_from(models.ContainerACL( container.id, 'write', False), session) self.acl_repo.create_or_replace_from( container, acl2, user_ids=['u1', 'u2', 'u3'], session=session) acl3 = self.acl_repo.create_from(models.ContainerACL( container.id, 'list'), session) self.acl_repo.create_or_replace_from( container, acl3, user_ids=[], session=session) acls = self.acl_repo.get_by_container_id(container.id, session) self.assertEqual(3, len(acls)) id_map = self._map_id_to_acl(acls) self.assertTrue(id_map[acl1.id].project_access) self.assertFalse(id_map[acl2.id].project_access) self.assertEqual('read', id_map[acl1.id].operation) self.assertEqual('write', id_map[acl2.id].operation) self.assertEqual('list', id_map[acl3.id].operation) # order of input users should not matter self._assert_acl_users(['u1', 'u2'], acls, acl1.id) self._assert_acl_users(['u2', 'u1'], acls, acl1.id) self._assert_acl_users(['u2', 'u1', 'u3'], acls, acl2.id) count = self.acl_repo.get_count(container.id, session) self.assertEqual(3, count) self.assertEqual(count, len(acls)) def test_create_or_replace_from_with_none_or_blank_users(self): session = self.acl_repo.get_session() container = self._create_base_container() acl1 = self.acl_repo.create_from(models.ContainerACL( container.id, 'read'), session) self.acl_repo.create_or_replace_from( container, acl1, user_ids=None, session=session) acl2 = self.acl_repo.create_from(models.ContainerACL( container.id, 'write'), session) self.acl_repo.create_or_replace_from( container, acl1, user_ids=[], session=session) acls = self.acl_repo.get_by_container_id(container.id, session) id_map = self._map_id_to_acl(acls) self.assertIsNone(id_map[acl1.id].to_dict_fields().get('users')) self.assertIsNone(id_map[acl2.id].to_dict_fields().get('users')) def test_create_or_replace_from_for_existing_acls(self): """Check create_or_replace_from and get count call. It modifies existing acls with users and make sure that updated users and project_access flag changes are returned when acls are queries by secret id. It uses get count to assert expected number of acls for that secret. """ session = self.acl_repo.get_session() container = self._create_base_container() acl1 = self.acl_repo.create_from(models.ContainerACL( container.id, 'read'), session) self.acl_repo.create_or_replace_from( container, acl1, user_ids=['u1', 'u2'], session=session) acl2 = self.acl_repo.create_from(models.ContainerACL( container.id, 'write'), session) self.acl_repo.create_or_replace_from( container, acl2, user_ids=['u1', 'u2', 'u3'], session=session) acl3 = self.acl_repo.create_from(models.ContainerACL( container.id, 'list'), session) self.acl_repo.create_or_replace_from( container, acl3, user_ids=[], session=session) acls = self.acl_repo.get_by_container_id(container.id, session) self.assertEqual(3, len(acls)) id_map = self._map_id_to_acl(acls) # replace users in existing acls id_map[acl1.id].project_access = False self.acl_repo.create_or_replace_from( container, id_map[acl1.id], user_ids=['u5'], session=session) self.acl_repo.create_or_replace_from( container, id_map[acl2.id], user_ids=['u1', 'u2', 'u3', 'u4'], session=session) self.acl_repo.create_or_replace_from( container, id_map[acl3.id], user_ids=['u1', 'u2', 'u4'], session=session) session.commit() acls = self.acl_repo.get_by_container_id(container.id, session) id_map = self._map_id_to_acl(acls) self.assertEqual(3, len(acls)) self.assertFalse(id_map[acl1.id].project_access) self.assertTrue(id_map[acl2.id].project_access) self.assertTrue(id_map[acl3.id].project_access) self._assert_acl_users(['u5'], acls, acl1.id) self._assert_acl_users(['u1', 'u2', 'u3', 'u4'], acls, acl2.id) self._assert_acl_users(['u1', 'u2', 'u4'], acls, acl3.id) def test_get_count(self): session = self.acl_repo.get_session() container1 = self._create_base_container() acl1 = self.acl_repo.create_from(models.ContainerACL( container1.id, 'read', None, ['u1', 'u2']), session) self.acl_repo.create_or_replace_from(container1, acl1) container2 = self._create_base_container(container1.project_id) acl21 = self.acl_repo.create_from(models.ContainerACL( container2.id, 'read', None, ['u3', 'u4']), session) self.acl_repo.create_or_replace_from(container2, acl21) acl22 = self.acl_repo.create_from(models.ContainerACL( container2.id, 'write', None, ['u5', 'u6']), session) self.acl_repo.create_or_replace_from(container2, acl22) self.assertEqual(1, self.acl_repo.get_count(container1.id)) self.assertEqual(2, self.acl_repo.get_count(container2.id)) def test_delete_single_acl_and_count(self): session = self.acl_repo.get_session() container = self._create_base_container() acl1 = self.acl_repo.create_from(models.ContainerACL( container.id, 'read'), session) self.acl_repo.create_or_replace_from(container, acl1, user_ids=['u1', 'u2']) acl2 = self.acl_repo.create_from(models.ContainerACL( container.id, 'write'), session) self.acl_repo.create_or_replace_from(container, acl2, user_ids=['u1', 'u2', 'u3']) acl3 = self.acl_repo.create_from(models.ContainerACL( container.id, 'list'), session) self.acl_repo.create_or_replace_from(container, acl3, user_ids=['u1', 'u3']) count = self.acl_repo.get_count(container.id) self.assertEqual(3, count) self.acl_repo.delete_entity_by_id(acl2.id, None) session.commit() # commit the changes made so far self.assertEqual(2, len(container.container_acls)) deleted_acl = self.acl_repo.get(acl2.id, suppress_exception=True) self.assertIsNone(deleted_acl) acls = self.acl_repo.get_by_container_id(container.id) self.assertEqual(2, len(acls)) count = self.acl_repo.get_count(container.id) self.assertEqual(2, count) def test_delete_acls_for_secret(self): session = self.acl_repo.get_session() container = self._create_base_container() acl1 = self.acl_repo.create_from(models.ContainerACL( container.id, 'read'), session) self.acl_repo.create_or_replace_from( container, acl1, user_ids=['u1', 'u2'], session=session) acl2 = self.acl_repo.create_from(models.ContainerACL( container.id, 'write'), session) self.acl_repo.create_or_replace_from( container, acl2, user_ids=['u1', 'u2', 'u3'], session=session) self.acl_repo.delete_acls_for_container(container) acls = self.acl_repo.get_by_container_id(container.id) self.assertEqual(0, len(acls))
42.762082
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7
c642a2362840de97f505db948cda97a8a001613f
13,237
py
Python
tests/test_app/tests/test_api.py
anudeepsamaiya/django-reversion-rest-framework
b8470fb93e1ff39cd9e80e7301988a1f6891882b
[ "MIT" ]
null
null
null
tests/test_app/tests/test_api.py
anudeepsamaiya/django-reversion-rest-framework
b8470fb93e1ff39cd9e80e7301988a1f6891882b
[ "MIT" ]
null
null
null
tests/test_app/tests/test_api.py
anudeepsamaiya/django-reversion-rest-framework
b8470fb93e1ff39cd9e80e7301988a1f6891882b
[ "MIT" ]
null
null
null
from django.contrib.auth.models import User from django.urls import reverse from rest_framework import status from rest_framework.test import APITestCase from test_app.models import TestModel class AuthApiTestCase(APITestCase): def setUp(self): super().setUp() self.user1 = User.objects.create_user( 'user1', 'user1@email.it', 'password') self.user2 = User.objects.create_user( 'user2', 'user2@email.it', 'password') self.client.login(username='user1', password='password') class TestModelViewSetTests(AuthApiTestCase): def test_create_test_model(self): """ Ensure we have history after creating a TestModel object. """ url = reverse('testmodel-list') data = {'name': 'Foo 1.1.0'} response = self.client.post(url, data, format='json') self.assertEqual(response.status_code, status.HTTP_201_CREATED) url = reverse('testmodel-history', kwargs={'pk': response.data['id']}) response = self.client.get(url, format='json') self.assertEqual(len(response.data), 1) self.assertIsNotNone(response.data[0]['id']) self.assertIsNotNone(response.data[0]['revision']['date_created']) self.assertEqual(response.data[0]['revision']['user'], 1) self.assertIsNotNone(response.data[0]['revision']['comment']) self.assertEqual(response.data[0]['field_dict']['name'], 'Foo 1.1.0') def test_editing_test_model(self): """ Ensure we have history after editing a TestModel object. """ url = reverse('testmodel-list') data = {'name': 'Foo 1.2.0'} response = self.client.post(url, data, format='json') self.client.login(username='user2', password='password') url = reverse('testmodel-detail', kwargs={'pk': response.data['id']}) data = {'name': 'Foo 1.2.1'} response = self.client.patch(url, data, format='json') self.assertEqual(response.status_code, status.HTTP_200_OK) url = reverse('testmodel-history', kwargs={'pk': response.data['id']}) response = self.client.get(url, format='json') self.assertEqual(len(response.data), 2) self.assertIsNotNone(response.data[0]['id']) self.assertIsNotNone(response.data[0]['revision']['date_created']) self.assertEqual(response.data[0]['revision']['user'], 2) self.assertIsNotNone(response.data[0]['revision']['comment']) self.assertEqual(response.data[0]['field_dict']['name'], 'Foo 1.2.1') self.assertIsNotNone(response.data[1]['id']) self.assertIsNotNone(response.data[1]['revision']['date_created']) self.assertEqual(response.data[1]['revision']['user'], 1) self.assertIsNotNone(response.data[1]['revision']['comment']) self.assertEqual(response.data[1]['field_dict']['name'], 'Foo 1.2.0') def test_deleting_test_model(self): """ Ensure we have deletion history after deleting a TestModel object. """ url = reverse('testmodel-list') data = {'name': 'Foo 1.2.0'} response = self.client.post(url, data, format='json') test_model_1 = TestModel.objects.get() url = reverse('testmodel-detail', kwargs={'pk': test_model_1.pk}) response = self.client.delete(url, format='json') self.assertEqual(response.status_code, status.HTTP_204_NO_CONTENT) url = reverse('testmodel-deleted') response = self.client.get(url, format='json') self.assertEqual(len(response.data), 1) self.assertIsNotNone(response.data[0]['id']) self.assertIsNotNone(response.data[0]['revision']['date_created']) self.assertEqual(response.data[0]['revision']['user'], 1) self.assertIsNotNone(response.data[0]['revision']['comment']) self.assertEqual(response.data[0]['field_dict']['id'], test_model_1.pk) self.assertEqual(response.data[0]['field_dict']['name'], 'Foo 1.2.0') def test_reverting_test_model(self): """ Ensure we have history after reverting a TestModel object. """ url = reverse('testmodel-list') data = {'name': 'Foo 1.2.0'} response = self.client.post(url, data, format='json') self.client.login(username='user2', password='password') url = reverse('testmodel-detail', kwargs={'pk': response.data['id']}) data = {'name': 'Foo 1.2.1'} response = self.client.patch(url, data, format='json') self.assertEqual(response.status_code, status.HTTP_200_OK) pk = response.data['id'] url = reverse('testmodel-history', kwargs={'pk': pk}) response = self.client.get(url, format='json') url = reverse('testmodel-revert', kwargs={ 'pk': pk, 'version_pk': response.data[1]['id'], }) response = self.client.post(url, data, format='json') self.assertIsNotNone(response.data['id']) self.assertIsNotNone(response.data['revision']['date_created']) self.assertEqual(response.data['revision']['user'], 1) self.assertIsNotNone(response.data['revision']['comment']) self.assertEqual(response.data['field_dict']['name'], 'Foo 1.2.0') url = reverse('testmodel-history', kwargs={'pk': pk}) response = self.client.get(url, format='json') self.assertEqual(len(response.data), 3) self.assertIsNotNone(response.data[0]['id']) self.assertIsNotNone(response.data[0]['revision']['date_created']) self.assertEqual(response.data[0]['revision']['user'], 2) self.assertIsNotNone(response.data[0]['revision']['comment']) self.assertEqual(response.data[0]['field_dict']['name'], 'Foo 1.2.0') self.assertIsNotNone(response.data[1]['id']) self.assertIsNotNone(response.data[1]['revision']['date_created']) self.assertEqual(response.data[1]['revision']['user'], 2) self.assertIsNotNone(response.data[1]['revision']['comment']) self.assertEqual(response.data[1]['field_dict']['name'], 'Foo 1.2.1') self.assertIsNotNone(response.data[2]['id']) self.assertIsNotNone(response.data[2]['revision']['date_created']) self.assertEqual(response.data[2]['revision']['user'], 1) self.assertIsNotNone(response.data[2]['revision']['comment']) self.assertEqual(response.data[2]['field_dict']['name'], 'Foo 1.2.0') class TestModelsCustomSerializerViewSetTests(AuthApiTestCase): def test_create_test_model(self): """ Ensure we have history after creating a TestModel object. """ url = reverse('testmodelcustom-list') data = {'name': 'Foo 1.1.0'} response = self.client.post(url, data, format='json') self.assertEqual(response.status_code, status.HTTP_201_CREATED) url = reverse('testmodelcustom-history', kwargs={'pk': response.data['id']}) response = self.client.get(url, format='json') self.assertEqual(len(response.data), 1) self.assertIsNotNone(response.data[0]['id']) self.assertIsNotNone(response.data[0]['revision']['date_created']) self.assertEqual(response.data[0]['revision']['user']['id'], 1) self.assertEqual(response.data[0]['revision']['user']['username'], 'user1') self.assertIsNotNone(response.data[0]['revision']['comment']) self.assertEqual(response.data[0]['field_dict']['name'], 'Foo 1.1.0') def test_editing_test_model(self): """ Ensure we have history after editing a TestModel object. """ url = reverse('testmodelcustom-list') data = {'name': 'Foo 1.2.0'} response = self.client.post(url, data, format='json') self.client.login(username='user2', password='password') url = reverse('testmodelcustom-detail', kwargs={'pk': response.data['id']}) data = {'name': 'Foo 1.2.1'} response = self.client.patch(url, data, format='json') self.assertEqual(response.status_code, status.HTTP_200_OK) url = reverse('testmodelcustom-history', kwargs={'pk': response.data['id']}) response = self.client.get(url, format='json') self.assertEqual(len(response.data), 2) self.assertIsNotNone(response.data[0]['id']) self.assertIsNotNone(response.data[0]['revision']['date_created']) self.assertEqual(response.data[0]['revision']['user']['id'], 2) self.assertEqual(response.data[0]['revision']['user']['username'], 'user2') self.assertIsNotNone(response.data[0]['revision']['comment']) self.assertEqual(response.data[0]['field_dict']['name'], 'Foo 1.2.1') self.assertIsNotNone(response.data[1]['id']) self.assertIsNotNone(response.data[1]['revision']['date_created']) self.assertEqual(response.data[1]['revision']['user']['id'], 1) self.assertEqual(response.data[1]['revision']['user']['username'], 'user1') self.assertIsNotNone(response.data[1]['revision']['comment']) self.assertEqual(response.data[1]['field_dict']['name'], 'Foo 1.2.0') def test_deleting_test_model(self): """ Ensure we have deletion history after deleting a TestModel object. """ url = reverse('testmodelcustom-list') data = {'name': 'Foo 1.2.0'} response = self.client.post(url, data, format='json') test_model_1 = TestModel.objects.get() url = reverse('testmodelcustom-detail', kwargs={'pk': test_model_1.pk}) response = self.client.delete(url, format='json') self.assertEqual(response.status_code, status.HTTP_204_NO_CONTENT) url = reverse('testmodelcustom-deleted') response = self.client.get(url, format='json') self.assertEqual(len(response.data), 1) self.assertIsNotNone(response.data[0]['id']) self.assertIsNotNone(response.data[0]['revision']['date_created']) self.assertEqual(response.data[0]['revision']['user']['id'], 1) self.assertEqual(response.data[0]['revision']['user']['username'], 'user1') self.assertIsNotNone(response.data[0]['revision']['comment']) self.assertEqual(response.data[0]['field_dict']['id'], test_model_1.pk) self.assertEqual(response.data[0]['field_dict']['name'], 'Foo 1.2.0') def test_reverting_test_model(self): """ Ensure we have history after reverting a TestModel object. """ url = reverse('testmodelcustom-list') data = {'name': 'Foo 1.2.0'} response = self.client.post(url, data, format='json') self.client.login(username='user2', password='password') url = reverse('testmodelcustom-detail', kwargs={'pk': response.data['id']}) data = {'name': 'Foo 1.2.1'} response = self.client.patch(url, data, format='json') self.assertEqual(response.status_code, status.HTTP_200_OK) pk = response.data['id'] url = reverse('testmodelcustom-history', kwargs={'pk': pk}) response = self.client.get(url, format='json') url = reverse('testmodelcustom-revert', kwargs={ 'pk': pk, 'version_pk': response.data[1]['id'], }) response = self.client.post(url, data, format='json') self.assertIsNotNone(response.data['id']) self.assertIsNotNone(response.data['revision']['date_created']) self.assertEqual(response.data['revision']['user']['id'], 1) self.assertEqual(response.data['revision']['user']['username'], 'user1') self.assertIsNotNone(response.data['revision']['comment']) self.assertEqual(response.data['field_dict']['name'], 'Foo 1.2.0') url = reverse('testmodelcustom-history', kwargs={'pk': pk}) response = self.client.get(url, format='json') self.assertEqual(len(response.data), 3) self.assertIsNotNone(response.data[0]['id']) self.assertIsNotNone(response.data[0]['revision']['date_created']) self.assertEqual(response.data[0]['revision']['user']['id'], 2) self.assertEqual(response.data[0]['revision']['user']['username'], 'user2') self.assertIsNotNone(response.data[0]['revision']['comment']) self.assertEqual(response.data[0]['field_dict']['name'], 'Foo 1.2.0') self.assertIsNotNone(response.data[1]['id']) self.assertIsNotNone(response.data[1]['revision']['date_created']) self.assertEqual(response.data[1]['revision']['user']['id'], 2) self.assertEqual(response.data[1]['revision']['user']['username'], 'user2') self.assertIsNotNone(response.data[1]['revision']['comment']) self.assertEqual(response.data[1]['field_dict']['name'], 'Foo 1.2.1') self.assertIsNotNone(response.data[2]['id']) self.assertIsNotNone(response.data[2]['revision']['date_created']) self.assertEqual(response.data[2]['revision']['user']['id'], 1) self.assertEqual(response.data[2]['revision']['user']['username'], 'user1') self.assertIsNotNone(response.data[2]['revision']['comment']) self.assertEqual(response.data[2]['field_dict']['name'], 'Foo 1.2.0')
49.763158
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false
0.033333
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9
d65f9408fe139665492443735ebf4413417f83a3
239
py
Python
scripts/compile-test.py
jorgebonilla/quickstart-aviatrix-nextgentransithub
dd44733e0715bb06cd692c6b4817fd74e10ad2ee
[ "Apache-2.0" ]
null
null
null
scripts/compile-test.py
jorgebonilla/quickstart-aviatrix-nextgentransithub
dd44733e0715bb06cd692c6b4817fd74e10ad2ee
[ "Apache-2.0" ]
null
null
null
scripts/compile-test.py
jorgebonilla/quickstart-aviatrix-nextgentransithub
dd44733e0715bb06cd692c6b4817fd74e10ad2ee
[ "Apache-2.0" ]
null
null
null
import py_compile py_compile.compile('../quickstart-aviatrix/scripts/aviatrix_poller.py') py_compile.compile('../quickstart-aviatrix/scripts/aviatrix_controller.py') py_compile.compile('../quickstart-aviatrix/scripts/aviatrix_gateway.py')
47.8
75
0.828452
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239
6.366667
0.3
0.188482
0.251309
0.408377
0.790576
0.790576
0.790576
0.534031
0
0
0
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0.020921
239
4
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59.75
0.816239
0
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0.635983
0.635983
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true
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1
0
0
0
0
0
0
8
d6a76eed0b9482f23f008623fae3003d68ad2e7c
4,133
py
Python
TradeAlgorithm/update_csv.py
jepetolee/CRYPTONALYTICS
0409d709fdc9b344cca59971996ded3766b6be87
[ "MIT" ]
1
2022-01-27T08:46:57.000Z
2022-01-27T08:46:57.000Z
TradeAlgorithm/update_csv.py
jepetolee/CRYPTONALYTICS
0409d709fdc9b344cca59971996ded3766b6be87
[ "MIT" ]
null
null
null
TradeAlgorithm/update_csv.py
jepetolee/CRYPTONALYTICS
0409d709fdc9b344cca59971996ded3766b6be87
[ "MIT" ]
null
null
null
import pandas as pd from binance.client import Client import TradeAlgorithm.trace_current_price as tp from tqdm import trange from multiprocessing import Process def update_future_1hour_csv(symbol): client = Client(api_key="", api_secret="") url = 'D:/CRYPTONALYTICS/TradeAlgorithm/csv/future/1hour/1hour_data_' + symbol + ".csv" try: data = pd.read_csv(url) data_time = data['0'].copy().to_numpy().astype('datetime64[ms]') day = pd.DataFrame( client.futures_historical_klines(symbol=symbol, interval='1h', start_str=str(data_time[-1]), limit=1000)) day.to_csv('./temp.csv') day = pd.read_csv('./temp.csv') data.drop(['Unnamed: 0'], axis=1, inplace=True) day.drop(['Unnamed: 0'], axis=1, inplace=True) data = pd.concat([data, day], ignore_index=True) data.to_csv(url) except FileNotFoundError: pass def update_future_15min_csv(symbol): client = Client(api_key="", api_secret="") url = 'D:/CRYPTONALYTICS/TradeAlgorithm/csv/future/15min/15min_data_' + symbol + ".csv" try: data = pd.read_csv(url) data_time = data['0'].copy().to_numpy().astype('datetime64[ms]') day = pd.DataFrame( client.futures_historical_klines(symbol=symbol, interval='15m', start_str=str(data_time[-1]), limit=1000)) day.to_csv('./temp.csv') day = pd.read_csv('./temp.csv') data.drop(['Unnamed: 0'], axis=1, inplace=True) day.drop(['Unnamed: 0'], axis=1, inplace=True) data = pd.concat([data, day], ignore_index=True) data.to_csv(url) except FileNotFoundError: pass def update_future_1min_csv(symbol): client = Client(api_key="", api_secret="") url = 'D:/CRYPTONALYTICS/TradeAlgorithm/csv/future/1min/1min_data_' + symbol + ".csv" try: data = pd.read_csv(url) data_time = data['0'].copy().to_numpy().astype('datetime64[ms]') day = pd.DataFrame( client.futures_historical_klines(symbol=symbol, interval='1m', start_str=str(data_time[-1]), limit=1000)) day.to_csv('./temp.csv') day = pd.read_csv('./temp.csv') data.drop(['Unnamed: 0'], axis=1, inplace=True) day.drop(['Unnamed: 0'], axis=1, inplace=True) data = pd.concat([data, day], ignore_index=True) data.to_csv(url) except FileNotFoundError: pass def update_future_1day_csv(symbol): client = Client(api_key="", api_secret="") url = 'D:/CRYPTONALYTICS/TradeAlgorithm/csv/future/1day/1day_data_' + symbol + ".csv" try: data = pd.read_csv(url) data_time = data['0'].copy().to_numpy().astype('datetime64[ms]') day = pd.DataFrame( client.futures_historical_klines(symbol=symbol, interval='1d', start_str=str(data_time[-1]), limit=1000)) day.to_csv('./temp.csv') day = pd.read_csv('./temp.csv') data.drop(['Unnamed: 0'], axis=1, inplace=True) day.drop(['Unnamed: 0'], axis=1, inplace=True) data = pd.concat([data, day], ignore_index=True) data.to_csv(url) except FileNotFoundError: pass def update_future_4hour_csv(symbol): client = Client(api_key="", api_secret="") url = 'D:/CRYPTONALYTICS/TradeAlgorithm/csv/future/4hour/4hour_data_' + symbol + ".csv" try: data = pd.read_csv(url) data_time = data['0'].copy().to_numpy().astype('datetime64[ms]') day = pd.DataFrame( client.futures_historical_klines(symbol=symbol, interval='4h', start_str=str(data_time[-1]), limit=1000)) day.to_csv('./temp.csv') day = pd.read_csv('./temp.csv') data.drop(['Unnamed: 0'], axis=1, inplace=True) day.drop(['Unnamed: 0'], axis=1, inplace=True) data = pd.concat([data, day], ignore_index=True) data.to_csv(url) except FileNotFoundError: pass
35.324786
105
0.59279
524
4,133
4.5
0.135496
0.025445
0.038168
0.067854
0.901187
0.901187
0.901187
0.901187
0.901187
0.901187
0
0.027255
0.254295
4,133
117
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35.324786
0.737833
0
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0.777778
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0.146831
0.072811
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0.055556
false
0.055556
0.055556
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0.111111
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1
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8
d6e9c170591f18a9cce3ef9534ea8cf165796758
48
py
Python
core/io/io.py
ponyatov/metaLpy
96149313e8083536ade1c331825242f6996f05b3
[ "MIT" ]
null
null
null
core/io/io.py
ponyatov/metaLpy
96149313e8083536ade1c331825242f6996f05b3
[ "MIT" ]
null
null
null
core/io/io.py
ponyatov/metaLpy
96149313e8083536ade1c331825242f6996f05b3
[ "MIT" ]
null
null
null
from core import * class IO(Object): pass
8
18
0.645833
7
48
4.428571
1
0
0
0
0
0
0
0
0
0
0
0
0.270833
48
5
19
9.6
0.885714
0
0
0
0
0
0
0
0
0
0
0
0
1
0
true
0.333333
0.333333
0
0.666667
0
1
1
0
null
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null
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1
1
1
0
1
0
0
7
ba31337a2dc61a8bad9fcbe02081a5d57a452a18
393
py
Python
demofi/model.py
h-bar/demofi-api
504f44cebb04f21b0526ab31c35cb49557478288
[ "MIT" ]
null
null
null
demofi/model.py
h-bar/demofi-api
504f44cebb04f21b0526ab31c35cb49557478288
[ "MIT" ]
null
null
null
demofi/model.py
h-bar/demofi-api
504f44cebb04f21b0526ab31c35cb49557478288
[ "MIT" ]
null
null
null
class abstractModel: def init_model(self): raise NotImplementedError("Please implement init_model interface in your model class") def run_model(self, data: {}, param: {}) -> {}: raise NotImplementedError("Please implement run_model interface in your model class") def delete_model(self): raise NotImplementedError("Please implement run_model interface in your model class")
43.666667
90
0.760814
49
393
5.979592
0.346939
0.09215
0.307167
0.399317
0.808874
0.808874
0.614334
0.491468
0.491468
0.491468
0
0
0.152672
393
9
91
43.666667
0.87988
0
0
0.285714
0
0
0.428934
0
0
0
0
0
0
1
0.428571
false
0
0
0
0.571429
0
0
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0
null
0
1
1
1
1
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0
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null
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0
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0
1
0
0
0
0
1
0
0
7
ba790c10959231f5a616b1a5e6fda4be2b406b0a
23,417
py
Python
master/pyext/src/validation/sas_plots.py
saijananiganesan/IHMValidation
c3bb0ef65f6104368a103ee429dcf264285ba936
[ "MIT" ]
1
2019-11-25T18:38:31.000Z
2019-11-25T18:38:31.000Z
master/pyext/src/validation/sas_plots.py
saijananiganesan/IHM_Validation
f1aec61bc2f8de7717f20024b7fb712d94733d4f
[ "MIT" ]
2
2019-12-08T03:42:39.000Z
2020-04-13T19:32:45.000Z
master/pyext/src/validation/sas_plots.py
saijananiganesan/IHMValidation
c3bb0ef65f6104368a103ee429dcf264285ba936
[ "MIT" ]
null
null
null
################################### # Script : # 1) Contains class to generate SAS # plots # 2) Inherits from SAS class # # ganesans - Salilab - UCSF # ganesans@salilab.org ################################### import pandas as pd import os from validation import sas, GetInputInformation from bokeh.io import output_file, export_svgs, export_png from bokeh.models import Span, ColumnDataSource from bokeh.plotting import figure, save class SasValidationPlots(sas.SasValidation): def __init__(self, mmcif_file, imageDirName): super().__init__(mmcif_file) self.ID = str(GetInputInformation.get_id(self)) self.df_dict = sas.SasValidation.modify_intensity(self) self.pdf_dict = sas.SasValidation.get_pddf(self) self.fdf_dict = sas.SasValidation.get_fit_data(self) self.pdf_ext_dict = sas.SasValidation.get_pofr_ext(self) self.pdf_dict_err = sas.SasValidation.get_pofr_errors(self) self.score, self.gdf = sas.SasValidation.get_Guinier_data(self) self.imageDirName = imageDirName self.filename = os.path.join(self.imageDirName) def plot_intensities(self, sasbdb: str, df: pd.DataFrame): ''' plot intensities with errors ''' output_file(self.ID+sasbdb+"intensities.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Log I(q) vs q with error bars ("+sasbdb+")") p.circle(x='Q', y='logI', source=source, color='blue', fill_alpha=0.3, size=5) p.multi_line('err_x', 'err_y', source=source, color='gray', line_width=0.5) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = "q [nm\u207B\u00B9]" p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'Log I(q) [a.u]' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/'+self.ID+sasbdb+"intensities.html") p.output_backend = "svg" export_svgs(p, height=500, width=500, filename=self.filename + '/'+self.ID+sasbdb+"intensities.svg") export_png(p, height=500, width=500, filename=self.filename + '/'+self.ID+sasbdb+"intensities.png") def plot_intensities_log(self, sasbdb: str, df: pd.DataFrame): ''' plot intensities on a log scale with errors ''' output_file(self.ID+sasbdb+"intensities_log.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Log I(q) vs Log q with error bars ("+sasbdb+")") p.circle(x='logQ', y='logI', source=source, color='blue', fill_alpha=0.3, size=5) p.multi_line('logX', 'err_y', source=source, color='gray', line_width=0.5) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = 'Log q [nm\u207B\u00B9]' p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'Log I(q) [a.u]' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/' + self.ID+sasbdb+"intensities_log.html") p.output_backend = "svg" export_svgs(p, height=500, width=500, filename=self.filename + '/'+self.ID+sasbdb+"intensities_log.svg") export_png(p, height=500, width=500, filename=self.filename + '/'+self.ID+sasbdb+"intensities_log.png") def plot_kratky_dep(self, sasbdb: str, df: pd.DataFrame): ''' plot kratky plot, deprecated function ''' output_file(self.ID+sasbdb+"Kratky_dep.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Kratky plot ("+sasbdb+")") p.circle(x='Q', y='Ky', source=source, color='blue', fill_alpha=0.3, size=5) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = 'Log q [nm\u207B\u00B9]' p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'q\u00B2 I(q)' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/'+self.ID+sasbdb+"Kratky_dep.html") p.output_backend = "svg" export_svgs(p, filename=self.filename+'/' + self.ID+sasbdb+"Kratky_dep.svg") export_png(p, height=500, width=500, filename=self.filename+'/' + self.ID+sasbdb+"Kratky_dep.png") def plot_kratky(self, sasbdb: str, df: pd.DataFrame): ''' plot dimensionless kratky ''' output_file(self.ID+sasbdb+"Kratky.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Dimensionless Kratky plot ("+sasbdb+")") p.circle(x='Kx', y='Ky', source=source, color='blue', fill_alpha=0.3, size=5) # vline = Span(location=0.1732, dimension='height', line_color='red', line_width=3) # hline = Span(location=0.1104, dimension='width', line_color='green', line_width=3) # p.renderers.extend([vline, hline]) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = 'qRg' p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'q\u00B2 Rg\u00B2 I(q)/I(0)' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/'+self.ID+sasbdb+"Kratky.html") p.output_backend = "svg" export_svgs(p, filename=self.filename+'/'+self.ID+sasbdb+"Kratky.svg") export_png(p, height=500, width=500, filename=self.filename+'/'+self.ID+sasbdb+"Kratky.png") def plot_porod_debye(self, sasbdb: str, df: pd.DataFrame): ''' porod debye plot for flexibility ''' output_file(self.ID+sasbdb+"porod.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Porod-Debye plot ("+sasbdb+")") p.circle(x='Px', y='Py', source=source, color='blue', fill_alpha=0.3, size=5) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = 'q \u2074' p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'q\u2074 I(q)' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' p.output_backend = "svg" save(p, filename=self.filename+'/'+self.ID+sasbdb+"porod.html") export_svgs(p, filename=self.filename+'/'+self.ID+sasbdb+"porod.svg") export_png(p, height=500, width=500, filename=self.filename+'/'+self.ID+sasbdb+"porod.png") def plot_pddf(self, sasbdb: str, df: pd.DataFrame): ''' p(r) plot, deprecated function ''' output_file(self.ID+sasbdb+"pddf.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Pair distance distribution function ("+sasbdb+")") p.circle(x='R', y='P', source=source, color='blue', fill_alpha=0.3, size=5) p.multi_line('err_x', 'err_y', source=source, color='gray', line_width=1.5) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = "r [nm]" p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'P(r)' p.yaxis.axis_label_text_font_size = '14pt' p.output_backend = "svg" p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/'+self.ID+sasbdb+"pddf.html") export_svgs(p, filename=self.filename+'/'+self.ID+sasbdb+"pddf.svg") export_png(p, height=500, width=500, filename=self.filename+'/'+self.ID+sasbdb+"pddf.png") def plot_pddf_residuals(self, sasbdb: str, df: pd.DataFrame): ''' p(r) residuals ''' output_file(self.ID+sasbdb+"pddf_residuals.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Residuals for P(r) fit ("+sasbdb+")") p.circle(x='Q', y='R', source=source, color='blue', fill_alpha=0.3, size=5) hline = Span(location=0, dimension='width', line_color='red', line_width=3) p.renderers.extend([hline]) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = "q\u00B2 [nm \u00B2]" # \u212B\u207B\u00B2" p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'R' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/'+self.ID+sasbdb+"pddf_residuals.html") p.output_backend = "svg" export_svgs(p, filename=self.filename+'/' + self.ID+sasbdb+"pddf_residuals.svg") export_png(p, height=500, width=500, filename=self.filename+'/' + self.ID+sasbdb+"pddf_residuals.png") def plot_pddf_residuals_wt(self, sasbdb: str, df: pd.DataFrame): ''' p(r) error weighted residuals ''' output_file(self.ID+sasbdb+"pddf_residuals_wt.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Error weighted residuals for P(r) fit ("+sasbdb+")") p.circle(x='Q', y='WR', source=source, color='blue', fill_alpha=0.3, size=5) hline = Span(location=0, dimension='width', line_color='red', line_width=3) p.renderers.extend([hline]) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = "q\u00B2 [nm \u00B2]" # \u212B\u207B\u00B2" p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'R/\u03C3' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/' + self.ID+sasbdb+"pddf_residuals_wt.html") p.output_backend = "svg" export_svgs(p, filename=self.filename+'/' + self.ID+sasbdb+"pddf_residuals_wt.svg") export_png(p, height=500, width=500, filename=self.filename+'/' + self.ID+sasbdb+"pddf_residuals_wt.png") def plot_pddf_int(self, sasbdb: str, df_int: pd.DataFrame, df_pofr: pd.DataFrame): ''' p(r) with fit ''' output_file(self.ID+sasbdb+"pddf_int.html", mode="inline") source1 = ColumnDataSource(df_int) source2 = ColumnDataSource(df_pofr) p = figure(plot_height=500, plot_width=500, title="P(r) extrapolated fit for "+sasbdb) legend1 = 'Experimental data' legend2 = "Linear fit" p.circle(x='Q', y='logI', source=source1, color='blue', line_width=1, fill_alpha=0.3, size=3, legend_label=legend1) p.line(x='Q', y='logI', source=source2, color='red', line_width=3, legend_label=legend2) # p.circle(x='Q',y='logIb',source=source, color='red',line_width=1,fill_alpha=0.1,size=3,legend_label=legend2) p.legend.orientation = "vertical" p.legend.location = "top_right" p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = "q [\u212B\u207B\u207B\u00B9]" p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'Log I(q) [a.u]' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/'+self.ID+sasbdb+"pddf_int.html") p.output_backend = "svg" export_svgs(p, filename=self.filename+'/' + self.ID+sasbdb+"pddf_int.svg") export_png(p, height=500, width=500, filename=self.filename+'/' + self.ID+sasbdb+"pddf_int.png") def Guinier_plot_fit(self, sasbdb: str, df: pd.DataFrame, score: float): ''' Gunier plot with fit ''' output_file(self.ID+sasbdb+"guinier.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Guinier plot for "+sasbdb+" (R\u00B2="+str(score)+")") legend1 = 'Experimental data' legend2 = "Linear fit" p.circle(x='Q2A', y='logI', source=source, color='blue', line_width=1, fill_alpha=0.3, size=5, legend_label=legend1) p.line(x='Q2A', y='y_pred', source=source, color='red', line_width=3, legend_label=legend2) p.legend.orientation = "vertical" p.legend.location = "top_right" p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = "q\u00B2 [nm \u00B2]" # \u212B\u207B\u00B2" p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'Log I(q)' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/'+self.ID+sasbdb+"guinier.html") p.output_backend = "svg" export_svgs(p, filename=self.filename+'/'+self.ID+sasbdb+"guinier.svg") export_png(p, height=500, width=500, filename=self.filename + '/'+self.ID+sasbdb+"guinier.png") def Guinier_plot_residuals(self, sasbdb: str, df: pd.DataFrame): ''' Guinier plot residuals ''' output_file(self.ID+sasbdb+"guinier_residuals.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Residuals for Guinier plot fit ("+sasbdb+")") p.circle(x='Q2A', y='res', source=source, color='blue', fill_alpha=0.3, size=5) hline = Span(location=0, dimension='width', line_color='red', line_width=3) p.renderers.extend([hline]) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = "q\u00B2 [nm \u00B2]" # \u212B\u207B\u00B2" p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'R' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/' + self.ID+sasbdb+"guinier_residuals.html") p.output_backend = "svg" export_svgs(p, filename=self.filename+'/' + self.ID+sasbdb+"guinier_residuals.svg") export_png(p, height=500, width=500, filename=self.filename+'/' + self.ID+sasbdb+"guinier_residuals.png") def plot_fit(self, sasbdb: str, fit: int, score: float, df: pd.DataFrame): ''' plot chi-squared fit ''' output_file(self.ID+sasbdb+str(fit)+"fit1.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Model fit for "+sasbdb) legend1 = 'Experimental data' legend2 = "Linear fit" p.circle(x='Q', y='logIe', source=source, color='blue', line_width=1, fill_alpha=0.3, size=3, legend_label=legend1) p.line(x='Q', y='logIb', source=source, color='red', line_width=3, legend_label=legend2) # p.circle(x='Q',y='logIb',source=source, color='red',line_width=1,fill_alpha=0.1,size=3,legend_label=legend2) p.legend.orientation = "vertical" p.legend.location = "top_right" p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = "q [\u212B\u207B\u207B\u00B9]" p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'Log I(q)' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/'+self.ID+sasbdb+str(fit)+"fit1.html") p.output_backend = "svg" export_svgs(p, filename=self.filename+'/' + self.ID+sasbdb+str(fit)+"fit1.svg") export_png(p, height=500, width=500, filename=self.filename+'/' + self.ID+sasbdb+str(fit)+"fit1.png") def plot_fit_residuals(self, sasbdb: str, fit: int, df: pd.DataFrame): ''' plot residuals for each fit ''' output_file(self.ID+sasbdb+str(fit)+"residuals.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Residuals for model fit ("+sasbdb+")") p.circle(x='Q', y='r', source=source, color='blue', fill_alpha=0.3, size=5) hline = Span(location=0, dimension='width', line_color='red', line_width=3) p.renderers.extend([hline]) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = "q [\u212B\u207B\u207B\u00B9]" p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'R' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/'+self.ID + sasbdb+str(fit)+"residuals.html") p.output_backend = "svg" export_svgs(p, filename=self.filename+'/' + self.ID+sasbdb+str(fit)+"residuals.svg") export_png(p, height=500, width=500, filename=self.filename+'/' + self.ID+sasbdb+str(fit)+"residuals.png") def plot_fit_residuals_wt(self, sasbdb: str, fit: int, df: pd.DataFrame): ''' plot error weighted residuals for each fit ''' output_file(self.ID+sasbdb+str(fit)+"residuals_wt.html", mode="inline") source = ColumnDataSource(df) p = figure(plot_height=500, plot_width=500, title="Error-weighted residuals for model fit ("+sasbdb+")") p.circle(x='Q', y='rsigma', source=source, color='blue', fill_alpha=0.3, size=5) hline = Span(location=0, dimension='width', line_color='red', line_width=3) p.renderers.extend([hline]) p.xaxis.major_label_text_font_size = "14pt" p.yaxis.major_label_text_font_size = "14pt" p.title.text_font_size = '12pt' p.title.align = "center" p.title.vertical_align = 'top' p.xaxis.axis_label = "q [\u212B\u207B\u207B\u00B9]" p.xaxis.axis_label_text_font_size = '14pt' p.yaxis.axis_label = 'R/\u03C3' p.yaxis.axis_label_text_font_size = '14pt' p.xaxis.axis_label_text_font_style = 'italic' p.yaxis.axis_label_text_font_style = 'italic' save(p, filename=self.filename+'/'+self.ID + sasbdb+str(fit)+"residuals_wt.html") p.output_backend = "svg" export_svgs(p, filename=self.filename+'/'+self.ID + sasbdb+str(fit)+"residuals_wt.svg") export_png(p, height=500, width=500, filename=self.filename+'/'+self.ID + sasbdb+str(fit)+"residuals_wt.png") def plot_multiple(self): for sasbdb, df in self.df_dict.items(): self.plot_intensities(sasbdb, df) self.plot_intensities_log(sasbdb, df) self.plot_kratky(sasbdb, df) self.plot_porod_debye(sasbdb, df) self.plot_pddf_int(sasbdb, df, self.pdf_ext_dict[sasbdb]) def plot_Guinier(self): for sasbdb, df in self.gdf.items(): self.Guinier_plot_fit(sasbdb, df, self.score[sasbdb]) self.Guinier_plot_residuals(sasbdb, df) def plot_pf(self): for sasbdb, df in self.pdf_dict.items(): self.plot_pddf(sasbdb, df) self.plot_pddf_residuals(sasbdb, self.pdf_dict_err[sasbdb]) self.plot_pddf_residuals_wt(sasbdb, self.pdf_dict_err[sasbdb]) def plot_fits(self): for sasbdb, df in self.fdf_dict.items(): for sasdb_m, df_m in df.items(): if not df_m[1].empty: self.plot_fit(sasbdb, sasdb_m, df_m[0], df_m[1]) self.plot_fit_residuals(sasbdb, sasdb_m, df_m[1]) self.plot_fit_residuals_wt(sasbdb, sasdb_m, df_m[1])
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baba314833bb8a8f8820fae24f0e8169ed441085
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py
Python
Calibration/EcalAlCaRecoProducers/test/nPU_mc.py
ckamtsikis/cmssw
ea19fe642bb7537cbf58451dcf73aa5fd1b66250
[ "Apache-2.0" ]
852
2015-01-11T21:03:51.000Z
2022-03-25T21:14:00.000Z
Calibration/EcalAlCaRecoProducers/test/nPU_mc.py
ckamtsikis/cmssw
ea19fe642bb7537cbf58451dcf73aa5fd1b66250
[ "Apache-2.0" ]
30,371
2015-01-02T00:14:40.000Z
2022-03-31T23:26:05.000Z
Calibration/EcalAlCaRecoProducers/test/nPU_mc.py
ckamtsikis/cmssw
ea19fe642bb7537cbf58451dcf73aa5fd1b66250
[ "Apache-2.0" ]
3,240
2015-01-02T05:53:18.000Z
2022-03-31T17:24:21.000Z
import math import ROOT from ROOT import * from DataFormats.FWLite import Events, Handle from PhysicsTools.PythonAnalysis import * #import print_options #print_options.set_float_precision(4) gSystem.Load("libFWCoreFWLite.so") FWLiteEnabler::enable() #import EcalDetId #from DataFormats.EcalDetId import * # import sys,os allRecHits=False lumi=393 lumi=-1 lumi=466 eventNumber=-1 eventNumber=685233340 #lumi=376 #eventNumber=344404776 #eventNumber=552337102 #eventNumber=577412878 #eventNumber=347006644 #eventNumber=344911692 lumi=374 eventNumber=548668449 # kRecovered lumi=376 eventNumber=552337102 # kRecovered lumi=393 eventNumber=576932539 # kRecovered lumi=394 eventNumber=578483322 lumi=394 eventNumber=578490502 lumi=394 eventNumber=579700192 lumi=395 eventNumber=579843406 lumi=401 eventNumber=588810213 lumi=402 eventNumber=591275401 # kRecovered lumi=403 eventNumber=593293410 lumi=403 eventNumber=591888388 # kRecovered lumi=406 eventNumber=597401546 # kRecovered lumi=407 eventNumber=598290564 lumi=415 eventNumber=610541757 lumi=415 eventNumber=610541436 lumi=416 eventNumber=612542602 # kRecovered lumi=419 eventNumber=616682572 # kRecovered lumi=419 eventNumber=615876590 lumi=422 eventNumber=620689835 lumi=466 eventNumber=685900276 lumi=467 eventNumber=687572911 lumi=472 eventNumber=694966852 # kRecovered lumi=466 eventNumber=685233340 eventMin=-1 # for now look for events in two files with a given lumi section maxEvents=-1 event_counter=0 file=[ 'root://eoscms//eos/cms/store/mc/Fall11/WbbToLNu_TuneZ2_7TeV-madgraph-pythia6-tauola/AODSIM/PU_S6_START42_V14B-v1/0000/001ADDEF-3F32-E111-BF04-90E6BA19A215.root', 'root://eoscms//eos/cms/store/mc/Fall11/WbbToLNu_TuneZ2_7TeV-madgraph-pythia6-tauola/AODSIM/PU_S6_START42_V14B-v1/0000/002D2E13-C831-E111-8C18-001EC9D25759.root', 'root://eoscms//eos/cms/store/mc/Fall11/WbbToLNu_TuneZ2_7TeV-madgraph-pythia6-tauola/AODSIM/PU_S6_START42_V14B-v1/0000/005D0AFE-2032-E111-A1D6-90E6BA442F38.root', 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(file) print file handlePupInfo = Handle('std::vector< PileupSummaryInfo >') puTAG = 'addPileupInfo' obsPU = TH1F("pileup", "observed_mc", 100,0,100) truePU = TH1F("pileup_true", "truth_mc", 100,0,100) for event in events: # if(maxEvents > 0 and event_counter > maxEvents): # break #if(event.eventAuxiliary.run()== 145351895): # if lumi > 0 and int(event.eventAuxiliary().luminosityBlock()) != lumi : # continue # if(eventNumber > 0 and event.eventAuxiliary().event()!= eventNumber ): # continue event_counter+=1 event.getByLabel(puTAG, handlePupInfo) # print file_format, file, electronTAG PupInfo = handlePupInfo.product() #std::vector<PileupSummaryInfo>::const_iterator PVI; for PVI in PupInfo: BX = PVI.getBunchCrossing() if(BX == 0): # { // in-time pu obsPU.Fill(PVI.getPU_NumInteractions()) truePU.Fill( PVI.getTrueNumInteractions()) obsPU.SaveAs('mcPU_obs.root') truePU.SaveAs('mcPU_true.root') print event_counter
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qipr/registry/models/__init__.py
ctsit/qipr
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2017-02-10T15:07:51.000Z
2017-02-10T15:08:01.000Z
qipr/registry/models/__init__.py
ctsit/qipr
3f0ef102d81a859c955f918b74037d199b4d6a00
[ "Apache-2.0" ]
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2016-08-03T13:18:08.000Z
2017-01-24T14:19:59.000Z
qipr/registry/models/__init__.py
ctsit/qipr
3f0ef102d81a859c955f918b74037d199b4d6a00
[ "Apache-2.0" ]
5
2016-07-29T17:12:43.000Z
2016-12-19T15:56:14.000Z
from registry.models.models import * from registry.models.audit_trail_models import AuditTrail from registry.models.mesh_models import * from registry.models.tag_models import Tag, TagPrint, TaggedWithName from registry.models.access_log import AccessLog
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py
Python
tests/device_tests/test_device_kwargs.py
SX-Aurora/orchespy
6b85a78831c8e3e05df7143101ca3418817fcbbd
[ "BSD-3-Clause" ]
null
null
null
tests/device_tests/test_device_kwargs.py
SX-Aurora/orchespy
6b85a78831c8e3e05df7143101ca3418817fcbbd
[ "BSD-3-Clause" ]
null
null
null
tests/device_tests/test_device_kwargs.py
SX-Aurora/orchespy
6b85a78831c8e3e05df7143101ca3418817fcbbd
[ "BSD-3-Clause" ]
null
null
null
from orchespy import device from orchespy.devicetype import CUDAGPU, Host, VE import sys import pytest import numpy as np if "cupy" in sys.modules: import cupy as cp if "nlcpy" in sys.modules: import nlcpy as vp no_nlcpy = pytest.mark.skipif( "nlcpy" not in sys.modules, reason=' test require nlcpy. ') no_cupy = pytest.mark.skipif( "cupy" not in sys.modules, reason=' test require cupy. ') # for tests with kwargs @device(Host) def matrix_addition_at_host(**kwargs): return kwargs.get('key1') + kwargs.get('key2') @device(CUDAGPU) def matrix_addition_at_gpu(**kwargs): return kwargs.get('key1') + kwargs.get('key2') @device(VE) def matrix_addition_at_ve(**kwargs): return kwargs.get('key1') + kwargs.get('key2') @pytest.mark.parametrize('shape', [(2), (2, 2), (2, 2, 2), (2, 4), (2, 3, 4)]) @pytest.mark.parametrize('dtype', [ 'i4', 'i8', 'u4', 'u8', 'f4', 'f8', 'c8', 'c16' ]) @pytest.mark.parametrize('order', ['C', 'F']) class TestDeviceKwargs: def test_device_kwargs_np_host(self, shape, dtype, order): x1 = np.ones(shape, dtype=dtype, order=order) x2 = np.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_host(key1=x1, key2=x2) assert(isinstance(y, np.ndarray)) expected = np.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy def test_device_kwargs_cp_host(self, shape, dtype, order): x1 = cp.ones(shape, dtype=dtype, order=order) x2 = cp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_host(key1=x1, key2=x2) assert(isinstance(y, np.ndarray)) expected = np.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_nlcpy def test_device_kwargs_vp_host(self, shape, dtype, order): x1 = vp.ones(shape, dtype=dtype, order=order) x2 = vp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_host(key1=x1, key2=x2) assert(isinstance(y, np.ndarray)) expected = np.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy def test_device_kwargs_np_cp_host(self, shape, dtype, order): x1 = np.ones(shape, dtype=dtype, order=order) x2 = cp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_host(key1=x1, key2=x2) assert(isinstance(y, np.ndarray)) expected = np.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_nlcpy def test_device_kwargs_np_vp_host(self, shape, dtype, order): x1 = np.ones(shape, dtype=dtype, order=order) x2 = vp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_host(key1=x1, key2=x2) assert(isinstance(y, np.ndarray)) expected = np.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy @no_nlcpy def test_device_kwargs_cp_vp_host(self, shape, dtype, order): x1 = cp.ones(shape, dtype=dtype, order=order) x2 = vp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_host(key1=x1, key2=x2) assert(isinstance(y, np.ndarray)) expected = np.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy def test_device_kwargs_np_gpu(self, shape, dtype, order): x1 = np.ones(shape, dtype=dtype, order=order) x2 = np.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_gpu(key1=x1, key2=x2) assert(isinstance(y, cp.ndarray)) expected = cp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy def test_device_kwargs_cp_gpu(self, shape, dtype, order): x1 = cp.ones(shape, dtype=dtype, order=order) x2 = cp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_gpu(key1=x1, key2=x2) assert(isinstance(y, cp.ndarray)) expected = cp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy @no_nlcpy def test_device_kwargs_vp_gpu(self, shape, dtype, order): x1 = vp.ones(shape, dtype=dtype, order=order) x2 = vp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_gpu(key1=x1, key2=x2) assert(isinstance(y, cp.ndarray)) expected = cp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy def test_device_kwargs_np_cp_gpu(self, shape, dtype, order): x1 = np.ones(shape, dtype=dtype, order=order) x2 = cp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_gpu(key1=x1, key2=x2) assert(isinstance(y, cp.ndarray)) expected = cp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy @no_nlcpy def test_device_kwargs_np_vp_gpu(self, shape, dtype, order): x1 = np.ones(shape, dtype=dtype, order=order) x2 = vp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_gpu(key1=x1, key2=x2) assert(isinstance(y, cp.ndarray)) expected = cp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy @no_nlcpy def test_device_kwargs_cp_vp_gpu(self, shape, dtype, order): x1 = cp.ones(shape, dtype=dtype, order=order) x2 = vp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_gpu(key1=x1, key2=x2) assert(isinstance(y, cp.ndarray)) expected = cp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_nlcpy def test_device_kwargs_np_ve(self, shape, dtype, order): x1 = np.ones(shape, dtype=dtype, order=order) x2 = np.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_ve(key1=x1, key2=x2) assert(isinstance(y, vp.ndarray)) expected = vp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy @no_nlcpy def test_device_kwargs_cp_ve(self, shape, dtype, order): x1 = cp.ones(shape, dtype=dtype, order=order) x2 = cp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_ve(key1=x1, key2=x2) assert(isinstance(y, vp.ndarray)) expected = vp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_nlcpy def test_device_kwargs_vp_ve(self, shape, dtype, order): x1 = vp.ones(shape, dtype=dtype, order=order) x2 = vp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_ve(key1=x1, key2=x2) assert(isinstance(y, vp.ndarray)) expected = vp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy @no_nlcpy def test_device_kwargs_np_cp_ve(self, shape, dtype, order): x1 = np.ones(shape, dtype=dtype, order=order) x2 = cp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_ve(key1=x1, key2=x2) assert(isinstance(y, vp.ndarray)) expected = vp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_nlcpy def test_device_kwargs_np_vp_ve(self, shape, dtype, order): x1 = np.ones(shape, dtype=dtype, order=order) x2 = vp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_ve(key1=x1, key2=x2) assert(isinstance(y, vp.ndarray)) expected = vp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all()) @no_cupy @no_nlcpy def test_device_kwargs_cp_vp_ve(self, shape, dtype, order): x1 = cp.ones(shape, dtype=dtype, order=order) x2 = vp.ones(shape, dtype=dtype, order=order) y = matrix_addition_at_ve(key1=x1, key2=x2) assert(isinstance(y, vp.ndarray)) expected = vp.full(shape, 2, dtype=dtype, order=order) assert((y == expected).all())
38.269231
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0.63392
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0.885152
0.876948
0.858901
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0.223618
7,960
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false
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8
244ca14b132ccce7f7850d68f0a4d515c7bb3998
9,638
py
Python
pybox/datastore/data_to_html.py
konradarchicinski/pybox
37c2dae80e1629e3cf2d3e3e86afaaff06b4de17
[ "MIT" ]
1
2021-04-16T06:29:41.000Z
2021-04-16T06:29:41.000Z
pybox/datastore/data_to_html.py
konradarchicinski/pybox
37c2dae80e1629e3cf2d3e3e86afaaff06b4de17
[ "MIT" ]
null
null
null
pybox/datastore/data_to_html.py
konradarchicinski/pybox
37c2dae80e1629e3cf2d3e3e86afaaff06b4de17
[ "MIT" ]
null
null
null
#!/usr/bin/env python from math import ceil, floor from random import sample from IPython.core.display import display, HTML def show_table(data, data_map, rows_number, string_length=255): """Display the contents of the specified array in rendered html format. Args: data (list): array in the form of a nested list, where sublists are understood as columns of the array. data_map (list): list of sublists containing sequentially: the name of the column (str), the index representing the column position in the array (int), the data type appearing in the column (type). rows_number (int): number of elements to be displeyed. string_length (int, optional): maximal length of returned string, if None entire string is printed. Defaults to 255. """ data_length = len(data) html_table_fragment = _create_table_header(data_map) if data_length > rows_number: html_table_fragment = _create_table_body(html_table_fragment, data, data_map, range(ceil(rows_number / 2)), string_length) html_table_fragment = _add_dotted_row(html_table_fragment, data_map) html_table_fragment = _create_table_body( html_table_fragment, data, data_map, range(data_length - floor(rows_number / 2), data_length), string_length) else: html_table_fragment = _create_table_body(html_table_fragment, data, data_map, range(data_length), string_length) html_table_fragment = "".join([html_table_fragment, "</table>"]) display(HTML(html_table_fragment)) def show_table_random(data, data_map, rows_number, string_length=255): """Display a random representation of the specified array contents in rendered html format. Args: data (list): array in the form of a nested list, where sublists are understood as columns of the array. data_map (list): list of sublists containing sequentially: the name of the column (str), the index representing the column position in the array (int), the data type appearing in the column (type). rows_number (int): number of elements to be displeyed. string_length (int, optional): maximal length of returned string, if None entire string is printed. Defaults to 255. """ data_length = len(data) html_table_fragment = _create_table_header(data_map) if data_length > rows_number: html_table_fragment = _create_table_body( html_table_fragment, data, data_map, sample(range(0, data_length), rows_number), string_length) else: html_table_fragment = _create_table_body(html_table_fragment, data, data_map, range(data_length), string_length) html_table_fragment = "".join([html_table_fragment, "</table>"]) display(HTML(html_table_fragment)) def show_table_head(data, data_map, rows_number, string_length=255): """Display the head of the specified array contents in rendered html format. Args: data (list): array in the form of a nested list, where sublists are understood as columns of the array. data_map (list): list of sublists containing sequentially: the name of the column (str), the index representing the column position in the array (int), the data type appearing in the column (type). rows_number (int): number of elements to be displeyed. string_length (int, optional): maximal length of returned string, if None entire string is printed. Defaults to 255. """ data_length = len(data) html_table_fragment = _create_table_header(data_map) if data_length > rows_number: html_table_fragment = _create_table_body(html_table_fragment, data, data_map, range(ceil(rows_number)), string_length) html_table_fragment = _add_dotted_row(html_table_fragment, data_map) else: html_table_fragment = _create_table_body(html_table_fragment, data, data_map, range(data_length), string_length) html_table_fragment = "".join([html_table_fragment, "</table>"]) display(HTML(html_table_fragment)) def show_table_tail(data, data_map, rows_number, string_length=255): """Display the tail of the specified array contents in rendered html format. Args: data (list): array in the form of a nested list, where sublists are understood as columns of the array. data_map (list): list of sublists containing sequentially: the name of the column (str), the index representing the column position in the array (int), the data type appearing in the column (type). rows_number (int): number of elements to be displeyed. string_length (int, optional): maximal length of returned string, if None entire string is printed. Defaults to 255. """ data_length = len(data) html_table_fragment = _create_table_header(data_map) if data_length > rows_number: html_table_fragment = _add_dotted_row(html_table_fragment, data_map) html_table_fragment = _create_table_body( html_table_fragment, data, data_map, range(data_length - ceil(rows_number), data_length), string_length) else: html_table_fragment = _create_table_body(html_table_fragment, data, data_map, range(data_length), string_length) html_table_fragment = "".join([html_table_fragment, "</table>"]) display(HTML(html_table_fragment)) def _create_table_header(data_map): """Return a string containing the table header in html format. Args: data_map (list): list of sublists containing sequentially: the name of the column (str), the index representing the column position in the array (int), the data type appearing in the column (type). """ html_table_fragment = "<table>\n<tr>\n<th><br></br><br></br>Index</th>\n" for column, dtype in data_map: html_table_fragment = "".join([ html_table_fragment, "<th style='text-align:left;'><b><u>", str(column), "</u></b><br>DataType:", dtype.__name__, "</br></th>\n" ]) html_table_fragment = "".join([html_table_fragment, "</tr>\n"]) return html_table_fragment def _create_table_body(html_table_fragment, data, data_map, iterator, string_length): """Returns a string containing the table body in html format. Args: html_table_fragment (str): fragment of the html table. data (list): array in the form of a nested list, where sublists are understood as columns of the array. data_map (list): list of sublists containing sequentially: the name of the column (str), the index representing the column position in the array (int), the data type appearing in the column (type). iterator (iterable): range based on which body will be created. string_length (int, optional): maximal length of returned string. Defaults to 255. """ for index in iterator: html_table_fragment = "".join( [html_table_fragment, "<tr>\n<td>", str(index), "</td>\n"]) for column_index, _ in enumerate(data_map): html_table_fragment = "".join([ html_table_fragment, "<td style='text-align:left;'>", _cell_interior(data[index][column_index], string_length), "</td>\n" ]) html_table_fragment = "".join([html_table_fragment, "</tr>\n"]) return html_table_fragment def _cell_interior(raw_value, string_length): """Returns cell interior which is the provided data element, cut and transformed to proper form of a string. Args: raw_value (any): values of certain data element. string_length (int): maximal length of returned string. """ cell_string = str(raw_value) if string_length is None or len(cell_string) <= string_length: return cell_string else: return f"{cell_string[:string_length]}..." def _add_dotted_row(html_table_fragment, data_map): """Return a string containing the table row in html format with dotted cells. Args: html_table_fragment (str): fragment of the html table. data_map (list): list of sublists containing sequentially: the name of the column (str), the index representing the column position in the array (int), the data type appearing in the column (type). """ html_table_fragment = "".join([html_table_fragment, "<tr>\n<td>...</td>\n"]) for _ in data_map: html_table_fragment = "".join( [html_table_fragment, "<td style='text-align:left;'>...</td>\n"]) html_table_fragment = "".join([html_table_fragment, "</tr>\n"]) return html_table_fragment
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7
2456f96495f97028003da6d7d373bed052640f0a
4,851
py
Python
tests/fixtures/fixtures.py
nuhamozaini/moyasar-python-1
89100f9bac91809e8bbfe1cba0e165ffc9b7b979
[ "MIT" ]
6
2019-03-03T19:02:35.000Z
2019-09-29T04:49:40.000Z
tests/fixtures/fixtures.py
nuhamozaini/moyasar-python-1
89100f9bac91809e8bbfe1cba0e165ffc9b7b979
[ "MIT" ]
7
2019-03-04T14:50:59.000Z
2021-06-01T23:25:29.000Z
tests/fixtures/fixtures.py
nuhamozaini/moyasar-python-1
89100f9bac91809e8bbfe1cba0e165ffc9b7b979
[ "MIT" ]
4
2019-03-03T19:03:28.000Z
2021-07-15T03:10:55.000Z
invoice = { "id": "1b82356d-b5fd-46f8-bde9-3680d62f289a", "status": "initiated", "amount": "1000", "currency": "SAR", "description": "Test", "logo_url": "https://s3-eu-west-1.amazonaws.com/moyasar.api.assets.prod/entities/logos/ec8/299/59-/original/data" "?1471819842", "amount_format": "10.00 SAR", "url": "https://dashboard.moyasar.com/invoices/1b82356d-b5fd-46f8-bde9-3680d62f289a", "created_at": "2016-10-15T14:23:49.587Z", "updated_at": "2016-10-15T14:23:49.587Z", "payments": [] } invoices = { "invoices": [ { "id": "1b82356d-b5fd-46f8-bde9-3680d62f289a", "status": "initiated", "amount": "1000", "currency": "SAR", "description": "Test", "logo_url": "https://s3-eu-west-1.amazonaws.com/moyasar.api.assets.prod/entities/logos/ec8/299/59-/original" "/data?1471819842", "amount_format": "10.00 SAR", "url": "https://dashboard.moyasar.com/invoices/1b82356d-b5fd-46f8-bde9-3680d62f289a", "created_at": "2016-10-15T14:23:49.587Z", "updated_at": "2016-10-15T14:23:49.587Z", "payments": [] }, { "id": "1b82356d-b5fd-46f8-bde9-3680d62f289a", "status": "initiated", "amount": "1000", "currency": "SAR", "description": "Test", "logo_url": "https://s3-eu-west-1.amazonaws.com/moyasar.api.assets.prod/entities/logos/ec8/299/59-/original" "/data?1471819842", "amount_format": "10.00 SAR", "url": "https://dashboard.moyasar.com/invoices/1b82356d-b5fd-46f8-bde9-3680d62f289a", "created_at": "2016-10-15T14:23:49.587Z", "updated_at": "2016-10-15T14:23:49.587Z", "payments": [] }, { "id": "1b82356d-b5fd-46f8-bde9-3680d62f289a", "status": "initiated", "amount": "1000", "currency": "SAR", "description": "Test", "logo_url": "https://s3-eu-west-1.amazonaws.com/moyasar.api.assets.prod/entities/logos/ec8/299/59-/original" "/data?1471819842", "amount_format": "10.00 SAR", "url": "https://dashboard.moyasar.com/invoices/1b82356d-b5fd-46f8-bde9-3680d62f289a", "created_at": "2016-10-15T14:23:49.587Z", "updated_at": "2016-10-15T14:23:49.587Z", "payments": [] } ] } payment = { "id": "328f5dca-91ec-435d-b13f-86052a1d0f7b", "status": "initiated", "amount": 1000, "fee": 0, "currency": "SAR", "refunded": 0, "refunded_at": "null", "description": "Test", "amount_format": "10.00 SAR", "fee_format": "0.00 SAR", "invoice_id": "null", "ip": "78.95.12.65", "created_at": "2016-10-15T14:23:46.214Z", "updated_at": "2016-10-15T14:23:47.426Z", "source": { "type": "sadad", "username": "u3041555Xolp", "error_code": "null", "message": "null", "transaction_id": "null", "transaction_url": "null" } } payments = { "payments": [ { "id": "328f5dca-91ec-435d-b13f-86052a1d0f7b", "status": "initiated", "amount": 1000, "fee": 0, "currency": "SAR", "refunded": 0, "refunded_at": "null", "description": "Test", "amount_format": "10.00 SAR", "fee_format": "0.00 SAR", "invoice_id": "null", "ip": "78.95.12.65", "created_at": "2016-10-15T14:23:46.214Z", "updated_at": "2016-10-15T14:23:47.426Z", "source": { "type": "sadad", "username": "u3041555Xolp", "error_code": "null", "message": "null", "transaction_id": "null", "transaction_url": "null" } }, { "id": "328f5dca-91ec-435d-b13f-86052a1d0f7b", "status": "initiated", "amount": 1000, "fee": 0, "currency": "SAR", "refunded": 0, "refunded_at": "null", "description": "Test", "amount_format": "10.00 SAR", "fee_format": "0.00 SAR", "invoice_id": "null", "ip": "78.95.12.65", "created_at": "2016-10-15T14:23:46.214Z", "updated_at": "2016-10-15T14:23:47.426Z", "source": { "type": "sadad", "username": "u3041555Xolp", "error_code": "null", "message": "null", "transaction_id": "null", "transaction_url": "null" } }, { "id": "328f5dca-91ec-435d-b13f-86052a1d0f7b", "status": "initiated", "amount": 1000, "fee": 0, "currency": "SAR", "refunded": 0, "refunded_at": "null", "description": "Test", "amount_format": "10.00 SAR", "fee_format": "0.00 SAR", "invoice_id": "null", "ip": "78.95.12.65", "created_at": "2016-10-15T14:23:46.214Z", "updated_at": "2016-10-15T14:23:47.426Z", "source": { "type": "sadad", "username": "u3041555Xolp", "error_code": "null", "message": "null", "transaction_id": "null", "transaction_url": "null" } } ] }
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8
2465d41cc09ccce960606d80775405816ce9a8f6
6,888
py
Python
sphinx_typesafe/tests/test_failures.py
frgomes/sphinx_typesafe
5768bcc87830f0cd73c010475cd9fc9d8fe7c1b2
[ "Apache-2.0" ]
2
2015-01-22T17:07:10.000Z
2015-03-12T05:21:06.000Z
sphinx_typesafe/tests/test_failures.py
frgomes/sphinx_typesafe
5768bcc87830f0cd73c010475cd9fc9d8fe7c1b2
[ "Apache-2.0" ]
null
null
null
sphinx_typesafe/tests/test_failures.py
frgomes/sphinx_typesafe
5768bcc87830f0cd73c010475cd9fc9d8fe7c1b2
[ "Apache-2.0" ]
null
null
null
from sphinx_typesafe.typesafe import typesafe @typesafe def function_f1a(x): """Function with one argument, returning one value. :type x: types.IntType :rtype: types.StringType """ return '{}'.format(x) @typesafe({ 'x': 'types.IntType', 'return': 'types.StringType'} ) def function_f1b(x): """Function with one argument, returning one value. """ return '{}'.format(x) def test_function_fail_01(): import pytest with pytest.raises(AttributeError): @typesafe( 'rubbish' ) def some_function(): pass some_function() def test_function_fail_02(): import pytest with pytest.raises(AttributeError): @typesafe( {}, 'rubbish' ) def some_function(): pass some_function() def test_function_fail_03a(): import pytest with pytest.raises(NameError): @typesafe( { 'a' : None } ) def function_identity(x): return x function_identity(42) def test_function_fail_03b(): import pytest with pytest.raises(AttributeError): @typesafe( { 'a' : '' } ) def function_identity(x): return x function_identity(42) def test_function_fail_03c(): import pytest with pytest.raises(NameError): @typesafe( { 'a' : 5 } ) def function_identity(x): return x function_identity(42) def test_function_fail_03d(): import pytest with pytest.raises(NameError): @typesafe( { 'a' : int } ) def function_identity(x): return x function_identity(42) def test_function_fail_03e(): import pytest with pytest.raises(NameError): @typesafe( { str : int } ) def function_identity(x): return x function_identity(42) def test_function_fail_a3f(): import pytest from sphinx_typesafe.tests.geometry import Point p = Point(3.0, 4.0) with pytest.raises(NameError): @typesafe( { p : int } ) def function_identity(x): return x function_identity(42) def test_function_success_04a(): @typesafe def function_identity(x): ''' :type x:int :rtype:int ''' return x function_identity(42) def test_function_success_04b(): @typesafe def function_identity(x): ''' :type x : int :rtype : int ''' return x function_identity(42) def test_function_success_04c(): @typesafe( { 'x' : 'int', 'return' : 'int' } ) def function_identity(x): return x function_identity(42) def test_function_success_04d(): @typesafe( { ' x ' : ' int ', ' return ' : ' int ' } ) def function_identity(x): return x function_identity(42) def test_function_fail_05a(): import pytest with pytest.raises(AttributeError): @typesafe def some_function(x): return x some_function(42) def test_function_fail_05b(): import pytest with pytest.raises(TypeError): @typesafe def some_function(x): ''' :type x : int ''' return x some_function(42) def test_function_fail_05c(): import pytest with pytest.raises(AttributeError): @typesafe def some_function(x): ''' :type x : int :type y : int ''' return x some_function(42) def test_function_fail_05d(): import pytest with pytest.raises(AttributeError): @typesafe def some_function_(x): ''' :type x : int :type y : int :rtype : int ''' return x some_function_(42) def test_function_fail_05e(): import pytest with pytest.raises(AttributeError): @typesafe def some_function(x): ''' :type x: int :type y: int :rtype : int ''' return x some_function() def test_function_failure_05f(): import pytest with pytest.raises(AttributeError): @typesafe def some_function(a, b, x=0, y=0): ''' :type a : int :type b : int :type x : int :type y : int ''' return x some_function(b=3) def test_function_failure_05g(): import pytest with pytest.raises(AttributeError): @typesafe def some_function(a, b, x=0, y=0): ''' :type a : int :type b : int :type x : int :type y : int :type r : int :rtype : int ''' return x some_function(a=5, b=3) def test_function_failure_05h(): import pytest with pytest.raises(AttributeError): @typesafe def some_function(a, b, x=0, y=0): ''' :type a : int :type b : int :type x : int :type y : int :type r : int :type s : int :rtype : int ''' return x some_function(a=5, b=3) def test_function_fail_06a(): import pytest with pytest.raises(AttributeError): @typesafe def some_function(a, b, c, d, e, f): """Function with argument which should not be checked and arguments missing specification. :type a: types.NotImplementedType :type b: types.IntType :rtype: types.StringType """ return '{},{}'.format(a, b) assert(some_function('not checked',2) == 'not checked,2') def test_function_fail_07a(): import pytest with pytest.raises(TypeError): assert(function_f1a('rubbish') == '42') def test_function_fail_07b(): import pytest with pytest.raises(TypeError): assert(function_f1b('rubbish') == '42') def test_function_fail_08a(): import pytest with pytest.raises(TypeError): from sphinx_typesafe.tests.geometry import Point assert(function_f1a(Point(3.0, 4.0)) == '42') def test_function_fail_08b(): import pytest with pytest.raises(TypeError): from sphinx_typesafe.tests.geometry import Point assert(function_f1b(Point(3.0, 4.0)) == '42') def test_function_fail_09a(): import pytest with pytest.raises(TypeError): from sphinx_typesafe.tests.geometry import Point assert(function_f1a(type(Point(3.0, 4.0))) == '42') def test_function_fail_09b(): import pytest with pytest.raises(TypeError): from sphinx_typesafe.tests.geometry import Point assert(function_f1b(type(Point(3.0, 4.0))) == '42')
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7
034fbac0ec3a4adad4df8d0f24727dd2fd509276
231
py
Python
tests/parser/aggregates.count.assignment.19.test.py
veltri/DLV2
944aaef803aa75e7ec51d7e0c2b0d964687fdd0e
[ "Apache-2.0" ]
null
null
null
tests/parser/aggregates.count.assignment.19.test.py
veltri/DLV2
944aaef803aa75e7ec51d7e0c2b0d964687fdd0e
[ "Apache-2.0" ]
null
null
null
tests/parser/aggregates.count.assignment.19.test.py
veltri/DLV2
944aaef803aa75e7ec51d7e0c2b0d964687fdd0e
[ "Apache-2.0" ]
null
null
null
input = """ a(Z,Y) :- #count{X: p(X,Y)} = Z, #count{W: p(W,Z)} = Y. p(1,1). p(1,2). p(2,1). p(2,2). p(3,5). """ output = """ a(Z,Y) :- #count{X: p(X,Y)} = Z, #count{W: p(W,Z)} = Y. p(1,1). p(1,2). p(2,1). p(2,2). p(3,5). """
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0
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0
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11
30010483c417efd86bca54095efb03a5902dd5a6
109
py
Python
tests/itasca_tests.py
jkfurtney/itasca-python
91c766abc64e4940605b454ef96ad694926b61d7
[ "BSD-3-Clause" ]
41
2015-01-30T15:00:12.000Z
2022-03-09T23:54:34.000Z
tests/itasca_tests.py
drozdovgrigoriy/itasca-python
edeb54a72699d10bab141c1eb47f5726312f3093
[ "BSD-3-Clause" ]
1
2018-08-21T16:03:11.000Z
2018-08-21T16:03:11.000Z
tests/itasca_tests.py
drozdovgrigoriy/itasca-python
edeb54a72699d10bab141c1eb47f5726312f3093
[ "BSD-3-Clause" ]
20
2015-06-15T03:59:30.000Z
2021-06-23T07:59:07.000Z
from nose.tools import * import itasca def test_get_version(): assert type(itasca.get_version()) == str
18.166667
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1
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7
30117172cfd772ce7268877ffd511b9371db6b10
330
py
Python
causal_world/benchmark/__init__.py
michaelfeil/CausalWorld
ff866159ef0ee9c407893ae204e93eb98dd68be2
[ "MIT" ]
2
2021-09-22T08:20:12.000Z
2021-11-16T14:20:45.000Z
causal_world/benchmark/__init__.py
michaelfeil/CausalWorld
ff866159ef0ee9c407893ae204e93eb98dd68be2
[ "MIT" ]
null
null
null
causal_world/benchmark/__init__.py
michaelfeil/CausalWorld
ff866159ef0ee9c407893ae204e93eb98dd68be2
[ "MIT" ]
null
null
null
from causal_world.benchmark.benchmarks import REACHING_BENCHMARK from causal_world.benchmark.benchmarks import PUSHING_BENCHMARK from causal_world.benchmark.benchmarks import PICKING_BENCHMARK from causal_world.benchmark.benchmarks import PICK_AND_PLACE_BENCHMARK from causal_world.benchmark.benchmarks import STACKING2_BENCHMARK
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8
306a19077f8c2256c0e51c59bbac9dfc392fde84
1,037
py
Python
correct_python_programs/rpn_eval.py
PatrickShaw/QuixBugs
5a2eb2987fdac12860b526ffa92a57e5831fd639
[ "MIT" ]
22
2018-01-29T01:56:30.000Z
2022-03-21T12:25:40.000Z
correct_python_programs/rpn_eval.py
zixifan/QuixBugs
5a2eb2987fdac12860b526ffa92a57e5831fd639
[ "MIT" ]
31
2017-12-18T21:04:34.000Z
2022-02-21T07:38:09.000Z
correct_python_programs/rpn_eval.py
zixifan/QuixBugs
5a2eb2987fdac12860b526ffa92a57e5831fd639
[ "MIT" ]
19
2018-01-06T14:18:33.000Z
2022-03-21T12:25:43.000Z
def rpn_eval(tokens): def op(symbol, a, b): return { '+': lambda a, b: a + b, '-': lambda a, b: a - b, '*': lambda a, b: a * b, '/': lambda a, b: a / b }[symbol](a, b) stack = [] for token in tokens: if isinstance(token, float): stack.append(token) else: a = stack.pop() b = stack.pop() stack.append( op(token, b, a) ) return stack.pop() """ def rpn_eval(tokens): def op(symbol, a, b): return { '+': lambda a, b: a + b, '-': lambda a, b: a - b, '*': lambda a, b: a * b, '/': lambda a, b: a / b }[symbol](b, a) stack = Stack() for token in tokens: if isinstance(token, float): stack.push(token) else: a = stack.pop() b = stack.pop() stack.push( op(token, a, b) ) return stack.pop() """
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0
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7
306f0e082d1ff227138e0183e90171d7ff60d64e
9,389
py
Python
models/octave_unet/common/OctaveConv2.py
zdaiot/Kaggle-Pneumothorax-Seg
db9a780c6cf865bafb4610df90c924874ce6ab90
[ "MIT" ]
5
2019-09-30T11:30:22.000Z
2021-08-09T08:13:30.000Z
models/octave_unet/common/OctaveConv2.py
zdaiot/Kaggle-Pneumothorax-Seg
db9a780c6cf865bafb4610df90c924874ce6ab90
[ "MIT" ]
null
null
null
models/octave_unet/common/OctaveConv2.py
zdaiot/Kaggle-Pneumothorax-Seg
db9a780c6cf865bafb4610df90c924874ce6ab90
[ "MIT" ]
2
2020-06-22T16:06:22.000Z
2021-04-11T11:33:52.000Z
#!/usr/bin/env python # -*- coding:utf-8 -*- # Author: Xiangtai Li(lxtpku@pku.edu.cn) # Pytorch Implementation of Octave Conv Operation # This version use nn.Conv2d because alpha_in always equals alpha_out import torch import torch.nn as nn class OctaveConv(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, alpha=0.5, stride=1, padding=1, dilation=1, groups=1, bias=False): super(OctaveConv, self).__init__() kernel_size = kernel_size[0] self.h2g_pool = nn.AvgPool2d(kernel_size=(2, 2), stride=2) self.upsample = torch.nn.Upsample(scale_factor=2, mode='nearest') self.stride = stride self.l2l = torch.nn.Conv2d(int(alpha * in_channels), int(alpha * out_channels), kernel_size, 1, padding, dilation, groups, bias) self.l2h = torch.nn.Conv2d(int(alpha * in_channels), out_channels - int(alpha * out_channels), kernel_size, 1, padding, dilation, groups, bias) self.h2l = torch.nn.Conv2d(in_channels - int(alpha * in_channels), int(alpha * out_channels), kernel_size, 1, padding, dilation, groups, bias) self.h2h = torch.nn.Conv2d(in_channels - int(alpha * in_channels), out_channels - int(alpha * out_channels), kernel_size, 1, padding, dilation, groups, bias) def forward(self, x): X_h, X_l = x if self.stride ==2: X_h, X_l = self.h2g_pool(X_h), self.h2g_pool(X_l) X_h2l = self.h2g_pool(X_h) X_h2h = self.h2h(X_h) X_l2h = self.l2h(X_l) X_l2l = self.l2l(X_l) X_h2l = self.h2l(X_h2l) X_l2h = self.upsample(X_l2h) X_h = X_l2h + X_h2h X_l = X_h2l + X_l2l return X_h, X_l class FirstOctaveConv(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, alpha=0.5, stride=1, padding=1, dilation=1, groups=1, bias=False): super(FirstOctaveConv, self).__init__() self.stride = stride kernel_size = kernel_size[0] self.h2g_pool = nn.AvgPool2d(kernel_size=(2, 2), stride=2) self.h2l = torch.nn.Conv2d(in_channels, int(alpha * out_channels), kernel_size, 1, padding, dilation, groups, bias) self.h2h = torch.nn.Conv2d(in_channels, out_channels - int(alpha * out_channels), kernel_size, 1, padding, dilation, groups, bias) def forward(self, x): if self.stride == 2: x = self.h2g_pool(x) X_h2l = self.h2g_pool(x) X_h = x X_h = self.h2h(X_h) X_l = self.h2l(X_h2l) return X_h, X_l class LastOctaveConv(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, alpha=0.5, stride=1, padding=1, dilation=1, groups=1, bias=False): super(LastOctaveConv, self).__init__() self.stride = stride kernel_size = kernel_size[0] self.h2g_pool = nn.AvgPool2d(kernel_size=(2,2), stride=2) self.l2h = torch.nn.Conv2d(int(alpha * in_channels), out_channels, kernel_size, 1, padding, dilation, groups, bias) self.h2h = torch.nn.Conv2d(in_channels - int(alpha * in_channels), out_channels, kernel_size, 1, padding, dilation, groups, bias) self.upsample = torch.nn.Upsample(scale_factor=2, mode='nearest') def forward(self, x): X_h, X_l = x if self.stride ==2: X_h, X_l = self.h2g_pool(X_h), self.h2g_pool(X_l) X_l2h = self.l2h(X_l) X_h2h = self.h2h(X_h) X_l2h = self.upsample(X_l2h) X_h = X_h2h + X_l2h return X_h class OctaveCBR(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=(3, 3), alpha=0.5, stride=1, padding=1, dilation=1, groups=1, bias=False, norm_layer=nn.BatchNorm2d): super(OctaveCBR, self).__init__() self.conv = OctaveConv(in_channels, out_channels, kernel_size, alpha, stride, padding, dilation, groups, bias) self.bn_h = norm_layer(int(out_channels*(1-alpha))) self.bn_l = norm_layer(int(out_channels*alpha)) self.relu = nn.ReLU(inplace=True) def forward(self, x): x_h, x_l = self.conv(x) x_h = self.relu(self.bn_h(x_h)) x_l = self.relu(self.bn_l(x_l)) return x_h, x_l class OctaveCB(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=(3,3), alpha=0.5, stride=1, padding=1, dilation=1, groups=1, bias=False, norm_layer=nn.BatchNorm2d): super(OctaveCB, self).__init__() self.conv = OctaveConv(in_channels, out_channels, kernel_size, alpha, stride, padding, dilation, groups, bias) self.bn_h = norm_layer(int(out_channels * (1 - alpha))) self.bn_l = norm_layer(int(out_channels * alpha)) def forward(self, x): x_h, x_l = self.conv(x) x_h = self.bn_h(x_h) x_l = self.bn_l(x_l) return x_h, x_l class OctaveCR(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=(3,3), alpha=0.5, stride=1, padding=1, dilation=1, groups=1, bias=False): super(OctaveCR, self).__init__() self.conv = OctaveConv(in_channels, out_channels, kernel_size, alpha, stride, padding, dilation, groups, bias) self.relu = nn.ReLU(inplace=True) def forward(self, x): x_h, x_l = self.conv(x) x_h = self.relu(x_h) x_l = self.relu(x_l) return x_h, x_l class FirstOctaveCBR(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=(3, 3), alpha=0.5, stride=1, padding=1, dilation=1, groups=1, bias=False,norm_layer=nn.BatchNorm2d): super(FirstOctaveCBR, self).__init__() self.conv = FirstOctaveConv(in_channels, out_channels, kernel_size, alpha,stride,padding,dilation,groups,bias) self.bn_h = norm_layer(int(out_channels * (1 - alpha))) self.bn_l = norm_layer(int(out_channels * alpha)) self.relu = nn.ReLU(inplace=True) def forward(self, x): x_h, x_l = self.conv(x) x_h = self.relu(self.bn_h(x_h)) x_l = self.relu(self.bn_l(x_l)) return x_h, x_l class LastOCtaveCBR(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=(3, 3), alpha=0.5, stride=1, padding=1, dilation=1, groups=1, bias=False, norm_layer=nn.BatchNorm2d): super(LastOCtaveCBR, self).__init__() self.conv = LastOctaveConv(in_channels, out_channels, kernel_size, alpha, stride, padding, dilation, groups, bias) self.bn_h = norm_layer(out_channels) self.relu = nn.ReLU(inplace=True) def forward(self, x): x_h = self.conv(x) x_h = self.relu(self.bn_h(x_h)) return x_h class FirstOctaveCB(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=(3, 3), alpha=0.5,stride=1, padding=1, dilation=1, groups=1, bias=False, norm_layer=nn.BatchNorm2d): super(FirstOctaveCB, self).__init__() self.conv = FirstOctaveConv(in_channels,out_channels,kernel_size, alpha,stride,padding,dilation,groups,bias) self.bn_h = norm_layer(int(out_channels * (1 - alpha))) self.bn_l = norm_layer(int(out_channels * alpha)) self.relu = nn.ReLU(inplace=True) def forward(self, x): x_h, x_l = self.conv(x) x_h = self.bn_h(x_h) x_l = self.bn_l(x_l) return x_h, x_l class LastOCtaveCB(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=(3, 3), alpha=0.5, stride=1, padding=1, dilation=1, groups=1, bias=False, norm_layer=nn.BatchNorm2d): super(LastOCtaveCB, self).__init__() self.conv = LastOctaveConv( in_channels, out_channels, kernel_size, alpha, stride, padding, dilation, groups, bias) self.bn_h = norm_layer(out_channels) self.relu = nn.ReLU(inplace=True) def forward(self, x): x_h = self.conv(x) x_h = self.bn_h(x_h) return x_h class FirstOctaveCR(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=(3, 3), alpha=0.5,stride=1, padding=1, dilation=1, groups=1, bias=False): super(FirstOctaveCR, self).__init__() self.conv = FirstOctaveConv(in_channels, out_channels, kernel_size, alpha,stride,padding,dilation,groups,bias) self.relu = nn.ReLU(inplace=True) def forward(self, x): x_h, x_l = self.conv(x) x_h = self.relu(x_h) x_l = self.relu(x_l) return x_h, x_l class LastOCtaveCR(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, alpha=0.5, stride=1, padding=1, dilation=1, groups=1, bias=False): super(LastOCtaveCR, self).__init__() self.conv = LastOctaveConv( in_channels, out_channels, kernel_size, alpha, stride, padding, dilation, groups, bias) self.relu = nn.ReLU(inplace=True) def forward(self, x): x_h = self.conv(x) x_h = self.relu(x_h) return x_h
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135
py
Python
novelsave/services/source/__init__.py
damare01/novelsave
7896e8393c944e169e3cb52a33ab81ae396dff9f
[ "Apache-2.0" ]
12
2021-08-25T04:37:53.000Z
2022-01-28T03:06:17.000Z
novelsave/services/source/__init__.py
damare01/novelsave
7896e8393c944e169e3cb52a33ab81ae396dff9f
[ "Apache-2.0" ]
18
2021-08-24T20:02:16.000Z
2022-03-29T06:55:53.000Z
novelsave/services/source/__init__.py
damare01/novelsave
7896e8393c944e169e3cb52a33ab81ae396dff9f
[ "Apache-2.0" ]
6
2021-10-03T11:31:08.000Z
2022-03-29T07:28:49.000Z
from .meta_source_gateway import MetaSourceGateway from .source_gateway import SourceGateway from .source_service import SourceService
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88cc0d6ca73471c7ad00126ecc307ed90a913c3e
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py
Python
notion/.ipynb_checkpoints/test-checkpoint.py
llucass/lucas-notion-publishing
ea322ac5e2957a3a170581f48885aa82b6ff79e2
[ "MIT" ]
null
null
null
notion/.ipynb_checkpoints/test-checkpoint.py
llucass/lucas-notion-publishing
ea322ac5e2957a3a170581f48885aa82b6ff79e2
[ "MIT" ]
null
null
null
notion/.ipynb_checkpoints/test-checkpoint.py
llucass/lucas-notion-publishing
ea322ac5e2957a3a170581f48885aa82b6ff79e2
[ "MIT" ]
null
null
null
from get_posts import get_blog_posts print(get_blog_posts())
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py
Python
yolox/models/yolox_darknet.py
CaptainEven/MCMOT-ByteTrack
e014275cfb25147dfa6f49cdbed24e91e5d6c41e
[ "MIT" ]
20
2022-01-29T02:12:26.000Z
2022-03-28T08:21:37.000Z
yolox/models/yolox_darknet.py
CaptainEven/MCMOT-ByteTrack
e014275cfb25147dfa6f49cdbed24e91e5d6c41e
[ "MIT" ]
11
2022-01-29T22:15:22.000Z
2022-03-26T23:00:18.000Z
yolox/models/yolox_darknet.py
CaptainEven/MCMOT-ByteTrack
e014275cfb25147dfa6f49cdbed24e91e5d6c41e
[ "MIT" ]
5
2022-02-06T17:56:07.000Z
2022-03-14T23:43:02.000Z
# encoding=utf-8 import os import math import torch import torch.nn as nn from yolox.utils.myutils import parse_darknet_cfg from .darknet_modules import build_modules import torch.nn.functional as F from loguru import logger from yolox.utils import bboxes_iou from .losses import IOUloss, GHMC, UncertaintyLoss class YOLOXDarknet(nn.Module): """ YOLOX model module. The module list is defined by create_yolov3_modules function. The network returns loss values from three YOLO layers during training and detection results during test. """ def __init__(self, cfg, net_size=(768, 448), strides=[8, 16, 32], num_classes=5, init_weights=True): """ Darknet based :param cfg: :param net_size: :param strides: :param num_classes: :return """ super().__init__() if not os.path.isfile(cfg): logger.error("Invalid cfg file path: {:s}.".format(cfg)) exit(-1) ## ----- build the network self.module_defs = parse_darknet_cfg(cfg) logger.info("Network config file parsed.") self.module_list, self.routs = build_modules(self.module_defs, net_size, cfg, 3) if init_weights: self.init_weights() logger.info("Network weights initialized.") ## ----- define some modules self.n_anchors = 1 self.num_classes = num_classes logger.info("Number of object classes: {:d}.".format(self.num_classes)) self.decode_in_inference = True # for deploy, set to False # self.scale_1st = 0.125 # 1/8 self.use_l1 = False self.l1_loss = nn.L1Loss(reduction="none") self.bcewithlog_loss = nn.BCEWithLogitsLoss(reduction="none") self.iou_loss = IOUloss(reduction="none") self.strides = strides self.grids = [torch.zeros(1)] * len(strides) self.expanded_strides = [None] * len(strides) def init_layer_weights(self, m): """ :param m: :return: """ if isinstance(m, nn.Conv2d): init.xavier_uniform_(m.weight) if m.bias is not None: init.constant_(m.bias, 0) elif isinstance(m, nn.BatchNorm2d): init.constant_(m.weight, 1) init.constant_(m.bias, 0) elif isinstance(m, nn.Linear): init.normal(m.weight, std=1e-3) if m.bias is not None: init.constant_(m.bias, 0) def init_weights(self): """ Init weights of the net work """ for m in self.module_list: self.init_layer_weights(m) def forward_once(self, x): """ :param x: :return: """ img_size = x.shape[-2:] # height, width yolo_out, out = [], [] # 3(or 2) yolo layers correspond to 3(or 2) reid feature map layers # ---------- traverse the network(by traversing the module_list) use_output_layers = ['WeightedFeatureFusion', # Shortcut(add) 'FeatureConcat', # Route(concatenate) 'FeatureConcat_l', 'RouteGroup', 'ScaleChannel', 'ScaleChannels', # my own implementation 'SAM'] # ----- traverse forward for i, module in enumerate(self.module_list): name = module.__class__.__name__ if name in use_output_layers: # sum, concat x = module.forward(x, out) elif name == 'YOLOLayer': # x: current layer, out: previous layers output yolo_out.append(module.forward(x, out)) # We need to process a shortcut layer combined with a activation layer # followed by a activation layer elif name == 'Sequential': for j, layer in enumerate(module): # for debugging... layer_name = layer.__class__.__name__ if layer_name in use_output_layers: x = layer.forward(x, out) else: x = layer.forward(x) # run module directly, i.e. mtype = 'upsample', 'maxpool', 'batchnorm2d' etc. else: x = module.forward(x) # ----------- record previous output layers out.append(x if self.routs[i] else []) # out.append(x) # for debugging: output every layer # ---------- return x, out def forward(self, x, targets=None): """ :param x: :param targets: """ ## ----- out: final output, outs: outputs of each layer out, layer_outs = self.forward_once(x) imgs = x # a batch of imgs data if self.training: assert targets is not None ## ----- build feature maps: 1/8, 1/16, 1/32 self.fpn_outs = [layer_outs[58], layer_outs[52], layer_outs[46]] ## ----- build outputs self.reg_outputs = [layer_outs[93], layer_outs[95], layer_outs[97]] # regression self.cls_outputs = [layer_outs[75], layer_outs[77], layer_outs[79]] # classification self.obj_outputs = [layer_outs[99], layer_outs[101], layer_outs[103]] # object-ness self.feature_map = layer_outs[61] # feature vector map # traverse each scale outputs = [] origin_preds = [] x_shifts = [] y_shifts = [] expanded_strides = [] for k, (reg_output, obj_output, cls_output, stride_this_level) in enumerate( zip(self.reg_outputs, self.obj_outputs, self.cls_outputs, self.strides) ): if self.training: ## ----- concatenate different branch of outputs output = torch.cat([reg_output, obj_output, cls_output], 1) ## ----- grading and reshaping output, grid = self.get_output_and_grid(output, k, stride_this_level, x.type()) x_shifts.append(grid[:, :, 0]) y_shifts.append(grid[:, :, 1]) expanded_strides.append(torch.zeros(1, grid.shape[1]) .fill_(stride_this_level) .type_as(self.fpn_outs[0])) if self.use_l1: batch_size = reg_output.shape[0] hsize, wsize = reg_output.shape[-2:] reg_output = reg_output.view(batch_size, self.n_anchors, 4, hsize, wsize) reg_output = reg_output.permute(0, 1, 3, 4, 2).reshape(batch_size, -1, 4) origin_preds.append(reg_output.clone()) else: ## ----- concatenate different branch of outputs output = torch.cat([reg_output, obj_output.sigmoid(), cls_output.sigmoid()], 1) outputs.append(output) if self.training: ## ---------- compute losses in the head loss, iou_loss, conf_loss, cls_loss, l1_loss, num_fg = self.get_losses( imgs, x_shifts, y_shifts, expanded_strides, targets, torch.cat(outputs, 1), origin_preds, dtype=self.fpn_outs[0].dtype, ) outputs = { "total_loss": loss, "iou_loss": iou_loss, "l1_loss": l1_loss, "conf_loss": conf_loss, "cls_loss": cls_loss, "num_fg": num_fg, } else: self.hw = [x.shape[-2:] for x in outputs] # [batch, n_anchors_all, 85] outputs = torch.cat([x.flatten(start_dim=2) for x in outputs], dim=2).permute(0, 2, 1) if self.decode_in_inference: outputs = self.decode_outputs(outputs, dtype=self.fpn_outs[0].type()) return outputs def get_output_and_grid(self, output, k, stride, dtype): """ :param output: :param k: :param stride: :param dtype: :return: """ grid = self.grids[k] batch_size = output.shape[0] n_ch = 5 + self.num_classes hsize, wsize = output.shape[-2:] if grid.shape[2:4] != output.shape[2:4]: yv, xv = torch.meshgrid([torch.arange(hsize), torch.arange(wsize)]) grid = torch.stack((xv, yv), 2).view(1, 1, hsize, wsize, 2).type(dtype) self.grids[k] = grid output = output.view(batch_size, self.n_anchors, n_ch, hsize, wsize) output = output.permute(0, 1, 3, 4, 2).reshape( batch_size, self.n_anchors * hsize * wsize, -1 ) ## --- reshape here grid = grid.view(1, -1, 2) output[..., :2] = (output[..., :2] + grid) * stride output[..., 2:4] = torch.exp(output[..., 2:4]) * stride return output, grid def decode_outputs(self, outputs, dtype): """ :param outputs: :param dtype: :return: """ grids = [] strides = [] for (hsize, wsize), stride in zip(self.hw, self.strides): yv, xv = torch.meshgrid([torch.arange(hsize), torch.arange(wsize)]) grid = torch.stack((xv, yv), 2).view(1, -1, 2) grids.append(grid) shape = grid.shape[:2] # strides.append(torch.full((*shape, 1), stride)) # 2021.11.3 strides.append(torch.full((*shape, 1), stride, dtype=torch.float)) grids = torch.cat(grids, dim=1).type(dtype) strides = torch.cat(strides, dim=1).type(dtype) outputs[..., :2] = (outputs[..., :2] + grids) * strides outputs[..., 2:4] = torch.exp(outputs[..., 2:4]) * strides return outputs def get_losses(self, imgs, x_shifts, y_shifts, expanded_strides, labels, outputs, origin_preds, dtype, ): """ :param imgs: :param x_shifts: :param y_shifts: :param expanded_strides: :param labels: :param outputs: :param origin_preds: :param dtype: :return: """ bbox_preds = outputs[:, :, :4] # [batch, n_anchors_all, 4] obj_preds = outputs[:, :, 4].unsqueeze(-1) # [batch, n_anchors_all, 1] cls_preds = outputs[:, :, 5:] # [batch, n_anchors_all, n_cls] ## ----- calculate targets mixup = labels.shape[2] > 5 if mixup: label_cut = labels[..., :5] else: label_cut = labels nlabel = (label_cut.sum(dim=2) > 0).sum(dim=1) # number of objects total_num_anchors = outputs.shape[1] x_shifts = torch.cat(x_shifts, 1) # [1, n_anchors_all] y_shifts = torch.cat(y_shifts, 1) # [1, n_anchors_all] expanded_strides = torch.cat(expanded_strides, 1) if self.use_l1: origin_preds = torch.cat(origin_preds, 1) cls_targets = [] reg_targets = [] l1_targets = [] obj_targets = [] fg_masks = [] num_fg = 0.0 num_gts = 0.0 ## ---------- processing each sample(image) of the batch for batch_idx in range(outputs.shape[0]): num_gt = int(nlabel[batch_idx]) num_gts += num_gt if num_gt == 0: cls_target = outputs.new_zeros((0, self.num_classes)) reg_target = outputs.new_zeros((0, 4)) l1_target = outputs.new_zeros((0, 4)) obj_target = outputs.new_zeros((total_num_anchors, 1)) fg_mask = outputs.new_zeros(total_num_anchors).bool() else: ## ----- Get ground truths gt_bboxes_per_image = labels[batch_idx, :num_gt, 1:5] # reg gt_classes = labels[batch_idx, :num_gt, 0] # cls bboxes_preds_per_image = bbox_preds[batch_idx] try: # noqa ( gt_matched_classes, fg_mask, pred_ious_this_matching, matched_gt_inds, num_fg_img, ) = self.get_assignments(batch_idx, num_gt, total_num_anchors, gt_bboxes_per_image, gt_classes, bboxes_preds_per_image, expanded_strides, x_shifts, y_shifts, cls_preds, bbox_preds, obj_preds, labels, imgs, ) except RuntimeError: logger.info( "OOM RuntimeError is raised due to the huge memory cost during label assignment. \ CPU mode is applied in this batch. If you want to avoid this issue, \ try to reduce the batch size or image size." ) print("OOM RuntimeError is raised due to the huge memory cost during label assignment. \ CPU mode is applied in this batch. If you want to avoid this issue, \ try to reduce the batch size or image size.") torch.cuda.empty_cache() ( gt_matched_classes, fg_mask, pred_ious_this_matching, matched_gt_inds, num_fg_img, ) = self.get_assignments( # noqa batch_idx, num_gt, total_num_anchors, gt_bboxes_per_image, gt_classes, bboxes_preds_per_image, expanded_strides, x_shifts, y_shifts, cls_preds, bbox_preds, obj_preds, labels, imgs, "cpu", ) torch.cuda.empty_cache() num_fg += num_fg_img ## ---------- build targets by matched GT inds cls_target = F.one_hot(gt_matched_classes.to(torch.int64), self.num_classes) \ * pred_ious_this_matching.unsqueeze(-1) obj_target = fg_mask.unsqueeze(-1) reg_target = gt_bboxes_per_image[matched_gt_inds] ## ---------- if self.use_l1: l1_target = self.get_l1_target(outputs.new_zeros((num_fg_img, 4)), gt_bboxes_per_image[matched_gt_inds], expanded_strides[0][fg_mask], x_shifts=x_shifts[0][fg_mask], y_shifts=y_shifts[0][fg_mask], ) cls_targets.append(cls_target) reg_targets.append(reg_target) obj_targets.append(obj_target.to(dtype)) fg_masks.append(fg_mask) if self.use_l1: l1_targets.append(l1_target) cls_targets = torch.cat(cls_targets, 0) reg_targets = torch.cat(reg_targets, 0) obj_targets = torch.cat(obj_targets, 0) fg_masks = torch.cat(fg_masks, 0) if self.use_l1: l1_targets = torch.cat(l1_targets, 0) num_fg = max(num_fg, 1) loss_iou = (self.iou_loss(bbox_preds.view(-1, 4)[fg_masks], reg_targets)).sum() / num_fg loss_obj = (self.bcewithlog_loss(obj_preds.view(-1, 1), obj_targets)).sum() / num_fg loss_cls = (self.bcewithlog_loss(cls_preds.view(-1, self.num_classes)[fg_masks], cls_targets)).sum() \ / num_fg if self.use_l1: loss_l1 = ( self.l1_loss(origin_preds.view(-1, 4)[fg_masks], l1_targets) ).sum() / num_fg else: loss_l1 = 0.0 reg_weight = 5.0 loss = reg_weight * loss_iou + loss_obj + loss_cls + loss_l1 return ( loss, reg_weight * loss_iou, loss_obj, loss_cls, loss_l1, num_fg / max(num_gts, 1), ) def get_l1_target(self, l1_target, gt, stride, x_shifts, y_shifts, eps=1e-8): """ return L1 targets """ l1_target[:, 0] = gt[:, 0] / stride - x_shifts l1_target[:, 1] = gt[:, 1] / stride - y_shifts l1_target[:, 2] = torch.log(gt[:, 2] / stride + eps) l1_target[:, 3] = torch.log(gt[:, 3] / stride + eps) return l1_target @torch.no_grad() def get_assignments(self, batch_idx, num_gt, total_num_anchors, gt_bboxes_per_image, gt_classes, bboxes_preds_per_image, expanded_strides, x_shifts, y_shifts, cls_preds, bbox_preds, obj_preds, labels, imgs, mode="gpu", ): """ :param batch_idx: :param num_gt: :param total_num_anchors: :param gt_bboxes_per_image: :param gt_classes: :param bboxes_preds_per_image: :param expanded_strides: :param x_shifts: :param y_shifts: :param cls_preds: :param bbox_preds: :param obj_preds: :param labels: :param imgs: :param mode: :return: """ if mode == "cpu": print("------------CPU Mode for This Batch-------------") gt_bboxes_per_image = gt_bboxes_per_image.cpu().float() bboxes_preds_per_image = bboxes_preds_per_image.cpu().float() gt_classes = gt_classes.cpu().float() expanded_strides = expanded_strides.cpu().float() x_shifts = x_shifts.cpu() y_shifts = y_shifts.cpu() img_size = imgs.shape[2:] fg_mask, is_in_boxes_and_center = self.get_in_boxes_info(gt_bboxes_per_image, expanded_strides, x_shifts, y_shifts, total_num_anchors, num_gt, img_size) bboxes_preds_per_image = bboxes_preds_per_image[fg_mask] cls_preds_ = cls_preds[batch_idx][fg_mask] obj_preds_ = obj_preds[batch_idx][fg_mask] num_in_boxes_anchor = bboxes_preds_per_image.shape[0] if mode == "cpu": gt_bboxes_per_image = gt_bboxes_per_image.cpu() bboxes_preds_per_image = bboxes_preds_per_image.cpu() ## ----- cxcywh pair_wise_ious = bboxes_iou(gt_bboxes_per_image, bboxes_preds_per_image, False) gt_cls_per_image = ( F.one_hot(gt_classes.to(torch.int64), self.num_classes) .float() .unsqueeze(1) .repeat(1, num_in_boxes_anchor, 1) ) pair_wise_ious_loss = -torch.log(pair_wise_ious + 1e-8) if mode == "cpu": cls_preds_, obj_preds_ = cls_preds_.cpu(), obj_preds_.cpu() with torch.cuda.amp.autocast(enabled=False): cls_preds_ = (cls_preds_.float().unsqueeze(0).repeat(num_gt, 1, 1).sigmoid_() * obj_preds_.float().unsqueeze(0).repeat(num_gt, 1, 1).sigmoid_()) pair_wise_cls_loss = F.binary_cross_entropy(cls_preds_.sqrt_(), gt_cls_per_image, reduction="none").sum(-1) del cls_preds_ cost = ( pair_wise_cls_loss + 3.0 * pair_wise_ious_loss + 100000.0 * (~is_in_boxes_and_center) ) ( num_fg, gt_matched_classes, pred_ious_this_matching, matched_gt_inds, ) = self.dynamic_k_matching(cost, pair_wise_ious, gt_classes, num_gt, fg_mask) del pair_wise_cls_loss, cost, pair_wise_ious, pair_wise_ious_loss if mode == "cpu": gt_matched_classes = gt_matched_classes.cuda() fg_mask = fg_mask.cuda() pred_ious_this_matching = pred_ious_this_matching.cuda() matched_gt_inds = matched_gt_inds.cuda() return ( gt_matched_classes, fg_mask, pred_ious_this_matching, matched_gt_inds, num_fg, ) def get_in_boxes_info(self, gt_bboxes_per_image, expanded_strides, x_shifts, y_shifts, total_num_anchors, num_gt, img_size): """ :param gt_bboxes_per_image: :param expanded_strides: :param x_shifts: :param y_shifts: :param total_num_anchors: :param num_gt: :param img_size: :return: """ expanded_strides_per_image = expanded_strides[0] x_shifts_per_image = x_shifts[0] * expanded_strides_per_image y_shifts_per_image = y_shifts[0] * expanded_strides_per_image # [n_anchor] -> [n_gt, n_anchor] x_centers_per_image = ( (x_shifts_per_image + 0.5 * expanded_strides_per_image) .unsqueeze(0) .repeat(num_gt, 1) ) y_centers_per_image = ( (y_shifts_per_image + 0.5 * expanded_strides_per_image) .unsqueeze(0) .repeat(num_gt, 1) ) gt_bboxes_per_image_l = ( (gt_bboxes_per_image[:, 0] - 0.5 * gt_bboxes_per_image[:, 2]) .unsqueeze(1) .repeat(1, total_num_anchors) ) gt_bboxes_per_image_r = ( (gt_bboxes_per_image[:, 0] + 0.5 * gt_bboxes_per_image[:, 2]) .unsqueeze(1) .repeat(1, total_num_anchors) ) gt_bboxes_per_image_t = ( (gt_bboxes_per_image[:, 1] - 0.5 * gt_bboxes_per_image[:, 3]) .unsqueeze(1) .repeat(1, total_num_anchors) ) gt_bboxes_per_image_b = ( (gt_bboxes_per_image[:, 1] + 0.5 * gt_bboxes_per_image[:, 3]) .unsqueeze(1) .repeat(1, total_num_anchors) ) b_l = x_centers_per_image - gt_bboxes_per_image_l b_r = gt_bboxes_per_image_r - x_centers_per_image b_t = y_centers_per_image - gt_bboxes_per_image_t b_b = gt_bboxes_per_image_b - y_centers_per_image bbox_deltas = torch.stack([b_l, b_t, b_r, b_b], 2) is_in_boxes = bbox_deltas.min(dim=-1).values > 0.0 is_in_boxes_all = is_in_boxes.sum(dim=0) > 0 # in fixed center center_radius = 2.5 # clip center inside image gt_bboxes_per_image_clip = gt_bboxes_per_image[:, 0:2].clone() gt_bboxes_per_image_clip[:, 0] = torch.clamp(gt_bboxes_per_image_clip[:, 0], min=0, max=img_size[1]) gt_bboxes_per_image_clip[:, 1] = torch.clamp(gt_bboxes_per_image_clip[:, 1], min=0, max=img_size[0]) gt_bboxes_per_image_l = (gt_bboxes_per_image_clip[:, 0]).unsqueeze(1).repeat( 1, total_num_anchors ) - center_radius * expanded_strides_per_image.unsqueeze(0) gt_bboxes_per_image_r = (gt_bboxes_per_image_clip[:, 0]).unsqueeze(1).repeat( 1, total_num_anchors ) + center_radius * expanded_strides_per_image.unsqueeze(0) gt_bboxes_per_image_t = (gt_bboxes_per_image_clip[:, 1]).unsqueeze(1).repeat( 1, total_num_anchors ) - center_radius * expanded_strides_per_image.unsqueeze(0) gt_bboxes_per_image_b = (gt_bboxes_per_image_clip[:, 1]).unsqueeze(1).repeat( 1, total_num_anchors ) + center_radius * expanded_strides_per_image.unsqueeze(0) c_l = x_centers_per_image - gt_bboxes_per_image_l c_r = gt_bboxes_per_image_r - x_centers_per_image c_t = y_centers_per_image - gt_bboxes_per_image_t c_b = gt_bboxes_per_image_b - y_centers_per_image center_deltas = torch.stack([c_l, c_t, c_r, c_b], 2) is_in_centers = center_deltas.min(dim=-1).values > 0.0 is_in_centers_all = is_in_centers.sum(dim=0) > 0 # in boxes and in centers is_in_boxes_anchor = is_in_boxes_all | is_in_centers_all is_in_boxes_and_center = ( is_in_boxes[:, is_in_boxes_anchor] & is_in_centers[:, is_in_boxes_anchor] ) del gt_bboxes_per_image_clip return is_in_boxes_anchor, is_in_boxes_and_center def dynamic_k_matching(self, cost, pair_wise_ious, gt_classes, num_gt, fg_mask): """ :param cost: :param pair_wise_ious: :param gt_classes: :param num_gt: :param fg_mask: :return: """ # Dynamic K # --------------------------------------------------------------- matching_matrix = torch.zeros_like(cost) ious_in_boxes_matrix = pair_wise_ious n_candidate_k = min(10, ious_in_boxes_matrix.size(1)) topk_ious, _ = torch.topk(ious_in_boxes_matrix, n_candidate_k, dim=1) dynamic_ks = torch.clamp(topk_ious.sum(1).int(), min=1) for gt_idx in range(num_gt): _, pos_idx = torch.topk(cost[gt_idx], k=dynamic_ks[gt_idx].item(), largest=False) matching_matrix[gt_idx][pos_idx] = 1.0 del topk_ious, dynamic_ks, pos_idx anchor_matching_gt = matching_matrix.sum(0) if (anchor_matching_gt > 1).sum() > 0: cost_min, cost_argmin = torch.min(cost[:, anchor_matching_gt > 1], dim=0) matching_matrix[:, anchor_matching_gt > 1] *= 0.0 matching_matrix[cost_argmin, anchor_matching_gt > 1] = 1.0 fg_mask_inboxes = matching_matrix.sum(0) > 0.0 num_fg = fg_mask_inboxes.sum().item() fg_mask[fg_mask.clone()] = fg_mask_inboxes matched_gt_inds = matching_matrix[:, fg_mask_inboxes].argmax(0) gt_matched_classes = gt_classes[matched_gt_inds] pred_ious_this_matching = (matching_matrix * pair_wise_ious).sum(0)[fg_mask_inboxes] return num_fg, gt_matched_classes, pred_ious_this_matching, matched_gt_inds class YOLOXDarknetReID(nn.Module): """ YOLOX model module. The module list is defined by create_yolov3_modules function. The network returns loss values from three YOLO layers during training and detection results during test. """ def __init__(self, cfg, net_size=(768, 448), strides=[8, 16, 32], num_classes=5, init_weights=False, reid=False, max_id_dict=None, use_momentum=True, use_mtl=False): """ Darknet based :param cfg: :param net_size: :param strides: :param num_classes: :param use_momentum: :param use_mtl: :return """ super().__init__() if not os.path.isfile(cfg): logger.error("Invalid cfg file path: {:s}.".format(cfg)) exit(-1) ## ----- build the network self.module_defs = parse_darknet_cfg(cfg) logger.info("Network config file parsed.") self.module_list, self.routs = build_modules(self.module_defs, net_size, cfg, 3, use_momentum) logger.info("Network modules built.") if init_weights: self.init_weights() logger.info("Network weights initialized.") else: logger.info("Network weights not initialized.") self.n_anchors = 1 self.num_classes = num_classes logger.info("Number of object classes: {:d}.".format(self.num_classes)) self.net_size = net_size print("Net size: ", self.net_size) self.reid = reid if self.reid: logger.info("ReID: True") if self.reid: # ----- Define ReID classifiers if max_id_dict is not None: self.max_id_dict = max_id_dict self.reid_classifiers = nn.ModuleList() # num_classes layers of FC for cls_id, nID in self.max_id_dict.items(): self.reid_classifiers.append(nn.Linear(128, nID + 5)) # normal FC layers else: logger.info("ReID: False") ## ----- define some modules self.decode_in_inference = True # for deploy, set to False self.use_l1 = False self.scale_1st = 0.125 # 1/8 ## ---------- Define loss functions self.l1_loss = nn.L1Loss(reduction="none") self.bcewithlog_loss = nn.BCEWithLogitsLoss(reduction="none") self.iou_loss = IOUloss(reduction="none") self.reid_loss = nn.CrossEntropyLoss() self.ghm_c = GHMC(bins=100) ## --- # whether to use MTL loss self.use_mtl = use_mtl if self.use_mtl: self.tasks = ["iou", "obj", "cls", "l1", "reid"] self.loss_dict = dict() for task in self.tasks: self.loss_dict[task] = 0.0 self.mtl_loss = UncertaintyLoss(self.tasks) self.strides = strides self.grids = [torch.zeros(1)] * len(self.strides) self.expanded_strides = [None] * len(self.strides) def init_layer_weights(self, m): """ :param m: :return: """ if isinstance(m, nn.Conv2d): init.xavier_uniform_(m.weight) if m.bias is not None: init.constant_(m.bias, 0) elif isinstance(m, nn.BatchNorm2d): init.constant_(m.weight, 1) init.constant_(m.bias, 0) elif isinstance(m, nn.Linear): init.normal(m.weight, std=1e-3) if m.bias is not None: init.constant_(m.bias, 0) def init_weights(self): """ Init weights of the net work """ for m in self.module_list: self.init_layer_weights(m) def forward_once(self, x): """ :param x: :return: """ img_size = x.shape[-2:] # height, width yolo_out, out = [], [] # 3(or 2) yolo layers correspond to 3(or 2) reid feature map layers # ---------- traverse the network(by traversing the module_list) use_output_layers = ['WeightedFeatureFusion', # Shortcut(add) 'FeatureConcat', # Route(concatenate) 'FeatureConcat_l', 'RouteGroup', 'ScaleChannel', 'ScaleChannels', # my own implementation 'SAM'] # ----- traverse forward for i, module in enumerate(self.module_list): name = module.__class__.__name__ if name in use_output_layers: # sum, concat x = module.forward(x, out) elif name == 'YOLOLayer': # x: current layer, out: previous layers output yolo_out.append(module.forward(x, out)) # We need to process a shortcut layer combined with a activation layer # followed by a activation layer elif name == 'Sequential': for j, layer in enumerate(module): # for debugging... layer_name = layer.__class__.__name__ if layer_name in use_output_layers: x = layer.forward(x, out) else: x = layer.forward(x) # run module directly, i.e. mtype = 'upsample', 'maxpool', 'batchnorm2d' etc. else: x = module.forward(x) # ----------- record previous output layers out.append(x if self.routs[i] else []) # out.append(x) # for debugging: output every layer # ---------- return x, out def forward(self, x, targets=None): """ :param x: :param targets: """ ## ----- out: final output, outs: outputs of each layer out, layer_outs = self.forward_once(x) imgs = x # a batch of imgs data if self.training: assert targets is not None ## ----- build feature maps: 1/8, 1/16, 1/32 self.fpn_outs = [layer_outs[58], layer_outs[52], layer_outs[46]] ## ----- build outputs self.reg_outputs = [layer_outs[93], layer_outs[95], layer_outs[97]] # regression self.cls_outputs = [layer_outs[75], layer_outs[77], layer_outs[79]] # classification self.obj_outputs = [layer_outs[99], layer_outs[101], layer_outs[103]] # object-ness self.feature_map = layer_outs[61] # feature vector map ## @even: ----- feature map output if self.reid: # 20×128×56×96 feature_output = self.feature_map # traverse each scale outputs = [] origin_preds = [] x_shifts = [] y_shifts = [] expanded_strides = [] for k, (reg_output, obj_output, cls_output, stride_this_level) in enumerate( zip(self.reg_outputs, self.obj_outputs, self.cls_outputs, self.strides) ): if self.training: ## ----- concatenate different branch of outputs output = torch.cat([reg_output, obj_output, cls_output], 1) ## ----- grading and reshaping output, grid = self.get_output_and_grid(output, k, stride_this_level, x.type()) x_shifts.append(grid[:, :, 0]) y_shifts.append(grid[:, :, 1]) expanded_strides.append(torch.zeros(1, grid.shape[1]) .fill_(stride_this_level) .type_as(self.fpn_outs[0])) if self.use_l1: batch_size = reg_output.shape[0] hsize, wsize = reg_output.shape[-2:] reg_output = reg_output.view(batch_size, self.n_anchors, 4, hsize, wsize) reg_output = reg_output.permute(0, 1, 3, 4, 2).reshape(batch_size, -1, 4) origin_preds.append(reg_output.clone()) else: ## ----- concatenate different branch of outputs output = torch.cat([reg_output, obj_output.sigmoid(), cls_output.sigmoid()], 1) outputs.append(output) if self.training: ## ---------- compute losses in the head if self.reid: loss, iou_loss, conf_loss, cls_loss, l1_loss, reid_loss, num_fg = \ self.get_losses_with_reid(imgs, x_shifts, y_shifts, expanded_strides, targets, torch.cat(outputs, 1), feature_output, origin_preds, dtype=self.fpn_outs[0].dtype, ) outputs = { "total_loss": loss, "iou_loss": iou_loss, "l1_loss": l1_loss, "conf_loss": conf_loss, "cls_loss": cls_loss, "reid_loss": reid_loss, "num_fg": num_fg, } else: loss, iou_loss, conf_loss, cls_loss, l1_loss, num_fg \ = self.get_losses(imgs, x_shifts, y_shifts, expanded_strides, targets, torch.cat(outputs, 1), origin_preds, dtype=self.fpn_outs[0].dtype, ) outputs = { "total_loss": loss, "iou_loss": iou_loss, "l1_loss": l1_loss, "conf_loss": conf_loss, "cls_loss": cls_loss, "num_fg": num_fg, } else: # testing self.hw = [x.shape[-2:] for x in outputs] # [batch, n_anchors_all, 85] outputs = torch.cat([x.flatten(start_dim=2) for x in outputs], dim=2).permute(0, 2, 1) if self.decode_in_inference: if self.reid: outputs = self.decode_outputs(outputs, dtype=self.fpn_outs[0].type()), feature_output else: outputs = self.decode_outputs(outputs, dtype=self.fpn_outs[0].type()) return outputs def get_output_and_grid(self, output, k, stride, dtype): """ :param output: :param k: :param stride: :param dtype: :return: """ grid = self.grids[k] batch_size = output.shape[0] n_ch = 5 + self.num_classes hsize, wsize = output.shape[-2:] if grid.shape[2:4] != output.shape[2:4]: yv, xv = torch.meshgrid([torch.arange(hsize), torch.arange(wsize)]) grid = torch.stack((xv, yv), 2).view(1, 1, hsize, wsize, 2).type(dtype) self.grids[k] = grid output = output.view(batch_size, self.n_anchors, n_ch, hsize, wsize) output = output.permute(0, 1, 3, 4, 2).reshape( batch_size, self.n_anchors * hsize * wsize, -1 ) ## --- reshape here grid = grid.view(1, -1, 2) output[..., :2] = (output[..., :2] + grid) * stride output[..., 2:4] = torch.exp(output[..., 2:4]) * stride return output, grid def decode_outputs(self, outputs, dtype): """ :param outputs: :param dtype: :return: """ grids = [] strides = [] for (hsize, wsize), stride in zip(self.hw, self.strides): yv, xv = torch.meshgrid([torch.arange(hsize), torch.arange(wsize)]) grid = torch.stack((xv, yv), 2).view(1, -1, 2) grids.append(grid) shape = grid.shape[:2] # strides.append(torch.full((*shape, 1), stride)) # 2021.11.3 strides.append(torch.full((*shape, 1), stride, dtype=torch.float)) grids = torch.cat(grids, dim=1).type(dtype) strides = torch.cat(strides, dim=1).type(dtype) outputs[..., :2] = (outputs[..., :2] + grids) * strides outputs[..., 2:4] = torch.exp(outputs[..., 2:4]) * strides return outputs def get_losses_with_reid(self, imgs, x_shifts, y_shifts, expanded_strides, labels, outputs, feature_output, origin_preds, dtype, use_mtl=False): """ :param imgs: :param x_shifts: :param y_shifts: :param expanded_strides: :param labels: :param outputs: :param feature_output: :param origin_preds: :param dtype: :param use_mtl: :return: """ ## ---------- Get net outputs bbox_preds = outputs[:, :, :4] # [batch, n_anchors_all, 4] obj_preds = outputs[:, :, 4].unsqueeze(-1) # [batch, n_anchors_all, 1] cls_preds = outputs[:, :, 5:] # [batch, n_anchors_all, n_cls] ## ----- calculate targets mixup = labels.shape[2] > 5 if mixup: label_cut = labels[..., :5] else: label_cut = labels n_label = (label_cut.sum(dim=2) > 0).sum(dim=1) # number of objects total_num_anchors = outputs.shape[1] x_shifts = torch.cat(x_shifts, 1) # [1, n_anchors_all] y_shifts = torch.cat(y_shifts, 1) # [1, n_anchors_all] expanded_strides = torch.cat(expanded_strides, 1) if self.use_l1: # False origin_preds = torch.cat(origin_preds, 1) cls_targets = [] reg_targets = [] obj_targets = [] reid_id_targets = [] # track ids, using for ReID loss reid_feature_targets = [] gt_cls_id_targets = [] l1_targets = [] fg_masks = [] num_fg = 0.0 num_gts = 0.0 ## ---------- processing each sample(image) of the batch for batch_idx in range(outputs.shape[0]): num_gt = int(n_label[batch_idx]) num_gts += num_gt if num_gt == 0: cls_target = outputs.new_zeros((0, self.num_classes)) reg_target = outputs.new_zeros((0, 4)) l1_target = outputs.new_zeros((0, 4)) obj_target = outputs.new_zeros((total_num_anchors, 1)) fg_mask = outputs.new_zeros(total_num_anchors).bool() else: ## ----- Get ground truths gt_bboxes_per_image = labels[batch_idx, :num_gt, 1:5] # reg gt_classes = labels[batch_idx, :num_gt, 0] # class ids gt_ids = labels[batch_idx, :num_gt, 5] # track ids ## ----- Get bbox(reg) predictions bboxes_preds_per_image = bbox_preds[batch_idx] # try: # noqa ( gt_matched_classes, fg_mask, pred_ious_this_matching, matched_gt_inds, num_fg_img, ) = self.get_assignments(batch_idx, num_gt, total_num_anchors, gt_bboxes_per_image, gt_classes, bboxes_preds_per_image, expanded_strides, x_shifts, y_shifts, cls_preds, bbox_preds, obj_preds, labels, imgs, ) except RuntimeError: logger.info( "OOM RuntimeError is raised due to the huge memory cost during label assignment. \ CPU mode is applied in this batch. If you want to avoid this issue, \ try to reduce the batch size or image size." ) print("OOM RuntimeError is raised due to the huge memory cost during label assignment. \ CPU mode is applied in this batch. If you want to avoid this issue, \ try to reduce the batch size or image size.") torch.cuda.empty_cache() ( gt_matched_classes, fg_mask, pred_ious_this_matching, matched_gt_inds, num_fg_img, ) = self.get_assignments( # noqa batch_idx, num_gt, total_num_anchors, gt_bboxes_per_image, gt_classes, bboxes_preds_per_image, expanded_strides, x_shifts, y_shifts, cls_preds, bbox_preds, obj_preds, labels, imgs, "cpu", ) torch.cuda.empty_cache() num_fg += num_fg_img ## ---------- build targets by matched GT inds cls_target = F.one_hot(gt_matched_classes.to(torch.int64), self.num_classes) \ * pred_ious_this_matching.unsqueeze(-1) obj_target = fg_mask.unsqueeze(-1) reg_target = gt_bboxes_per_image[matched_gt_inds] # ----- ReID targets reid_target = gt_ids[matched_gt_inds] gt_cls_id_targets.append(gt_matched_classes.to(torch.int64)) ## ----- Get feature vector for each GT bbox YXs = reg_target[:, :2] * self.scale_1st + 0.5 YXs = YXs.long() Ys = YXs[:, 0] Xs = YXs[:, 1] ## ----- avoid exceed reid feature map's range Xs.clamp_(min=0, max=feature_output.shape[3] - 1) Ys.clamp_(min=0, max=feature_output.shape[2] - 1) feature = feature_output[batch_idx, :, Ys, Xs] feature.transpose_(0, 1) reid_feature_targets.append(feature) # N×128 ## ---------- if self.use_l1: l1_target = self.get_l1_target(outputs.new_zeros((num_fg_img, 4)), gt_bboxes_per_image[matched_gt_inds], expanded_strides[0][fg_mask], x_shifts=x_shifts[0][fg_mask], y_shifts=y_shifts[0][fg_mask], ) cls_targets.append(cls_target) reg_targets.append(reg_target) obj_targets.append(obj_target.to(dtype)) reid_id_targets.append(reid_target) fg_masks.append(fg_mask) if self.use_l1: l1_targets.append(l1_target) cls_targets = torch.cat(cls_targets, 0) reg_targets = torch.cat(reg_targets, 0) obj_targets = torch.cat(obj_targets, 0) reid_id_targets = torch.cat(reid_id_targets, 0) reid_feature_targets = torch.cat(reid_feature_targets, 0) gt_cls_id_targets = torch.cat(gt_cls_id_targets, 0) fg_masks = torch.cat(fg_masks, 0) if self.use_l1: # False l1_targets = torch.cat(l1_targets, 0) num_fg = max(num_fg, 1) loss_iou = (self.iou_loss(bbox_preds.view(-1, 4)[fg_masks], reg_targets)).sum() / num_fg loss_obj = (self.bcewithlog_loss(obj_preds.view(-1, 1), obj_targets)).sum() / num_fg loss_cls = (self.bcewithlog_loss(cls_preds.view(-1, self.num_classes)[fg_masks], cls_targets)).sum() \ / num_fg ## ----- compute ReID loss loss_reid = 0.0 for cls_id, id_num in self.max_id_dict.items(): inds = torch.where(gt_cls_id_targets == cls_id) if inds[0].shape[0] == 0: # print('skip class id', cls_id) continue cls_features = reid_feature_targets[inds] ## ----- L2 normalize the feature vector cls_features = F.normalize(cls_features, dim=1) ## ----- pass through the FC layer: cls_fc_preds = self.reid_classifiers[cls_id].forward(cls_features).contiguous() ## ----- compute loss cls_reid_id_target = reid_id_targets[inds] cls_reid_id_target = cls_reid_id_target.to(torch.int64) # loss_reid += self.reid_loss(cls_fc_preds, cls_reid_id_target) # --- GHM-C loss target = torch.zeros_like(cls_fc_preds) target.scatter_(1, cls_reid_id_target.view(-1, 1).to(torch.int64), 1) label_weight = torch.ones_like(cls_fc_preds) loss_reid += self.ghm_c.forward(cls_fc_preds, target, label_weight) if self.use_l1: loss_l1 = (self.l1_loss(origin_preds.view(-1, 4)[fg_masks], l1_targets)).sum() / num_fg else: loss_l1 = 0.0 reg_weight = 5.0 if use_mtl: self.loss_dict["iou_loss"] = loss_iou * reg_weight self.loss_dict["obj_loss"] = loss_obj self.loss_dict["cls_loss"] = loss_cls self.loss_dict["l1_loss"] = loss_l1 self.loss_dict["reid_loss"] = loss_reid loss_sum = self.mtl_loss.forward(self.loss_dict) return ( loss_sum, self.loss_dict["iou_loss"], self.loss_dict["obj_loss"], self.loss_dict["cls_loss"], self.loss_dict["l1_loss"], self.loss_dict["reid_loss"], num_fg / max(num_gts, 1), ) else: loss_sum = reg_weight * loss_iou + loss_obj + loss_cls + loss_l1 + loss_reid return ( loss_sum, loss_iou, loss_obj, loss_cls, loss_l1, loss_reid, num_fg / max(num_gts, 1), ) def get_losses(self, imgs, x_shifts, y_shifts, expanded_strides, labels, outputs, origin_preds, dtype,): """ :param imgs: :param x_shifts: :param y_shifts: :param expanded_strides: :param labels: :param outputs: :param origin_preds: :param dtype: :return: """ bbox_preds = outputs[:, :, :4] # [batch, n_anchors_all, 4] obj_preds = outputs[:, :, 4].unsqueeze(-1) # [batch, n_anchors_all, 1] cls_preds = outputs[:, :, 5:] # [batch, n_anchors_all, n_cls] ## ----- calculate targets mixup = labels.shape[2] > 5 if mixup: label_cut = labels[..., :5] else: label_cut = labels nlabel = (label_cut.sum(dim=2) > 0).sum(dim=1) # number of objects total_num_anchors = outputs.shape[1] x_shifts = torch.cat(x_shifts, 1) # [1, n_anchors_all] y_shifts = torch.cat(y_shifts, 1) # [1, n_anchors_all] expanded_strides = torch.cat(expanded_strides, 1) if self.use_l1: origin_preds = torch.cat(origin_preds, 1) cls_targets = [] reg_targets = [] l1_targets = [] obj_targets = [] fg_masks = [] num_fg = 0.0 num_gts = 0.0 ## ---------- processing each sample(image) of the batch for batch_idx in range(outputs.shape[0]): num_gt = int(nlabel[batch_idx]) num_gts += num_gt if num_gt == 0: cls_target = outputs.new_zeros((0, self.num_classes)) reg_target = outputs.new_zeros((0, 4)) l1_target = outputs.new_zeros((0, 4)) obj_target = outputs.new_zeros((total_num_anchors, 1)) fg_mask = outputs.new_zeros(total_num_anchors).bool() else: ## ----- Get ground truths gt_bboxes_per_image = labels[batch_idx, :num_gt, 1:5] # reg gt_classes = labels[batch_idx, :num_gt, 0] # cls bboxes_preds_per_image = bbox_preds[batch_idx] try: # noqa ( gt_matched_classes, fg_mask, pred_ious_this_matching, matched_gt_inds, num_fg_img, ) = self.get_assignments(batch_idx, num_gt, total_num_anchors, gt_bboxes_per_image, gt_classes, bboxes_preds_per_image, expanded_strides, x_shifts, y_shifts, cls_preds, bbox_preds, obj_preds, labels, imgs, ) except RuntimeError: logger.info( "OOM RuntimeError is raised due to the huge memory cost during label assignment. \ CPU mode is applied in this batch. If you want to avoid this issue, \ try to reduce the batch size or image size." ) print("OOM RuntimeError is raised due to the huge memory cost during label assignment. \ CPU mode is applied in this batch. If you want to avoid this issue, \ try to reduce the batch size or image size.") torch.cuda.empty_cache() ( gt_matched_classes, fg_mask, pred_ious_this_matching, matched_gt_inds, num_fg_img, ) = self.get_assignments( # noqa batch_idx, num_gt, total_num_anchors, gt_bboxes_per_image, gt_classes, bboxes_preds_per_image, expanded_strides, x_shifts, y_shifts, cls_preds, bbox_preds, obj_preds, labels, imgs, "cpu", ) torch.cuda.empty_cache() num_fg += num_fg_img ## ---------- build targets by matched GT inds cls_target = F.one_hot(gt_matched_classes.to(torch.int64), self.num_classes) \ * pred_ious_this_matching.unsqueeze(-1) obj_target = fg_mask.unsqueeze(-1) reg_target = gt_bboxes_per_image[matched_gt_inds] ## ---------- if self.use_l1: l1_target = self.get_l1_target(outputs.new_zeros((num_fg_img, 4)), gt_bboxes_per_image[matched_gt_inds], expanded_strides[0][fg_mask], x_shifts=x_shifts[0][fg_mask], y_shifts=y_shifts[0][fg_mask], ) cls_targets.append(cls_target) reg_targets.append(reg_target) obj_targets.append(obj_target.to(dtype)) fg_masks.append(fg_mask) if self.use_l1: l1_targets.append(l1_target) cls_targets = torch.cat(cls_targets, 0) reg_targets = torch.cat(reg_targets, 0) obj_targets = torch.cat(obj_targets, 0) fg_masks = torch.cat(fg_masks, 0) if self.use_l1: l1_targets = torch.cat(l1_targets, 0) num_fg = max(num_fg, 1) loss_iou = (self.iou_loss(bbox_preds.view(-1, 4)[fg_masks], reg_targets)).sum() / num_fg loss_obj = (self.bcewithlog_loss(obj_preds.view(-1, 1), obj_targets)).sum() / num_fg loss_cls = (self.bcewithlog_loss(cls_preds.view(-1, self.num_classes)[fg_masks], cls_targets)).sum() \ / num_fg if self.use_l1: loss_l1 = ( self.l1_loss(origin_preds.view(-1, 4)[fg_masks], l1_targets) ).sum() / num_fg else: loss_l1 = 0.0 reg_weight = 5.0 loss = reg_weight * loss_iou + loss_obj + loss_cls + loss_l1 return ( loss, reg_weight * loss_iou, loss_obj, loss_cls, loss_l1, num_fg / max(num_gts, 1), ) def get_l1_target(self, l1_target, gt, stride, x_shifts, y_shifts, eps=1e-8): """ return L1 targets """ l1_target[:, 0] = gt[:, 0] / stride - x_shifts l1_target[:, 1] = gt[:, 1] / stride - y_shifts l1_target[:, 2] = torch.log(gt[:, 2] / stride + eps) l1_target[:, 3] = torch.log(gt[:, 3] / stride + eps) return l1_target @torch.no_grad() def get_assignments(self, batch_idx, num_gt, total_num_anchors, gt_bboxes_per_image, gt_classes, bboxes_preds_per_image, expanded_strides, x_shifts, y_shifts, cls_preds, bbox_preds, obj_preds, labels, imgs, mode="gpu", ): """ :param batch_idx: :param num_gt: :param total_num_anchors: :param gt_bboxes_per_image: :param gt_classes: :param bboxes_preds_per_image: :param expanded_strides: :param x_shifts: :param y_shifts: :param cls_preds: :param bbox_preds: :param obj_preds: :param labels: :param imgs: :param mode: :return: """ if mode == "cpu": print("------------CPU Mode for This Batch-------------") gt_bboxes_per_image = gt_bboxes_per_image.cpu().float() bboxes_preds_per_image = bboxes_preds_per_image.cpu().float() gt_classes = gt_classes.cpu().float() expanded_strides = expanded_strides.cpu().float() x_shifts = x_shifts.cpu() y_shifts = y_shifts.cpu() img_size = imgs.shape[2:] fg_mask, is_in_boxes_and_center = self.get_in_boxes_info(gt_bboxes_per_image, expanded_strides, x_shifts, y_shifts, total_num_anchors, num_gt, img_size) bboxes_preds_per_image = bboxes_preds_per_image[fg_mask] cls_preds_ = cls_preds[batch_idx][fg_mask] obj_preds_ = obj_preds[batch_idx][fg_mask] num_in_boxes_anchor = bboxes_preds_per_image.shape[0] if mode == "cpu": gt_bboxes_per_image = gt_bboxes_per_image.cpu() bboxes_preds_per_image = bboxes_preds_per_image.cpu() ## ----- cxcywh pair_wise_ious = bboxes_iou(gt_bboxes_per_image, bboxes_preds_per_image, False) gt_cls_per_image = ( F.one_hot(gt_classes.to(torch.int64), self.num_classes) .float() .unsqueeze(1) .repeat(1, num_in_boxes_anchor, 1) ) pair_wise_ious_loss = -torch.log(pair_wise_ious + 1e-8) if mode == "cpu": cls_preds_, obj_preds_ = cls_preds_.cpu(), obj_preds_.cpu() with torch.cuda.amp.autocast(enabled=False): cls_preds_ = (cls_preds_.float().unsqueeze(0).repeat(num_gt, 1, 1).sigmoid_() * obj_preds_.float().unsqueeze(0).repeat(num_gt, 1, 1).sigmoid_()) pair_wise_cls_loss = F.binary_cross_entropy(cls_preds_.sqrt_(), gt_cls_per_image, reduction="none").sum(-1) del cls_preds_ cost = ( pair_wise_cls_loss + 3.0 * pair_wise_ious_loss + 100000.0 * (~is_in_boxes_and_center) ) ( num_fg, gt_matched_classes, pred_ious_this_matching, matched_gt_inds, ) = self.dynamic_k_matching(cost, pair_wise_ious, gt_classes, num_gt, fg_mask) del pair_wise_cls_loss, cost, pair_wise_ious, pair_wise_ious_loss if mode == "cpu": gt_matched_classes = gt_matched_classes.cuda() fg_mask = fg_mask.cuda() pred_ious_this_matching = pred_ious_this_matching.cuda() matched_gt_inds = matched_gt_inds.cuda() return ( gt_matched_classes, fg_mask, pred_ious_this_matching, matched_gt_inds, num_fg, ) def get_in_boxes_info(self, gt_bboxes_per_image, expanded_strides, x_shifts, y_shifts, total_num_anchors, num_gt, img_size): """ :param gt_bboxes_per_image: :param expanded_strides: :param x_shifts: :param y_shifts: :param total_num_anchors: :param num_gt: :param img_size: :return: """ expanded_strides_per_image = expanded_strides[0] x_shifts_per_image = x_shifts[0] * expanded_strides_per_image y_shifts_per_image = y_shifts[0] * expanded_strides_per_image # [n_anchor] -> [n_gt, n_anchor] x_centers_per_image = ( (x_shifts_per_image + 0.5 * expanded_strides_per_image) .unsqueeze(0) .repeat(num_gt, 1) ) y_centers_per_image = ( (y_shifts_per_image + 0.5 * expanded_strides_per_image) .unsqueeze(0) .repeat(num_gt, 1) ) gt_bboxes_per_image_l = ( (gt_bboxes_per_image[:, 0] - 0.5 * gt_bboxes_per_image[:, 2]) .unsqueeze(1) .repeat(1, total_num_anchors) ) gt_bboxes_per_image_r = ( (gt_bboxes_per_image[:, 0] + 0.5 * gt_bboxes_per_image[:, 2]) .unsqueeze(1) .repeat(1, total_num_anchors) ) gt_bboxes_per_image_t = ( (gt_bboxes_per_image[:, 1] - 0.5 * gt_bboxes_per_image[:, 3]) .unsqueeze(1) .repeat(1, total_num_anchors) ) gt_bboxes_per_image_b = ( (gt_bboxes_per_image[:, 1] + 0.5 * gt_bboxes_per_image[:, 3]) .unsqueeze(1) .repeat(1, total_num_anchors) ) b_l = x_centers_per_image - gt_bboxes_per_image_l b_r = gt_bboxes_per_image_r - x_centers_per_image b_t = y_centers_per_image - gt_bboxes_per_image_t b_b = gt_bboxes_per_image_b - y_centers_per_image bbox_deltas = torch.stack([b_l, b_t, b_r, b_b], 2) is_in_boxes = bbox_deltas.min(dim=-1).values > 0.0 is_in_boxes_all = is_in_boxes.sum(dim=0) > 0 # in fixed center center_radius = 2.5 # clip center inside image gt_bboxes_per_image_clip = gt_bboxes_per_image[:, 0:2].clone() gt_bboxes_per_image_clip[:, 0] = torch.clamp(gt_bboxes_per_image_clip[:, 0], min=0, max=img_size[1]) gt_bboxes_per_image_clip[:, 1] = torch.clamp(gt_bboxes_per_image_clip[:, 1], min=0, max=img_size[0]) gt_bboxes_per_image_l = (gt_bboxes_per_image_clip[:, 0]).unsqueeze(1).repeat( 1, total_num_anchors ) - center_radius * expanded_strides_per_image.unsqueeze(0) gt_bboxes_per_image_r = (gt_bboxes_per_image_clip[:, 0]).unsqueeze(1).repeat( 1, total_num_anchors ) + center_radius * expanded_strides_per_image.unsqueeze(0) gt_bboxes_per_image_t = (gt_bboxes_per_image_clip[:, 1]).unsqueeze(1).repeat( 1, total_num_anchors ) - center_radius * expanded_strides_per_image.unsqueeze(0) gt_bboxes_per_image_b = (gt_bboxes_per_image_clip[:, 1]).unsqueeze(1).repeat( 1, total_num_anchors ) + center_radius * expanded_strides_per_image.unsqueeze(0) c_l = x_centers_per_image - gt_bboxes_per_image_l c_r = gt_bboxes_per_image_r - x_centers_per_image c_t = y_centers_per_image - gt_bboxes_per_image_t c_b = gt_bboxes_per_image_b - y_centers_per_image center_deltas = torch.stack([c_l, c_t, c_r, c_b], 2) is_in_centers = center_deltas.min(dim=-1).values > 0.0 is_in_centers_all = is_in_centers.sum(dim=0) > 0 # in boxes and in centers is_in_boxes_anchor = is_in_boxes_all | is_in_centers_all is_in_boxes_and_center = ( is_in_boxes[:, is_in_boxes_anchor] & is_in_centers[:, is_in_boxes_anchor] ) del gt_bboxes_per_image_clip return is_in_boxes_anchor, is_in_boxes_and_center def dynamic_k_matching(self, cost, pair_wise_ious, gt_classes, num_gt, fg_mask): """ :param cost: :param pair_wise_ious: :param gt_classes: :param num_gt: :param fg_mask: :return: """ # Dynamic K # --------------------------------------------------------------- matching_matrix = torch.zeros_like(cost) ious_in_boxes_matrix = pair_wise_ious n_candidate_k = min(10, ious_in_boxes_matrix.size(1)) topk_ious, _ = torch.topk(ious_in_boxes_matrix, n_candidate_k, dim=1) dynamic_ks = torch.clamp(topk_ious.sum(1).int(), min=1) for gt_idx in range(num_gt): _, pos_idx = torch.topk(cost[gt_idx], k=dynamic_ks[gt_idx].item(), largest=False) matching_matrix[gt_idx][pos_idx] = 1.0 del topk_ious, dynamic_ks, pos_idx anchor_matching_gt = matching_matrix.sum(0) if (anchor_matching_gt > 1).sum() > 0: cost_min, cost_argmin = torch.min(cost[:, anchor_matching_gt > 1], dim=0) matching_matrix[:, anchor_matching_gt > 1] *= 0.0 matching_matrix[cost_argmin, anchor_matching_gt > 1] = 1.0 fg_mask_inboxes = matching_matrix.sum(0) > 0.0 num_fg = fg_mask_inboxes.sum().item() fg_mask[fg_mask.clone()] = fg_mask_inboxes matched_gt_inds = matching_matrix[:, fg_mask_inboxes].argmax(0) gt_matched_classes = gt_classes[matched_gt_inds] pred_ious_this_matching = (matching_matrix * pair_wise_ious).sum(0)[fg_mask_inboxes] return num_fg, gt_matched_classes, pred_ious_this_matching, matched_gt_inds
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cc4addd856c162429f9d8a737df8762c7a0b79d7
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py
Python
tests/test_config_validation.py
ess-dmsc/JustBinIt
dc8242ed44f03e92f60618c96596025ec8cbc40e
[ "BSD-2-Clause" ]
null
null
null
tests/test_config_validation.py
ess-dmsc/JustBinIt
dc8242ed44f03e92f60618c96596025ec8cbc40e
[ "BSD-2-Clause" ]
23
2018-12-04T11:50:37.000Z
2022-03-17T11:30:39.000Z
tests/test_config_validation.py
ess-dmsc/JustBinIt
dc8242ed44f03e92f60618c96596025ec8cbc40e
[ "BSD-2-Clause" ]
2
2019-07-24T11:13:41.000Z
2020-08-04T18:33:22.000Z
import copy import pytest from just_bin_it.histograms.histogram1d import TOF_1D_TYPE, validate_hist_1d from just_bin_it.histograms.histogram2d import TOF_2D_TYPE, validate_hist_2d from just_bin_it.histograms.histogram2d_map import MAP_TYPE, validate_hist_2d_map from just_bin_it.histograms.histogram2d_roi import ROI_TYPE, validate_hist_2d_roi from just_bin_it.histograms.input_validators import ( check_bins, check_data_brokers, check_data_topics, check_det_range, check_id, check_source, check_tof, check_topic, ) CONFIG_1D = { "type": TOF_1D_TYPE, "data_brokers": ["localhost:9092"], "data_topics": ["fake_events_empty"], "tof_range": [0, 100_000_000], "det_range": [0, 100_000_000], "num_bins": 50, "topic": "hist_topic1", "id": "some_id1", "source": "some_source", } CONFIG_2D = { "type": TOF_2D_TYPE, "data_brokers": ["localhost:9092"], "data_topics": ["fake_events_empty"], "tof_range": [0, 100_000_000], "det_range": [0, 100], "num_bins": (50, 10), "topic": "hist_topic2", "id": "some_id3", "source": "some_source", } CONFIG_2D_MAP = { "type": MAP_TYPE, "data_brokers": ["localhost:9092"], "data_topics": ["fake_events_empty"], "det_range": [1, 10000], "width": 100, "height": 100, "topic": "hist_topic3", "id": "some_id", "source": "some_source", } CONFIG_2D_ROI = { "type": ROI_TYPE, "data_brokers": ["localhost:9092"], "data_topics": ["fake_events_empty"], "width": 3, "left_edges": [7, 12], "topic": "hist_topic3", "id": "some_id", "source": "some_source", } class TestCommonValidation: @pytest.mark.parametrize("tof", [(0, 100), [0, 100]]) def test_if_tof_valid_then_passes(self, tof): assert check_tof(tof) @pytest.mark.parametrize( "tof", [123, ("a", "b"), (123, "b"), ("a", 123), (123, 0), (100, 200, 300)] ) def test_if_tof_invalid_then_fails(self, tof): assert not check_tof(tof) @pytest.mark.parametrize("bins", [100, (100, 100), [100, 100]]) def test_if_bins_valid_then_passes(self, bins): assert check_bins(bins) @pytest.mark.parametrize( "bins", ["a", (1, 2, 3), (-100, 100), (100, -100), (0, 100), (100, 0)] ) def test_if_bins_invalid_then_fails(self, bins): assert not check_bins(bins) @pytest.mark.parametrize( "topic", [ "simple", "CAPITALS", "under_scores", "dot.dot", "numbers123", "hyphen-hyphen", ], ) def test_if_topic_valid_then_passes(self, topic): assert check_topic(topic) @pytest.mark.parametrize("topic", [123, "with spaces", "::"]) def test_if_topic_not_valid_then_fails(self, topic): assert not check_topic(topic) def test_if_id_is_valid_then_passes(self): assert check_id(":: a string ::") @pytest.mark.parametrize("hist_id", [123, ["list"]]) def test_if_id_is_invalid_then_fails(self, hist_id): assert not check_id(hist_id) @pytest.mark.parametrize( "det_range", [123, ("a", "b"), (123, "b"), ("a", 123), (123, 0)] ) def test_if_det_range_invalid_then_validation_fails(self, det_range): assert not check_det_range(det_range) def test_if_source_is_valid_then_passes(self): assert check_source(":: a string ::") @pytest.mark.parametrize("hist_id", [123, ["list"]]) def test_if_source_is_invalid_then_fails(self, hist_id): assert not check_source(hist_id) def test_if_data_topics_valid_then_passes(self): assert check_data_topics(["valid1", "valid2"]) @pytest.mark.parametrize("topics", [123, [123]]) def test_if_data_topics_invalid_then_fails(self, topics): assert not check_data_topics(topics) def test_if_data_brokers_valid_then_passes(self): assert check_data_brokers(["valid1", "valid2"]) @pytest.mark.parametrize("brokers", [123, [123]]) def test_if_data_brokers_invalid_then_fails(self, brokers): assert not check_data_brokers(brokers) class TestConfigValidation1dHist: @pytest.fixture(autouse=True) def prepare(self): self.config = copy.deepcopy(CONFIG_1D) def test_valid_config(self): assert validate_hist_1d(self.config) @pytest.mark.parametrize( "missing", ["tof_range", "num_bins", "topic", "data_topics", "data_brokers", "type"], ) def test_if_required_parameter_missing_then_validation_fails(self, missing): del self.config[missing] assert not validate_hist_1d(self.config) def test_if_hist_type_invalid_fails(self): self.config["type"] = "not correct" assert not validate_hist_1d(self.config) def test_if_tof_invalid_then_validation_fails(self): self.config["tof_range"] = "string" assert not validate_hist_1d(self.config) def test_if_num_bins_invalid_then_validation_fails(self): self.config["num_bins"] = "string" assert not validate_hist_1d(self.config) def test_if_topic_invalid_then_validation_fails(self): self.config["topic"] = 123 assert not validate_hist_1d(self.config) @pytest.mark.parametrize("missing", ["det_range", "id", "source"]) def test_if_optional_parameter_missing_then_validation_passes(self, missing): del self.config[missing] assert validate_hist_1d(self.config) def test_if_det_range_invalid_then_validation_fails(self): self.config["det_range"] = 123 assert not validate_hist_1d(self.config) def test_if_id_invalid_then_validation_fails(self): self.config["id"] = 123 assert not validate_hist_1d(self.config) def test_if_data_topic_invalid_then_validation_fails(self): self.config["data_topics"] = [123] assert not validate_hist_1d(self.config) def test_if_data_broker_invalid_then_validation_fails(self): self.config["data_brokers"] = [123] assert not validate_hist_1d(self.config) class TestConfigValidation2dHist: @pytest.fixture(autouse=True) def prepare(self): self.config = copy.deepcopy(CONFIG_2D) def test_valid_config(self): assert validate_hist_2d(self.config) @pytest.mark.parametrize( "missing", [ "tof_range", "num_bins", "topic", "data_topics", "data_brokers", "det_range", "type", ], ) def test_if_required_parameter_missing_then_validation_fails(self, missing): del self.config[missing] assert not validate_hist_2d(self.config) def test_if_hist_type_invalid_fails(self): self.config["type"] = "not correct" assert not validate_hist_2d(self.config) def test_if_tof_invalid_then_validation_fails(self): self.config["tof_range"] = "string" assert not validate_hist_2d(self.config) def test_if_num_bins_invalid_then_validation_fails(self): self.config["num_bins"] = "string" assert not validate_hist_2d(self.config) def test_if_topic_invalid_then_validation_fails(self): self.config["topic"] = 123 assert not validate_hist_2d(self.config) def test_if_det_range_invalid_then_validation_fails(self): self.config["det_range"] = 123 assert not validate_hist_2d(self.config) @pytest.mark.parametrize("missing", ["id", "source"]) def test_if_optional_parameter_missing_then_validation_passes(self, missing): del self.config[missing] assert validate_hist_2d(self.config) def test_if_id_invalid_then_validation_fails(self): self.config["id"] = 123 assert not validate_hist_2d(self.config) def test_if_data_topic_invalid_then_validation_fails(self): self.config["data_topics"] = [123] assert not validate_hist_2d(self.config) def test_if_data_broker_invalid_then_validation_fails(self): self.config["data_brokers"] = [123] assert not validate_hist_2d(self.config) class TestConfigValidation2dMap: @pytest.fixture(autouse=True) def prepare(self): self.config = copy.deepcopy(CONFIG_2D_MAP) def test_valid_config(self): assert validate_hist_2d_map(self.config) @pytest.mark.parametrize( "missing", [ "topic", "data_topics", "data_brokers", "det_range", "width", "height", "type", ], ) def test_if_required_parameter_missing_then_validation_fails(self, missing): del self.config[missing] assert not validate_hist_2d_map(self.config) def test_if_hist_type_invalid_fails(self): self.config["type"] = "not correct" assert not validate_hist_2d_map(self.config) @pytest.mark.parametrize("width", ["string", 0, -100, [100]]) def test_if_width_invalid_then_validation_fails(self, width): self.config["width"] = width assert not validate_hist_2d_map(self.config) @pytest.mark.parametrize("height", ["string", 0, -100, [100]]) def test_if_height_invalid_then_validation_fails(self, height): self.config["width"] = height assert not validate_hist_2d_map(self.config) def test_if_topic_invalid_then_validation_fails(self): self.config["topic"] = 123 assert not validate_hist_2d_map(self.config) def test_if_det_range_invalid_then_validation_fails(self): self.config["det_range"] = 123 assert not validate_hist_2d_map(self.config) @pytest.mark.parametrize("missing", ["id", "source"]) def test_if_optional_parameter_missing_then_validation_passes(self, missing): del self.config[missing] assert validate_hist_2d_map(self.config) def test_if_id_invalid_then_validation_fails(self): self.config["id"] = 123 assert not validate_hist_2d_map(self.config) def test_if_data_topic_invalid_then_validation_fails(self): self.config["data_topics"] = [123] assert not validate_hist_2d_map(self.config) def test_if_data_broker_invalid_then_validation_fails(self): self.config["data_brokers"] = [123] assert not validate_hist_2d_map(self.config) class TestConfigValidation2dRoi: @pytest.fixture(autouse=True) def prepare(self): self.config = copy.deepcopy(CONFIG_2D_ROI) def test_valid_config(self): assert validate_hist_2d_roi(self.config) @pytest.mark.parametrize( "missing", ["topic", "data_topics", "data_brokers", "width", "type", "left_edges"], ) def test_if_required_parameter_missing_then_validation_fails(self, missing): del self.config[missing] assert not validate_hist_2d_roi(self.config) def test_if_hist_type_invalid_fails(self): self.config["type"] = "not correct" assert not validate_hist_2d_roi(self.config) @pytest.mark.parametrize("width", ["string", 0, -100, [100]]) def test_if_width_invalid_then_validation_fails(self, width): self.config["width"] = width assert not validate_hist_2d_roi(self.config) @pytest.mark.parametrize("height", ["string", 0, -100, [100]]) def test_if_height_invalid_then_validation_fails(self, height): self.config["width"] = height assert not validate_hist_2d_roi(self.config) def test_if_topic_invalid_then_validation_fails(self): self.config["topic"] = 123 assert not validate_hist_2d_roi(self.config) @pytest.mark.parametrize( "left_edges", (123, [], [1, "abc", 3]), ids=("not a list", "empty_list", "non-numeric value"), ) def test_if_left_edges_invalid_then_validation_fails(self, left_edges): self.config["left_edges"] = left_edges assert not validate_hist_2d_roi(self.config) @pytest.mark.parametrize("missing", ["id", "source"]) def test_if_optional_parameter_missing_then_validation_passes(self, missing): del self.config[missing] assert validate_hist_2d_roi(self.config) def test_if_id_invalid_then_validation_fails(self): self.config["id"] = 123 assert not validate_hist_2d_roi(self.config) def test_if_data_topic_invalid_then_validation_fails(self): self.config["data_topics"] = [123] assert not validate_hist_2d_roi(self.config) def test_if_data_broker_invalid_then_validation_fails(self): self.config["data_brokers"] = [123] assert not validate_hist_2d_roi(self.config)
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12,686
4.734132
0.068263
0.111308
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0.821654
0.783076
0.745763
0.727043
0.720465
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30.204762
0.75444
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0.205882
false
0.035948
0.022876
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0.245098
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0
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7
cc85bd844af117ef984315f9a0ab13ab208b82be
2,784
py
Python
Problems/1/rotate_matrix/test_rotate_matrix.py
weezybusy/Cracking-the-Coding-Interview
22b8f62c97781ea5aa388434d75ad5abde42c85a
[ "MIT" ]
null
null
null
Problems/1/rotate_matrix/test_rotate_matrix.py
weezybusy/Cracking-the-Coding-Interview
22b8f62c97781ea5aa388434d75ad5abde42c85a
[ "MIT" ]
null
null
null
Problems/1/rotate_matrix/test_rotate_matrix.py
weezybusy/Cracking-the-Coding-Interview
22b8f62c97781ea5aa388434d75ad5abde42c85a
[ "MIT" ]
null
null
null
#!/usr/bin/env python3 import unittest from rotate_matrix import rotate_matrix, rotate_matrix_in_place class TestRotateMatrix(unittest.TestCase): def test_rotate_matrix(self): # Positive tests. original_matrix = [ [1, 2, 3, 4], [5, 6, 7, 8], [9, 10, 11, 12], [13, 14, 15, 16] ] expected_matrix = [ [13, 9, 5, 1], [14, 10, 6, 2], [15, 11, 7, 3], [16, 12, 8, 4] ] self.assertEqual(expected_matrix, rotate_matrix(original_matrix)) # Negative tests. original_matrix = [] self.assertEqual(None, rotate_matrix(original_matrix)) original_matrix = [[1], []] self.assertEqual(None, rotate_matrix(original_matrix)) original_matrix = [[1, 2], [3]] self.assertEqual(None, rotate_matrix(original_matrix)) original_matrix = [[1], [2, 3]] self.assertEqual(None, rotate_matrix(original_matrix)) original_matrix = [[1]] self.assertEqual(None, rotate_matrix(original_matrix)) original_matrix = [[3, 1], [4, 2]] self.assertEqual(None, rotate_matrix(original_matrix)) original_matrix = [[7, 4, 1], [8, 5, 2], [9, 6, 3]] self.assertEqual(None, rotate_matrix(original_matrix)) def test_rotate_matrix_in_place(self): # Positive tests. original_matrix = [ [1, 2, 3, 4], [5, 6, 7, 8], [9, 10, 11, 12], [13, 14, 15, 16] ] expected_matrix = [ [13, 9, 5, 1], [14, 10, 6, 2], [15, 11, 7, 3], [16, 12, 8, 4] ] rotate_matrix_in_place(original_matrix) self.assertEqual(expected_matrix, original_matrix) # Negative tests. original_matrix = [] self.assertEqual(False, rotate_matrix_in_place(original_matrix)) original_matrix = [[1], []] self.assertEqual(False, rotate_matrix_in_place(original_matrix)) original_matrix = [[1, 2], [3]] self.assertEqual(False, rotate_matrix_in_place(original_matrix)) original_matrix = [[1], [2, 3]] self.assertEqual(False, rotate_matrix_in_place(original_matrix)) original_matrix = [[1]] self.assertEqual(False, rotate_matrix_in_place(original_matrix)) original_matrix = [[3, 1], [4, 2]] self.assertEqual(False, rotate_matrix_in_place(original_matrix)) original_matrix = [[7, 4, 1], [8, 5, 2], [9, 6, 3]] self.assertEqual(False, rotate_matrix_in_place(original_matrix)) if __name__ == '__main__': unittest.main()
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73
0.552443
319
2,784
4.545455
0.137931
0.318621
0.289655
0.231724
0.831034
0.831034
0.808276
0.808276
0.787586
0.711724
0
0.071353
0.320402
2,784
95
74
29.305263
0.695032
0.030532
0
0.774194
0
0
0.00297
0
0
0
0
0
0.258065
1
0.032258
false
0
0.032258
0
0.080645
0
0
0
0
null
1
1
1
1
1
1
1
1
1
0
0
0
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null
0
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0
0
0
0
0
0
0
10
aeb16af422bd8af4c05c9c8a3e4c8bdd328e390d
1,371
py
Python
tests/test_provider.py
rackerlabs/tuvok
8c5d2171f156f35fd6570b2a199ab75ff9dc286f
[ "Apache-2.0" ]
19
2018-10-26T18:42:30.000Z
2020-05-24T10:44:55.000Z
tests/test_provider.py
rackerlabs/tuvok
8c5d2171f156f35fd6570b2a199ab75ff9dc286f
[ "Apache-2.0" ]
11
2018-10-26T17:06:54.000Z
2020-01-04T02:46:06.000Z
tests/test_provider.py
rackerlabs/tuvok
8c5d2171f156f35fd6570b2a199ab75ff9dc286f
[ "Apache-2.0" ]
3
2018-12-29T06:58:06.000Z
2020-04-24T19:48:19.000Z
from tuvok import cli from helpers.wrap import Wrap class TestProvider(object): def setup(self): self.main = cli.main def teardown(self): self.main = None def test_fails_if_region_not_in_provider_block(self, caplog): file = 'tests/test_provider/bad/no_region.tf' with Wrap(self, [file], expect_exit=False): assert ('[FAIL] provider_has_region:Provider block should have region declared:aws:{}'.format(file)) in caplog.text def test_passes_if_region_in_provider_block(self, caplog): file = 'tests/test_provider/good/main.tf' with Wrap(self, [file], expect_exit=False): assert ('[PASS] provider_has_region:Provider block should have region declared:{}'.format(file)) in caplog.text def test_fails_if_version_not_in_provider_block(self, caplog): file = 'tests/test_provider/bad/no_version.tf' with Wrap(self, [file], expect_exit=False): assert ('[FAIL] provider_has_version:Provider block should have version pinned:aws:{}'.format(file)) in caplog.text def test_passes_if_version_in_provider_block(self, caplog): file = 'tests/test_provider/good/main.tf' with Wrap(self, [file], expect_exit=False): assert ('[PASS] provider_has_version:Provider block should have version pinned:{}'.format(file)) in caplog.text
39.171429
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0.246073
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0.747541
0.747541
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1,371
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false
0.173913
0.086957
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0
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7
4e0831f908faa7024ae9431c1f139fa61464b396
276
py
Python
ex016.py
89Alberth/Aprendendo-a-programar
37ae0a60369a0b39c733ba15220efecf674b6447
[ "MIT" ]
null
null
null
ex016.py
89Alberth/Aprendendo-a-programar
37ae0a60369a0b39c733ba15220efecf674b6447
[ "MIT" ]
null
null
null
ex016.py
89Alberth/Aprendendo-a-programar
37ae0a60369a0b39c733ba15220efecf674b6447
[ "MIT" ]
null
null
null
'''num = float(input('Digite um numero: ')) print('O valor digitado foi {} e a sua porção inteira é {} .'.format(num, int(num)))''' import math num = float(input('Digite um numero: ')) print('O valor digitado foi {} e a sua porção inteira é {}'.format(num, math.trunc(num)))
39.428571
89
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276
4.044444
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0.087912
0.142857
0.208791
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0.846154
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276
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0
0
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0
0
0
9
9de9861eb85df738b6f7d7a95ebb13bae9b3cf12
65,746
py
Python
cisco-ios-xr/ydk/models/cisco_ios_xr/Cisco_IOS_XR_asr9k_prm_cfg.py
bopopescu/ACI
dd717bc74739eeed4747b3ea9e36b239580df5e1
[ "ECL-2.0", "Apache-2.0" ]
null
null
null
cisco-ios-xr/ydk/models/cisco_ios_xr/Cisco_IOS_XR_asr9k_prm_cfg.py
bopopescu/ACI
dd717bc74739eeed4747b3ea9e36b239580df5e1
[ "ECL-2.0", "Apache-2.0" ]
null
null
null
cisco-ios-xr/ydk/models/cisco_ios_xr/Cisco_IOS_XR_asr9k_prm_cfg.py
bopopescu/ACI
dd717bc74739eeed4747b3ea9e36b239580df5e1
[ "ECL-2.0", "Apache-2.0" ]
1
2020-07-22T04:04:44.000Z
2020-07-22T04:04:44.000Z
""" Cisco_IOS_XR_asr9k_prm_cfg This module contains a collection of YANG definitions for Cisco IOS\-XR asr9k\-prm package configuration. This module contains definitions for the following management objects\: hardware\-module\-qos\-mode\: QoS mode in hardware module port(s) hardware\-module\-tcp\-mss\-adjust\: hardware module tcp mss adjust hardware\-module\-tcam\: hardware module tcam hardware\-module\-efd\: hardware module efd Copyright (c) 2013\-2017 by Cisco Systems, Inc. All rights reserved. """ from collections import OrderedDict from ydk.types import Entity, EntityPath, Identity, Enum, YType, YLeaf, YLeafList, YList, LeafDataList, Bits, Empty, Decimal64 from ydk.filters import YFilter from ydk.errors import YError, YModelError from ydk.errors.error_handler import handle_type_error as _handle_type_error class Asr9kEfdMode(Enum): """ Asr9kEfdMode (Enum Class) Asr9k efd mode .. data:: only_outer_encap = 0 Only check outer encap .. data:: include_inner_encap = 1 Check outer and inner encap """ only_outer_encap = Enum.YLeaf(0, "only-outer-encap") include_inner_encap = Enum.YLeaf(1, "include-inner-encap") class Asr9kEfdOperation(Enum): """ Asr9kEfdOperation (Enum Class) Asr9k efd operation .. data:: less_than = 2 Less than .. data:: greater_than_or_equal = 3 Greater than or equal """ less_than = Enum.YLeaf(2, "less-than") greater_than_or_equal = Enum.YLeaf(3, "greater-than-or-equal") class PrmTcamProfile(Enum): """ PrmTcamProfile (Enum Class) Prm tcam profile .. data:: profile0 = 0 Profile 0 .. data:: profile1 = 1 Profile 1 .. data:: profile2 = 2 Profile 2 """ profile0 = Enum.YLeaf(0, "profile0") profile1 = Enum.YLeaf(1, "profile1") profile2 = Enum.YLeaf(2, "profile2") class HardwareModuleQosMode(Entity): """ QoS mode in hardware module port(s) .. attribute:: nodes QoS applicable nodes **type**\: :py:class:`Nodes <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleQosMode.Nodes>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleQosMode, self).__init__() self._top_entity = None self.yang_name = "hardware-module-qos-mode" self.yang_parent_name = "Cisco-IOS-XR-asr9k-prm-cfg" self.is_top_level_class = True self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([("nodes", ("nodes", HardwareModuleQosMode.Nodes))]) self._child_list_classes = OrderedDict([]) self._leafs = OrderedDict() self.nodes = HardwareModuleQosMode.Nodes() self.nodes.parent = self self._children_name_map["nodes"] = "nodes" self._children_yang_names.add("nodes") self._segment_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-qos-mode" class Nodes(Entity): """ QoS applicable nodes .. attribute:: node A node **type**\: list of :py:class:`Node <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleQosMode.Nodes.Node>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleQosMode.Nodes, self).__init__() self.yang_name = "nodes" self.yang_parent_name = "hardware-module-qos-mode" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([("node", ("node", HardwareModuleQosMode.Nodes.Node))]) self._leafs = OrderedDict() self.node = YList(self) self._segment_path = lambda: "nodes" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-qos-mode/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleQosMode.Nodes, [], name, value) class Node(Entity): """ A node .. attribute:: node_name (key) Node ID **type**\: str **pattern:** ([a\-zA\-Z0\-9\_]\*\\d+/){1,2}([a\-zA\-Z0\-9\_]\*\\d+) .. attribute:: child_shaping_disable Disable child level/flat policy shaping **type**\: :py:class:`Empty<ydk.types.Empty>` .. attribute:: lowburst_enable Enable low burst mode for TM entity **type**\: :py:class:`Empty<ydk.types.Empty>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleQosMode.Nodes.Node, self).__init__() self.yang_name = "node" self.yang_parent_name = "nodes" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = ['node_name'] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self._leafs = OrderedDict([ ('node_name', YLeaf(YType.str, 'node-name')), ('child_shaping_disable', YLeaf(YType.empty, 'child-shaping-disable')), ('lowburst_enable', YLeaf(YType.empty, 'lowburst-enable')), ]) self.node_name = None self.child_shaping_disable = None self.lowburst_enable = None self._segment_path = lambda: "node" + "[node-name='" + str(self.node_name) + "']" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-qos-mode/nodes/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleQosMode.Nodes.Node, ['node_name', 'child_shaping_disable', 'lowburst_enable'], name, value) def clone_ptr(self): self._top_entity = HardwareModuleQosMode() return self._top_entity class HardwareModuleTcpMssAdjust(Entity): """ hardware module tcp mss adjust .. attribute:: nodes TCP MSS Adjust applicable nodes **type**\: :py:class:`Nodes <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleTcpMssAdjust.Nodes>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleTcpMssAdjust, self).__init__() self._top_entity = None self.yang_name = "hardware-module-tcp-mss-adjust" self.yang_parent_name = "Cisco-IOS-XR-asr9k-prm-cfg" self.is_top_level_class = True self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([("nodes", ("nodes", HardwareModuleTcpMssAdjust.Nodes))]) self._child_list_classes = OrderedDict([]) self._leafs = OrderedDict() self.nodes = HardwareModuleTcpMssAdjust.Nodes() self.nodes.parent = self self._children_name_map["nodes"] = "nodes" self._children_yang_names.add("nodes") self._segment_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-tcp-mss-adjust" class Nodes(Entity): """ TCP MSS Adjust applicable nodes .. attribute:: node A node **type**\: list of :py:class:`Node <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleTcpMssAdjust.Nodes.Node>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleTcpMssAdjust.Nodes, self).__init__() self.yang_name = "nodes" self.yang_parent_name = "hardware-module-tcp-mss-adjust" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([("node", ("node", HardwareModuleTcpMssAdjust.Nodes.Node))]) self._leafs = OrderedDict() self.node = YList(self) self._segment_path = lambda: "nodes" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-tcp-mss-adjust/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleTcpMssAdjust.Nodes, [], name, value) class Node(Entity): """ A node .. attribute:: node_name (key) Node ID **type**\: str **pattern:** ([a\-zA\-Z0\-9\_]\*\\d+/){1,2}([a\-zA\-Z0\-9\_]\*\\d+) .. attribute:: nps TCP MSS Adjust NPs **type**\: :py:class:`Nps <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleTcpMssAdjust.Nodes.Node.Nps>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleTcpMssAdjust.Nodes.Node, self).__init__() self.yang_name = "node" self.yang_parent_name = "nodes" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = ['node_name'] self._child_container_classes = OrderedDict([("nps", ("nps", HardwareModuleTcpMssAdjust.Nodes.Node.Nps))]) self._child_list_classes = OrderedDict([]) self._leafs = OrderedDict([ ('node_name', YLeaf(YType.str, 'node-name')), ]) self.node_name = None self.nps = HardwareModuleTcpMssAdjust.Nodes.Node.Nps() self.nps.parent = self self._children_name_map["nps"] = "nps" self._children_yang_names.add("nps") self._segment_path = lambda: "node" + "[node-name='" + str(self.node_name) + "']" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-tcp-mss-adjust/nodes/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleTcpMssAdjust.Nodes.Node, ['node_name'], name, value) class Nps(Entity): """ TCP MSS Adjust NPs .. attribute:: np NP number **type**\: list of :py:class:`Np <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleTcpMssAdjust.Nodes.Node.Nps.Np>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleTcpMssAdjust.Nodes.Node.Nps, self).__init__() self.yang_name = "nps" self.yang_parent_name = "node" self.is_top_level_class = False self.has_list_ancestor = True self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([("np", ("np", HardwareModuleTcpMssAdjust.Nodes.Node.Nps.Np))]) self._leafs = OrderedDict() self.np = YList(self) self._segment_path = lambda: "nps" def __setattr__(self, name, value): self._perform_setattr(HardwareModuleTcpMssAdjust.Nodes.Node.Nps, [], name, value) class Np(Entity): """ NP number .. attribute:: np_id (key) Number between 0\-7 **type**\: int **range:** 0..7 .. attribute:: adjust_value TCP MSS Adjust value **type**\: int **range:** 1280..1535 **units**\: byte """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleTcpMssAdjust.Nodes.Node.Nps.Np, self).__init__() self.yang_name = "np" self.yang_parent_name = "nps" self.is_top_level_class = False self.has_list_ancestor = True self.ylist_key_names = ['np_id'] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self._leafs = OrderedDict([ ('np_id', YLeaf(YType.uint32, 'np-id')), ('adjust_value', YLeaf(YType.uint32, 'adjust-value')), ]) self.np_id = None self.adjust_value = None self._segment_path = lambda: "np" + "[np-id='" + str(self.np_id) + "']" def __setattr__(self, name, value): self._perform_setattr(HardwareModuleTcpMssAdjust.Nodes.Node.Nps.Np, ['np_id', 'adjust_value'], name, value) def clone_ptr(self): self._top_entity = HardwareModuleTcpMssAdjust() return self._top_entity class HardwareModuleTcam(Entity): """ hardware module tcam .. attribute:: nodes TCAM applicable nodes **type**\: :py:class:`Nodes <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleTcam.Nodes>` .. attribute:: global_profile Global TCAM partition profile for all TCAM applicable nodes **type**\: :py:class:`PrmTcamProfile <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.PrmTcamProfile>` **default value**\: profile0 """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleTcam, self).__init__() self._top_entity = None self.yang_name = "hardware-module-tcam" self.yang_parent_name = "Cisco-IOS-XR-asr9k-prm-cfg" self.is_top_level_class = True self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([("nodes", ("nodes", HardwareModuleTcam.Nodes))]) self._child_list_classes = OrderedDict([]) self._leafs = OrderedDict([ ('global_profile', YLeaf(YType.enumeration, 'global-profile')), ]) self.global_profile = None self.nodes = HardwareModuleTcam.Nodes() self.nodes.parent = self self._children_name_map["nodes"] = "nodes" self._children_yang_names.add("nodes") self._segment_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-tcam" def __setattr__(self, name, value): self._perform_setattr(HardwareModuleTcam, ['global_profile'], name, value) class Nodes(Entity): """ TCAM applicable nodes .. attribute:: node A TCAM applicable node **type**\: list of :py:class:`Node <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleTcam.Nodes.Node>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleTcam.Nodes, self).__init__() self.yang_name = "nodes" self.yang_parent_name = "hardware-module-tcam" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([("node", ("node", HardwareModuleTcam.Nodes.Node))]) self._leafs = OrderedDict() self.node = YList(self) self._segment_path = lambda: "nodes" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-tcam/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleTcam.Nodes, [], name, value) class Node(Entity): """ A TCAM applicable node .. attribute:: node_name (key) Node ID **type**\: str **pattern:** ([a\-zA\-Z0\-9\_]\*\\d+/){1,2}([a\-zA\-Z0\-9\_]\*\\d+) .. attribute:: profile A TCAM partition profile **type**\: :py:class:`PrmTcamProfile <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.PrmTcamProfile>` **default value**\: profile0 """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleTcam.Nodes.Node, self).__init__() self.yang_name = "node" self.yang_parent_name = "nodes" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = ['node_name'] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self._leafs = OrderedDict([ ('node_name', YLeaf(YType.str, 'node-name')), ('profile', YLeaf(YType.enumeration, 'profile')), ]) self.node_name = None self.profile = None self._segment_path = lambda: "node" + "[node-name='" + str(self.node_name) + "']" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-tcam/nodes/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleTcam.Nodes.Node, ['node_name', 'profile'], name, value) def clone_ptr(self): self._top_entity = HardwareModuleTcam() return self._top_entity class HardwareModuleEfd(Entity): """ hardware module efd .. attribute:: node_all All nodes **type**\: :py:class:`NodeAll <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.NodeAll>` .. attribute:: nodes EFD applicable nodes **type**\: :py:class:`Nodes <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.Nodes>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd, self).__init__() self._top_entity = None self.yang_name = "hardware-module-efd" self.yang_parent_name = "Cisco-IOS-XR-asr9k-prm-cfg" self.is_top_level_class = True self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([("node-all", ("node_all", HardwareModuleEfd.NodeAll)), ("nodes", ("nodes", HardwareModuleEfd.Nodes))]) self._child_list_classes = OrderedDict([]) self._leafs = OrderedDict() self.node_all = HardwareModuleEfd.NodeAll() self.node_all.parent = self self._children_name_map["node_all"] = "node-all" self._children_yang_names.add("node-all") self.nodes = HardwareModuleEfd.Nodes() self.nodes.parent = self self._children_name_map["nodes"] = "nodes" self._children_yang_names.add("nodes") self._segment_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-efd" class NodeAll(Entity): """ All nodes .. attribute:: vlan_priority_mask VLAN Priority Mask **type**\: :py:class:`VlanPriorityMask <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.NodeAll.VlanPriorityMask>` **presence node**\: True .. attribute:: ip_precedence EFD IP parameters **type**\: :py:class:`IpPrecedence <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.NodeAll.IpPrecedence>` **presence node**\: True .. attribute:: vlan_cos EFD VLAN parameters **type**\: :py:class:`VlanCos <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.NodeAll.VlanCos>` **presence node**\: True .. attribute:: enable Enable EFD for this node **type**\: :py:class:`Empty<ydk.types.Empty>` .. attribute:: ip_priority_mask IP Priority Mask **type**\: :py:class:`IpPriorityMask <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.NodeAll.IpPriorityMask>` **presence node**\: True .. attribute:: mpls_priority_mask MPLS Priority Mask **type**\: :py:class:`MplsPriorityMask <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.NodeAll.MplsPriorityMask>` **presence node**\: True .. attribute:: mode EFD mode parameter **type**\: :py:class:`Asr9kEfdMode <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.Asr9kEfdMode>` .. attribute:: mpls_exp EFD MPLS parameters **type**\: :py:class:`MplsExp <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.NodeAll.MplsExp>` **presence node**\: True """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.NodeAll, self).__init__() self.yang_name = "node-all" self.yang_parent_name = "hardware-module-efd" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([("vlan-priority-mask", ("vlan_priority_mask", HardwareModuleEfd.NodeAll.VlanPriorityMask)), ("ip-precedence", ("ip_precedence", HardwareModuleEfd.NodeAll.IpPrecedence)), ("vlan-cos", ("vlan_cos", HardwareModuleEfd.NodeAll.VlanCos)), ("ip-priority-mask", ("ip_priority_mask", HardwareModuleEfd.NodeAll.IpPriorityMask)), ("mpls-priority-mask", ("mpls_priority_mask", HardwareModuleEfd.NodeAll.MplsPriorityMask)), ("mpls-exp", ("mpls_exp", HardwareModuleEfd.NodeAll.MplsExp))]) self._child_list_classes = OrderedDict([]) self._leafs = OrderedDict([ ('enable', YLeaf(YType.empty, 'enable')), ('mode', YLeaf(YType.enumeration, 'mode')), ]) self.enable = None self.mode = None self.vlan_priority_mask = None self._children_name_map["vlan_priority_mask"] = "vlan-priority-mask" self._children_yang_names.add("vlan-priority-mask") self.ip_precedence = None self._children_name_map["ip_precedence"] = "ip-precedence" self._children_yang_names.add("ip-precedence") self.vlan_cos = None self._children_name_map["vlan_cos"] = "vlan-cos" self._children_yang_names.add("vlan-cos") self.ip_priority_mask = None self._children_name_map["ip_priority_mask"] = "ip-priority-mask" self._children_yang_names.add("ip-priority-mask") self.mpls_priority_mask = None self._children_name_map["mpls_priority_mask"] = "mpls-priority-mask" self._children_yang_names.add("mpls-priority-mask") self.mpls_exp = None self._children_name_map["mpls_exp"] = "mpls-exp" self._children_yang_names.add("mpls-exp") self._segment_path = lambda: "node-all" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-efd/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.NodeAll, ['enable', 'mode'], name, value) class VlanPriorityMask(Entity): """ VLAN Priority Mask .. attribute:: prec0 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec1 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec2 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec3 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec4 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec5 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec6 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec7 Prec **type**\: int **range:** 0..1 **default value**\: 0 This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.NodeAll.VlanPriorityMask, self).__init__() self.yang_name = "vlan-priority-mask" self.yang_parent_name = "node-all" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('prec0', YLeaf(YType.uint32, 'prec0')), ('prec1', YLeaf(YType.uint32, 'prec1')), ('prec2', YLeaf(YType.uint32, 'prec2')), ('prec3', YLeaf(YType.uint32, 'prec3')), ('prec4', YLeaf(YType.uint32, 'prec4')), ('prec5', YLeaf(YType.uint32, 'prec5')), ('prec6', YLeaf(YType.uint32, 'prec6')), ('prec7', YLeaf(YType.uint32, 'prec7')), ]) self.prec0 = None self.prec1 = None self.prec2 = None self.prec3 = None self.prec4 = None self.prec5 = None self.prec6 = None self.prec7 = None self._segment_path = lambda: "vlan-priority-mask" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-efd/node-all/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.NodeAll.VlanPriorityMask, ['prec0', 'prec1', 'prec2', 'prec3', 'prec4', 'prec5', 'prec6', 'prec7'], name, value) class IpPrecedence(Entity): """ EFD IP parameters .. attribute:: precedence IP TOS precedence threshold **type**\: int **range:** 0..7 **mandatory**\: True .. attribute:: operation_ IP operation **type**\: :py:class:`Asr9kEfdOperation <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.Asr9kEfdOperation>` **default value**\: greater-than-or-equal This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.NodeAll.IpPrecedence, self).__init__() self.yang_name = "ip-precedence" self.yang_parent_name = "node-all" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('precedence', YLeaf(YType.uint32, 'precedence')), ('operation_', YLeaf(YType.enumeration, 'operation')), ]) self.precedence = None self.operation_ = None self._segment_path = lambda: "ip-precedence" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-efd/node-all/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.NodeAll.IpPrecedence, ['precedence', 'operation_'], name, value) class VlanCos(Entity): """ EFD VLAN parameters .. attribute:: cos VLAN COS threshold **type**\: int **range:** 0..7 **mandatory**\: True .. attribute:: operation_ VLAN operation **type**\: :py:class:`Asr9kEfdOperation <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.Asr9kEfdOperation>` **default value**\: greater-than-or-equal This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.NodeAll.VlanCos, self).__init__() self.yang_name = "vlan-cos" self.yang_parent_name = "node-all" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('cos', YLeaf(YType.uint32, 'cos')), ('operation_', YLeaf(YType.enumeration, 'operation')), ]) self.cos = None self.operation_ = None self._segment_path = lambda: "vlan-cos" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-efd/node-all/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.NodeAll.VlanCos, ['cos', 'operation_'], name, value) class IpPriorityMask(Entity): """ IP Priority Mask .. attribute:: prec0 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec1 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec2 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec3 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec4 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec5 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec6 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec7 Prec **type**\: int **range:** 0..1 **default value**\: 0 This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.NodeAll.IpPriorityMask, self).__init__() self.yang_name = "ip-priority-mask" self.yang_parent_name = "node-all" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('prec0', YLeaf(YType.uint32, 'prec0')), ('prec1', YLeaf(YType.uint32, 'prec1')), ('prec2', YLeaf(YType.uint32, 'prec2')), ('prec3', YLeaf(YType.uint32, 'prec3')), ('prec4', YLeaf(YType.uint32, 'prec4')), ('prec5', YLeaf(YType.uint32, 'prec5')), ('prec6', YLeaf(YType.uint32, 'prec6')), ('prec7', YLeaf(YType.uint32, 'prec7')), ]) self.prec0 = None self.prec1 = None self.prec2 = None self.prec3 = None self.prec4 = None self.prec5 = None self.prec6 = None self.prec7 = None self._segment_path = lambda: "ip-priority-mask" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-efd/node-all/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.NodeAll.IpPriorityMask, ['prec0', 'prec1', 'prec2', 'prec3', 'prec4', 'prec5', 'prec6', 'prec7'], name, value) class MplsPriorityMask(Entity): """ MPLS Priority Mask .. attribute:: prec0 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec1 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec2 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec3 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec4 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec5 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec6 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec7 Prec **type**\: int **range:** 0..1 **default value**\: 0 This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.NodeAll.MplsPriorityMask, self).__init__() self.yang_name = "mpls-priority-mask" self.yang_parent_name = "node-all" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('prec0', YLeaf(YType.uint32, 'prec0')), ('prec1', YLeaf(YType.uint32, 'prec1')), ('prec2', YLeaf(YType.uint32, 'prec2')), ('prec3', YLeaf(YType.uint32, 'prec3')), ('prec4', YLeaf(YType.uint32, 'prec4')), ('prec5', YLeaf(YType.uint32, 'prec5')), ('prec6', YLeaf(YType.uint32, 'prec6')), ('prec7', YLeaf(YType.uint32, 'prec7')), ]) self.prec0 = None self.prec1 = None self.prec2 = None self.prec3 = None self.prec4 = None self.prec5 = None self.prec6 = None self.prec7 = None self._segment_path = lambda: "mpls-priority-mask" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-efd/node-all/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.NodeAll.MplsPriorityMask, ['prec0', 'prec1', 'prec2', 'prec3', 'prec4', 'prec5', 'prec6', 'prec7'], name, value) class MplsExp(Entity): """ EFD MPLS parameters .. attribute:: exp MPLS EXP threshold **type**\: int **range:** 0..7 **mandatory**\: True .. attribute:: operation_ MPLS operation **type**\: :py:class:`Asr9kEfdOperation <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.Asr9kEfdOperation>` **default value**\: greater-than-or-equal This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.NodeAll.MplsExp, self).__init__() self.yang_name = "mpls-exp" self.yang_parent_name = "node-all" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('exp', YLeaf(YType.uint32, 'exp')), ('operation_', YLeaf(YType.enumeration, 'operation')), ]) self.exp = None self.operation_ = None self._segment_path = lambda: "mpls-exp" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-efd/node-all/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.NodeAll.MplsExp, ['exp', 'operation_'], name, value) class Nodes(Entity): """ EFD applicable nodes .. attribute:: node A node **type**\: list of :py:class:`Node <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.Nodes.Node>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.Nodes, self).__init__() self.yang_name = "nodes" self.yang_parent_name = "hardware-module-efd" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([("node", ("node", HardwareModuleEfd.Nodes.Node))]) self._leafs = OrderedDict() self.node = YList(self) self._segment_path = lambda: "nodes" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-efd/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.Nodes, [], name, value) class Node(Entity): """ A node .. attribute:: node_name (key) Node Name **type**\: str **pattern:** ([a\-zA\-Z0\-9\_]\*\\d+/){1,2}([a\-zA\-Z0\-9\_]\*\\d+) .. attribute:: vlan_priority_mask VLAN Priority Mask **type**\: :py:class:`VlanPriorityMask <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.Nodes.Node.VlanPriorityMask>` **presence node**\: True .. attribute:: ip_precedence EFD IP parameters **type**\: :py:class:`IpPrecedence <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.Nodes.Node.IpPrecedence>` **presence node**\: True .. attribute:: vlan_cos EFD VLAN parameters **type**\: :py:class:`VlanCos <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.Nodes.Node.VlanCos>` **presence node**\: True .. attribute:: enable Enable EFD for this node **type**\: :py:class:`Empty<ydk.types.Empty>` .. attribute:: ip_priority_mask IP Priority Mask **type**\: :py:class:`IpPriorityMask <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.Nodes.Node.IpPriorityMask>` **presence node**\: True .. attribute:: mpls_priority_mask MPLS Priority Mask **type**\: :py:class:`MplsPriorityMask <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.Nodes.Node.MplsPriorityMask>` **presence node**\: True .. attribute:: mode EFD mode parameter **type**\: :py:class:`Asr9kEfdMode <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.Asr9kEfdMode>` .. attribute:: mpls_exp EFD MPLS parameters **type**\: :py:class:`MplsExp <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.HardwareModuleEfd.Nodes.Node.MplsExp>` **presence node**\: True """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.Nodes.Node, self).__init__() self.yang_name = "node" self.yang_parent_name = "nodes" self.is_top_level_class = False self.has_list_ancestor = False self.ylist_key_names = ['node_name'] self._child_container_classes = OrderedDict([("vlan-priority-mask", ("vlan_priority_mask", HardwareModuleEfd.Nodes.Node.VlanPriorityMask)), ("ip-precedence", ("ip_precedence", HardwareModuleEfd.Nodes.Node.IpPrecedence)), ("vlan-cos", ("vlan_cos", HardwareModuleEfd.Nodes.Node.VlanCos)), ("ip-priority-mask", ("ip_priority_mask", HardwareModuleEfd.Nodes.Node.IpPriorityMask)), ("mpls-priority-mask", ("mpls_priority_mask", HardwareModuleEfd.Nodes.Node.MplsPriorityMask)), ("mpls-exp", ("mpls_exp", HardwareModuleEfd.Nodes.Node.MplsExp))]) self._child_list_classes = OrderedDict([]) self._leafs = OrderedDict([ ('node_name', YLeaf(YType.str, 'node-name')), ('enable', YLeaf(YType.empty, 'enable')), ('mode', YLeaf(YType.enumeration, 'mode')), ]) self.node_name = None self.enable = None self.mode = None self.vlan_priority_mask = None self._children_name_map["vlan_priority_mask"] = "vlan-priority-mask" self._children_yang_names.add("vlan-priority-mask") self.ip_precedence = None self._children_name_map["ip_precedence"] = "ip-precedence" self._children_yang_names.add("ip-precedence") self.vlan_cos = None self._children_name_map["vlan_cos"] = "vlan-cos" self._children_yang_names.add("vlan-cos") self.ip_priority_mask = None self._children_name_map["ip_priority_mask"] = "ip-priority-mask" self._children_yang_names.add("ip-priority-mask") self.mpls_priority_mask = None self._children_name_map["mpls_priority_mask"] = "mpls-priority-mask" self._children_yang_names.add("mpls-priority-mask") self.mpls_exp = None self._children_name_map["mpls_exp"] = "mpls-exp" self._children_yang_names.add("mpls-exp") self._segment_path = lambda: "node" + "[node-name='" + str(self.node_name) + "']" self._absolute_path = lambda: "Cisco-IOS-XR-asr9k-prm-cfg:hardware-module-efd/nodes/%s" % self._segment_path() def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.Nodes.Node, ['node_name', 'enable', 'mode'], name, value) class VlanPriorityMask(Entity): """ VLAN Priority Mask .. attribute:: prec0 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec1 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec2 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec3 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec4 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec5 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec6 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec7 Prec **type**\: int **range:** 0..1 **default value**\: 0 This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.Nodes.Node.VlanPriorityMask, self).__init__() self.yang_name = "vlan-priority-mask" self.yang_parent_name = "node" self.is_top_level_class = False self.has_list_ancestor = True self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('prec0', YLeaf(YType.uint32, 'prec0')), ('prec1', YLeaf(YType.uint32, 'prec1')), ('prec2', YLeaf(YType.uint32, 'prec2')), ('prec3', YLeaf(YType.uint32, 'prec3')), ('prec4', YLeaf(YType.uint32, 'prec4')), ('prec5', YLeaf(YType.uint32, 'prec5')), ('prec6', YLeaf(YType.uint32, 'prec6')), ('prec7', YLeaf(YType.uint32, 'prec7')), ]) self.prec0 = None self.prec1 = None self.prec2 = None self.prec3 = None self.prec4 = None self.prec5 = None self.prec6 = None self.prec7 = None self._segment_path = lambda: "vlan-priority-mask" def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.Nodes.Node.VlanPriorityMask, ['prec0', 'prec1', 'prec2', 'prec3', 'prec4', 'prec5', 'prec6', 'prec7'], name, value) class IpPrecedence(Entity): """ EFD IP parameters .. attribute:: precedence IP TOS precedence threshold **type**\: int **range:** 0..7 **mandatory**\: True .. attribute:: operation_ IP operation **type**\: :py:class:`Asr9kEfdOperation <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.Asr9kEfdOperation>` **default value**\: greater-than-or-equal This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.Nodes.Node.IpPrecedence, self).__init__() self.yang_name = "ip-precedence" self.yang_parent_name = "node" self.is_top_level_class = False self.has_list_ancestor = True self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('precedence', YLeaf(YType.uint32, 'precedence')), ('operation_', YLeaf(YType.enumeration, 'operation')), ]) self.precedence = None self.operation_ = None self._segment_path = lambda: "ip-precedence" def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.Nodes.Node.IpPrecedence, ['precedence', 'operation_'], name, value) class VlanCos(Entity): """ EFD VLAN parameters .. attribute:: cos VLAN COS threshold **type**\: int **range:** 0..7 **mandatory**\: True .. attribute:: operation_ VLAN operation **type**\: :py:class:`Asr9kEfdOperation <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.Asr9kEfdOperation>` **default value**\: greater-than-or-equal This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.Nodes.Node.VlanCos, self).__init__() self.yang_name = "vlan-cos" self.yang_parent_name = "node" self.is_top_level_class = False self.has_list_ancestor = True self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('cos', YLeaf(YType.uint32, 'cos')), ('operation_', YLeaf(YType.enumeration, 'operation')), ]) self.cos = None self.operation_ = None self._segment_path = lambda: "vlan-cos" def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.Nodes.Node.VlanCos, ['cos', 'operation_'], name, value) class IpPriorityMask(Entity): """ IP Priority Mask .. attribute:: prec0 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec1 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec2 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec3 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec4 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec5 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec6 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec7 Prec **type**\: int **range:** 0..1 **default value**\: 0 This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.Nodes.Node.IpPriorityMask, self).__init__() self.yang_name = "ip-priority-mask" self.yang_parent_name = "node" self.is_top_level_class = False self.has_list_ancestor = True self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('prec0', YLeaf(YType.uint32, 'prec0')), ('prec1', YLeaf(YType.uint32, 'prec1')), ('prec2', YLeaf(YType.uint32, 'prec2')), ('prec3', YLeaf(YType.uint32, 'prec3')), ('prec4', YLeaf(YType.uint32, 'prec4')), ('prec5', YLeaf(YType.uint32, 'prec5')), ('prec6', YLeaf(YType.uint32, 'prec6')), ('prec7', YLeaf(YType.uint32, 'prec7')), ]) self.prec0 = None self.prec1 = None self.prec2 = None self.prec3 = None self.prec4 = None self.prec5 = None self.prec6 = None self.prec7 = None self._segment_path = lambda: "ip-priority-mask" def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.Nodes.Node.IpPriorityMask, ['prec0', 'prec1', 'prec2', 'prec3', 'prec4', 'prec5', 'prec6', 'prec7'], name, value) class MplsPriorityMask(Entity): """ MPLS Priority Mask .. attribute:: prec0 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec1 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec2 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec3 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec4 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec5 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec6 Prec **type**\: int **range:** 0..1 **default value**\: 0 .. attribute:: prec7 Prec **type**\: int **range:** 0..1 **default value**\: 0 This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.Nodes.Node.MplsPriorityMask, self).__init__() self.yang_name = "mpls-priority-mask" self.yang_parent_name = "node" self.is_top_level_class = False self.has_list_ancestor = True self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('prec0', YLeaf(YType.uint32, 'prec0')), ('prec1', YLeaf(YType.uint32, 'prec1')), ('prec2', YLeaf(YType.uint32, 'prec2')), ('prec3', YLeaf(YType.uint32, 'prec3')), ('prec4', YLeaf(YType.uint32, 'prec4')), ('prec5', YLeaf(YType.uint32, 'prec5')), ('prec6', YLeaf(YType.uint32, 'prec6')), ('prec7', YLeaf(YType.uint32, 'prec7')), ]) self.prec0 = None self.prec1 = None self.prec2 = None self.prec3 = None self.prec4 = None self.prec5 = None self.prec6 = None self.prec7 = None self._segment_path = lambda: "mpls-priority-mask" def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.Nodes.Node.MplsPriorityMask, ['prec0', 'prec1', 'prec2', 'prec3', 'prec4', 'prec5', 'prec6', 'prec7'], name, value) class MplsExp(Entity): """ EFD MPLS parameters .. attribute:: exp MPLS EXP threshold **type**\: int **range:** 0..7 **mandatory**\: True .. attribute:: operation_ MPLS operation **type**\: :py:class:`Asr9kEfdOperation <ydk.models.cisco_ios_xr.Cisco_IOS_XR_asr9k_prm_cfg.Asr9kEfdOperation>` **default value**\: greater-than-or-equal This class is a :ref:`presence class<presence-class>` """ _prefix = 'asr9k-prm-cfg' _revision = '2015-11-09' def __init__(self): super(HardwareModuleEfd.Nodes.Node.MplsExp, self).__init__() self.yang_name = "mpls-exp" self.yang_parent_name = "node" self.is_top_level_class = False self.has_list_ancestor = True self.ylist_key_names = [] self._child_container_classes = OrderedDict([]) self._child_list_classes = OrderedDict([]) self.is_presence_container = True self._leafs = OrderedDict([ ('exp', YLeaf(YType.uint32, 'exp')), ('operation_', YLeaf(YType.enumeration, 'operation')), ]) self.exp = None self.operation_ = None self._segment_path = lambda: "mpls-exp" def __setattr__(self, name, value): self._perform_setattr(HardwareModuleEfd.Nodes.Node.MplsExp, ['exp', 'operation_'], name, value) def clone_ptr(self): self._top_entity = HardwareModuleEfd() return self._top_entity
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d196570850f5bad05ae8f7489531f8d173cd63bf
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py
Python
hyperion/torch/layer_blocks/resnet1d_blocks.py
hyperion-ml/hyperion
c4c9eee0acab1ba572843373245da12d00dfffaa
[ "Apache-2.0" ]
14
2021-12-19T04:24:15.000Z
2022-03-18T03:24:04.000Z
hyperion/torch/layer_blocks/resnet1d_blocks.py
hyperion-ml/hyperion
c4c9eee0acab1ba572843373245da12d00dfffaa
[ "Apache-2.0" ]
null
null
null
hyperion/torch/layer_blocks/resnet1d_blocks.py
hyperion-ml/hyperion
c4c9eee0acab1ba572843373245da12d00dfffaa
[ "Apache-2.0" ]
5
2021-12-14T20:41:27.000Z
2022-02-24T14:18:11.000Z
""" Copyright 2020 Johns Hopkins University (Author: Jesus Villalba) Apache 2.0 (http://www.apache.org/licenses/LICENSE-2.0) """ import torch.nn as nn from torch.nn import Conv1d, BatchNorm1d from ..layers import ActivationFactory as AF from ..layers import Dropout1d, DropConnect1d, Interpolate from ..layers.subpixel_convs import SubPixelConv1d from .se_blocks import SEBlock1d def _convk( in_channels, out_channels, kernel_size=3, stride=1, groups=1, dilation=1, bias=False ): """kernel k convolution with padding""" padding = dilation * (kernel_size - 1) // 2 return Conv1d( in_channels, out_channels, kernel_size=kernel_size, stride=stride, padding=padding, groups=groups, bias=bias, dilation=dilation, ) def _conv1(in_channels, out_channels, stride=1, bias=False): """point-wise convolution""" return Conv1d(in_channels, out_channels, kernel_size=1, stride=stride, bias=bias) def _subpixel_conv1(in_channels, out_channels, stride=1, bias=False): """point-wise subpixel convolution""" return SubPixelConv1d( in_channels, out_channels, kernel_size=1, stride=stride, bias=bias ) def _subpixel_convk( in_channels, out_channels, kernel_size=3, stride=1, groups=1, dilation=1, bias=False ): """kernel k subpixel convolution with padding""" padding = dilation * (kernel_size - 1) // 2 return SubPixelConv1d( in_channels, out_channels, kernel_size=kernel_size, stride=stride, padding=padding, groups=groups, bias=bias, dilation=dilation, ) def _make_downsample(in_channels, out_channels, stride, norm_layer, norm_before): if stride % 2 == 0: first_stride = 2 second_stride = stride // 2 else: first_stride = 1 second_stride = stride if norm_before: layers = [ _conv1(in_channels, out_channels, first_stride, bias=False), norm_layer(out_channels), ] else: layers = [_conv1(in_channels, out_channels, first_stride, bias=True)] if second_stride > 1: kernel_size = 2 * (second_stride // 2) + 1 layers.append( nn.MaxPool1d( kernel_size=kernel_size, stride=second_stride, padding=(kernel_size - 1) // 2, ) ) return nn.Sequential(*layers) def _make_upsample( in_channels, out_channels, stride, norm_layer, norm_before, mode="nearest" ): if mode == "subpixel": if norm_before: return nn.Sequential( _subpixel_conv1(in_channels, out_channels, stride, bias=False), norm_layer(out_channels), ) return _subpixel_conv1(in_channels, out_channels, stride, bias=True) if norm_before: layers = [ _conv1(in_channels, out_channels, stride=1, bias=False), norm_layer(out_channels), ] else: layers = [_conv1(in_channels, out_channels, stride=1, bias=True)] layers.append(Interpolate(scale_factor=stride, mode=mode)) return nn.Sequential(*layers) class ResNet1dBasicBlock(nn.Module): expansion = 1 # __constants__ = ['downsample'] def __init__( self, in_channels, channels, kernel_size=3, activation="relu6", stride=1, dropout_rate=0, drop_connect_rate=0, groups=1, dilation=1, use_norm=True, norm_layer=None, norm_before=True, ): super().__init__() self.norm_before = False self.norm_after = False if use_norm: if norm_layer is None: norm_layer = BatchNorm1d self.bn1 = norm_layer(channels) self.bn2 = norm_layer(channels) if norm_before: self.norm_before = True else: self.norm_after = True self.in_channels = in_channels self.channels = channels bias = not norm_before self.conv1 = _convk( in_channels, channels, kernel_size, stride, groups, dilation, bias=bias ) self.act1 = AF.create(activation) self.conv2 = _convk(channels, channels, kernel_size, groups=groups, bias=bias) self.act2 = AF.create(activation) self.stride = stride self.downsample = None if stride != 1 or in_channels != channels: self.downsample = _make_downsample( in_channels, channels, stride, norm_layer, norm_before ) self.dropout_rate = dropout_rate self.dropout = None if dropout_rate > 0: self.dropout = Dropout1d(dropout_rate) self.drop_connect_rate = drop_connect_rate self.drop_connect = None if drop_connect_rate > 0: self.drop_connect = DropConnect1d(drop_connect_rate) self.context = (stride + dilation) * (kernel_size - 1) // 2 self.downsample_factor = stride @property def out_channels(self): return self.channels def forward(self, x): residual = x x = self.conv1(x) if self.norm_before: x = self.bn1(x) x = self.act1(x) if self.norm_after: x = self.bn1(x) x = self.conv2(x) if self.norm_before: x = self.bn2(x) if self.drop_connect_rate > 0: x = self.drop_connect(x) if self.downsample is not None: residual = self.downsample(residual) x += residual x = self.act2(x) if self.norm_after: x = self.bn2(x) if self.dropout_rate > 0: x = self.dropout(x) return x class ResNet1dBasicDecBlock(nn.Module): expansion = 1 # __constants__ = ['downsample'] def __init__( self, in_channels, channels, kernel_size=3, activation="relu6", stride=1, dropout_rate=0, drop_connect_rate=0, groups=1, dilation=1, use_norm=True, norm_layer=None, norm_before=True, ): super().__init__() self.norm_before = False self.norm_after = False if use_norm: if norm_layer is None: norm_layer = BatchNorm1d self.bn1 = norm_layer(channels) self.bn2 = norm_layer(channels) if norm_before: self.norm_before = True else: self.norm_after = True self.in_channels = in_channels self.channels = channels bias = not norm_before self.conv1 = _subpixel_convk( in_channels, channels, kernel_size, stride, groups, dilation, bias=bias ) self.act1 = AF.create(activation) self.conv2 = _convk(channels, channels, kernel_size, groups=groups, bias=bias) self.act2 = AF.create(activation) self.stride = stride self.upsample = None if stride != 1 or in_channels != channels: self.upsample = _make_upsample( in_channels, channels, stride, norm_layer, norm_before ) self.dropout_rate = dropout_rate self.dropout = None if dropout_rate > 0: self.dropout = Dropout1d(dropout_rate) self.drop_connect_rate = drop_connect_rate self.drop_connect = None if drop_connect_rate > 0: self.drop_connect = DropConnect1d(drop_connect_rate) self.context = (stride + dilation) * (kernel_size - 1) // 2 self.upsample_factor = stride @property def out_channels(self): return self.channels def forward(self, x): residual = x x = self.conv1(x) if self.norm_before: x = self.bn1(x) x = self.act1(x) if self.norm_after: x = self.bn1(x) x = self.conv2(x) if self.norm_before: x = self.bn2(x) if self.drop_connect_rate > 0: x = self.drop_connect(x) if self.upsample is not None: residual = self.upsample(residual) x += residual x = self.act2(x) if self.norm_after: x = self.bn2(x) if self.dropout_rate > 0: x = self.dropout(x) return x class ResNet1dBNBlock(nn.Module): def __init__( self, in_channels, channels, kernel_size=3, activation="relu6", stride=1, dropout_rate=0, drop_connect_rate=0, groups=1, dilation=1, expansion=4, use_norm=True, norm_layer=None, norm_before=True, ): super().__init__() self.norm_before = False self.norm_after = False self.expansion = expansion bn_channels = channels // expansion if use_norm: if norm_layer is None: norm_layer = BatchNorm1d self.bn1 = norm_layer(bn_channels) self.bn2 = norm_layer(bn_channels) self.bn3 = norm_layer(channels) if norm_before: self.norm_before = True else: self.norm_after = True self.in_channels = in_channels self.channels = channels bias = not norm_before self.conv1 = _conv1(in_channels, bn_channels, stride=1, bias=bias) self.conv2 = _convk( bn_channels, bn_channels, kernel_size, stride, groups=groups, dilation=dilation, bias=bias, ) self.conv3 = _conv1(bn_channels, channels, stride=1, bias=bias) self.act1 = AF.create(activation) self.act2 = AF.create(activation) self.act3 = AF.create(activation) self.stride = stride self.downsample = None if stride != 1 or in_channels != channels: self.downsample = _make_downsample( in_channels, channels, stride, norm_layer, norm_before ) self.dropout_rate = dropout_rate self.dropout = None if dropout_rate > 0: self.dropout = Dropout1d(dropout_rate) self.drop_connect_rate = drop_connect_rate self.drop_connect = None if drop_connect_rate > 0: self.drop_connect = DropConnect1d(drop_connect_rate) self.context = dilation * (kernel_size - 1) // 2 self.downsample_factor = stride @property def out_channels(self): return self.channels def forward(self, x): residual = x x = self.conv1(x) if self.norm_before: x = self.bn1(x) x = self.act1(x) if self.norm_after: x = self.bn1(x) x = self.conv2(x) if self.norm_before: x = self.bn2(x) x = self.act2(x) if self.norm_after: x = self.bn2(x) x = self.conv3(x) if self.norm_before: x = self.bn3(x) if self.drop_connect_rate > 0: x = self.drop_connect(x) if self.downsample is not None: residual = self.downsample(residual) x += residual x = self.act3(x) if self.norm_after: x = self.bn3(x) if self.dropout_rate > 0: x = self.dropout(x) return x class ResNet1dBNDecBlock(nn.Module): def __init__( self, in_channels, channels, kernel_size=3, activation="relu6", stride=1, dropout_rate=0, drop_connect_rate=0, groups=1, dilation=1, expansion=4, use_norm=True, norm_layer=None, norm_before=True, ): super().__init__() self.norm_before = False self.norm_after = False self.expansion = expansion bn_channels = channels // expansion if use_norm: if norm_layer is None: norm_layer = BatchNorm1d self.bn1 = norm_layer(bn_channels) self.bn2 = norm_layer(bn_channels) self.bn3 = norm_layer(channels) if norm_before: self.norm_before = True else: self.norm_after = True self.in_channels = in_channels self.channels = channels bias = not norm_before self.conv1 = _conv1(in_channels, bn_channels, stride=1, bias=bias) self.conv2 = _subpixel_convk( bn_channels, bn_channels, kernel_size, stride, groups, dilation, bias=bias ) self.conv3 = _conv1(bn_channels, channels, stride=1, bias=bias) self.act1 = AF.create(activation) self.act2 = AF.create(activation) self.act3 = AF.create(activation) self.stride = stride self.upsample = None if stride != 1 or in_channels != channels: self.upsample = _make_upsample( in_channels, channels, stride, norm_layer, norm_before ) self.dropout_rate = dropout_rate self.dropout = None if dropout_rate > 0: self.dropout = Dropout1d(dropout_rate) self.drop_connect_rate = drop_connect_rate self.drop_connect = None if drop_connect_rate > 0: self.drop_connect = DropConnect1d(drop_connect_rate) self.context = dilation * (kernel_size - 1) // 2 self.upsample_factor = stride @property def out_channels(self): return self.channels def forward(self, x): residual = x x = self.conv1(x) if self.norm_before: x = self.bn1(x) x = self.act1(x) if self.norm_after: x = self.bn1(x) x = self.conv2(x) if self.norm_before: x = self.bn2(x) x = self.act2(x) if self.norm_after: x = self.bn2(x) x = self.conv3(x) if self.norm_before: x = self.bn3(x) if self.drop_connect_rate > 0: x = self.drop_connect(x) if self.upsample is not None: residual = self.upsample(residual) x += residual x = self.act3(x) if self.norm_after: x = self.bn2(x) if self.dropout_rate > 0: x = self.dropout(x) return x class SEResNet1dBasicBlock(ResNet1dBasicBlock): expansion = 1 def __init__( self, in_channels, channels, kernel_size=3, activation="relu6", stride=1, dropout_rate=0, drop_connect_rate=0, groups=1, dilation=1, se_r=16, use_norm=True, norm_layer=None, norm_before=True, ): super().__init__( in_channels, channels, kernel_size=kernel_size, activation=activation, stride=stride, dropout_rate=dropout_rate, drop_connect_rate=drop_connect_rate, groups=groups, dilation=dilation, use_norm=use_norm, norm_layer=norm_layer, norm_before=norm_before, ) self.se_layer = SEBlock1d(channels, se_r, activation) def forward(self, x): residual = x x = self.conv1(x) if self.norm_before: x = self.bn1(x) x = self.act1(x) if self.norm_after: x = self.bn1(x) x = self.conv2(x) if self.norm_before: x = self.bn2(x) x = self.se_layer(x) if self.drop_connect_rate > 0: x = self.drop_connect(x) if self.downsample is not None: residual = self.downsample(residual) x += residual x = self.act2(x) if self.norm_after: x = self.bn2(x) if self.dropout_rate > 0: x = self.dropout(x) return x class SEResNet1dBasicDecBlock(ResNet1dBasicDecBlock): expansion = 1 def __init__( self, in_channels, channels, kernel_size=3, activation="relu6", stride=1, dropout_rate=0, drop_connect_rate=0, groups=1, dilation=1, se_r=16, use_norm=True, norm_layer=None, norm_before=True, ): super().__init__( in_channels, channels, kernel_size=kernel_size, activation=activation, stride=stride, dropout_rate=dropout_rate, drop_connect_rate=drop_connect_rate, groups=groups, dilation=dilation, use_norm=use_norm, norm_layer=norm_layer, norm_before=norm_before, ) self.se_layer = SEBlock1d(channels, se_r, activation) @property def out_channels(self): return self.channels def forward(self, x): residual = x x = self.conv1(x) if self.norm_before: x = self.bn1(x) x = self.act1(x) if self.norm_after: x = self.bn1(x) x = self.conv2(x) if self.norm_before: x = self.bn2(x) x = self.se_layer(x) if self.drop_connect_rate > 0: x = self.drop_connect(x) if self.upsample is not None: residual = self.upsample(residual) x += residual x = self.act2(x) if self.norm_after: x = self.bn2(x) if self.dropout_rate > 0: x = self.dropout(x) return x class SEResNet1dBNBlock(ResNet1dBNBlock): def __init__( self, in_channels, channels, kernel_size=3, activation="relu6", stride=1, dropout_rate=0, drop_connect_rate=0, groups=1, dilation=1, expansion=4, se_r=16, use_norm=True, norm_layer=None, norm_before=True, ): super().__init__( in_channels, channels, kernel_size=kernel_size, activation=activation, stride=stride, dropout_rate=dropout_rate, drop_connect_rate=drop_connect_rate, groups=groups, dilation=dilation, expansion=expansion, use_norm=use_norm, norm_layer=norm_layer, norm_before=norm_before, ) self.se_layer = SEBlock1d(channels, se_r, activation) def forward(self, x): residual = x x = self.conv1(x) if self.norm_before: x = self.bn1(x) x = self.act1(x) if self.norm_after: x = self.bn1(x) x = self.conv2(x) if self.norm_before: x = self.bn2(x) x = self.act2(x) if self.norm_after: x = self.bn2(x) x = self.conv3(x) if self.norm_before: x = self.bn3(x) x = self.se_layer(x) if self.drop_connect_rate > 0: x = self.drop_connect(x) if self.downsample is not None: residual = self.downsample(residual) x += residual x = self.act3(x) if self.norm_after: x = self.bn3(x) if self.dropout_rate > 0: x = self.dropout(x) return x class SEResNet1dBNDecBlock(ResNet1dBNDecBlock): def __init__( self, in_channels, channels, kernel_size=3, activation="relu6", stride=1, dropout_rate=0, drop_connect_rate=0, groups=1, dilation=1, expansion=4, se_r=16, use_norm=True, norm_layer=None, norm_before=True, ): super().__init__( in_channels, channels, kernel_size=kernel_size, activation=activation, stride=stride, dropout_rate=dropout_rate, drop_connect_rate=drop_connect_rate, groups=groups, dilation=dilation, expansion=expansion, use_norm=use_norm, norm_layer=norm_layer, norm_before=norm_before, ) self.se_layer = SEBlock1d(channels, se_r, activation) def forward(self, x): residual = x x = self.conv1(x) if self.norm_before: x = self.bn1(x) x = self.act1(x) if self.norm_after: x = self.bn1(x) x = self.conv2(x) if self.norm_before: x = self.bn2(x) x = self.act2(x) if self.norm_after: x = self.bn2(x) x = self.conv3(x) if self.norm_before: x = self.bn3(x) x = self.se_layer(x) if self.drop_connect_rate > 0: x = self.drop_connect(x) if self.upsample is not None: residual = self.upsample(residual) x += residual x = self.act3(x) if self.norm_after: x = self.bn3(x) if self.dropout_rate > 0: x = self.dropout(x) return x class ResNet1dEndpoint(nn.Module): def __init__( self, in_channels, channels, in_scale, scale, upsampling_mode="nearest", activation={"name": "relu6", "inplace": True}, norm_layer=None, norm_before=True, ): """ Class that connects the ouputs of the ResNet1d to the rest of the network when using multilevel feature aggregation It converts the features of all the levels that we are going to aggregate to the same temporal scale """ super().__init__() if norm_layer is None: norm_layer = nn.BatchNorm1d self.in_channels = in_channels self.channels = channels self.norm_before = norm_before self.rel_scale = in_scale / scale if scale >= in_scale: stride = int(scale / in_scale) self.resample = _make_downsample( in_channels, channels, stride, norm_layer, norm_before ) else: stride = int(in_scale / scale) self.resample = _make_upsample( in_channels, channels, stride, norm_layer, norm_before, mode=upsampling_mode, ) self.act = AF.create(activation) if not self.norm_before: self.bn = norm_layer(channels) def forward(self, x): x = self.resample(x) x = self.act(x) if not self.norm_before: x = self.bn(x) return x
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d1e25ce061ccc47bef5171b9ec50160e30692825
54,007
py
Python
discordbot.py
markbasser/airdroprobo
c6b015fa9a1caeec9f210f37e18f7654a54fc6ee
[ "MIT" ]
null
null
null
discordbot.py
markbasser/airdroprobo
c6b015fa9a1caeec9f210f37e18f7654a54fc6ee
[ "MIT" ]
null
null
null
discordbot.py
markbasser/airdroprobo
c6b015fa9a1caeec9f210f37e18f7654a54fc6ee
[ "MIT" ]
1
2020-05-05T22:31:34.000Z
2020-05-05T22:31:34.000Z
from discord.ext import commands from discord.ext import tasks import os import traceback import discord from datetime import datetime import random #ランダムモジュール忘れずに import asyncio #なんか必要らしい token = os.environ['DISCORD_BOT_TOKEN'] CHANNEL_ID =698653628176531478 #チャンネルID # 接続に必要なオブジェクトを生成 client = discord.Client() @client.event async def on_ready(): """起動時に通知してくれる処理""" print('ログインしました') print(client.user.name) # ボットの名前 print(client.user.id) # ボットのID print(discord.__version__) # discord.pyのバージョン print('------') # 60秒に一回ループ @tasks.loop(seconds=60) async def loop(): # 現在の時刻 now = datetime.now().strftime('%H:%M') if now == '00:01': channel = client.get_channel(CHANNEL_ID) await channel.send('☆ワタシワエアドロップロボット‼:robot:☆Airdropの方法は適当にコメントする様にプロクラムされています。\nとても簡単!\nいつコメントするかは分かりません。CMD(Command)も変わったりします。お楽しみに♪気長にまたコメントします:star2: \n @everyone :airplane:') if now == '00:02': channel = client.get_channel(CHANNEL_ID) await channel.send('?☆I"m Mini Airdrop-BOT‼ :robot: I am an Airdrop robot! The Airdrop method is programmed for appropriate comments. \ n Very easy! I don”t know when to comment. The CMD also changes. looking forward to☆I will comment again generously. \n @everyone :airplane:') if now == '02:08': channel = client.get_channel(CHANNEL_ID) await channel.send('?フフフモウイチドイイマス☆ワタシワエアドロップロボット‼:robot:☆Airdropの方法は適当にコメントする様にプロクラムされています。\nとても簡単!\nいつコメントするかは分かりません。CMDも変わったりします。お楽しみに:star2: \n @everyone :airplane:') if now == '02:09': channel = client.get_channel(CHANNEL_ID) await channel.send('Say again.hehe ☆I"m Mini Airdrop-BOT‼ :robot: I am an Airdrop robot! The Airdrop method is programmed for appropriate comments. \n Very easy! I don”t know when to comment. The CMD also changes. looking forward to☆ \n @everyone :airplane:') if now == '02:25': channel = client.get_channel(CHANNEL_ID) await channel.send('キナガニキイテクダサイネ:robot: HELLO!さて、 Airdrop方法は、ダイスです:game_die:!\n 指定のコマンドで、0~100までの数字をランダムに出します。その数字によって当たりが違います。\n :airplane: Airdrop賞が【0.1.77.100番】の4/100の確率です。Balloon賞、mini Drop賞 未公開の賞など複数の暗号通貨で構成されています。★リップル(XRP)もリスティングされています。\n 1回当たりの獲得枚数は、少額ですが回数重ねると大きいものです。\n BOT残高がなくなったら おしまい...です。わかりましたか?適当な説明でした<:niko_shita:699072695823892561>  :airplane::robot:') if now == '02:26': channel = client.get_channel(CHANNEL_ID) await channel.send('Please listen for a long time:robot: HELLO! Airdrop method is dice:game_die:! The specified command will randomly output a number from 0 to 100. \n The number depends on the number. \n :airplane: The Airdrop award is the establishment of 4/100 of [0.1.77.100]:star2:. \n It is composed of multiple cryptocurrencies such as the Balloon Award and mini Drop Award. ★Ripple (XRP) is also listed.\n The number of coins you can get each time is small, but the number of times you get it is large. \n When the BOT balance is exhausted, it is the end ... Did you understand? It was a brief explanation.<:niko_shita:699072695823892561>  :airplane::robot::') if now == '02:31': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: ゲームは簡単でサイコロ:game_die:振るだけ!エアドロップCommandは【+】から始まります。半角英数小文字でさて何でしょう!?【+●●●】`+???` \n :white_check_mark:ヒント①`+`は、元気がなくなってきた国を応援する気持ちのプラス。\n :white_check_mark:ヒント②2020年オリンピックが2021年延期しましたね。でも大丈夫かな?残念だけど仕方ない。\n:white_check_mark:ヒント③その国の通貨を意味します。+●●●ならそのスペルに関係します。以上。\n 周りに教えずにCommand打てば削除して下さいね。残高なくなれば終了する予定です。\n :robot:AirdropRobo専用チャンネルでコマンドは入れてください。\n 回数制限もうけてないから適度な回数でおねがいします。テキドナカイスウデ...:robot:') if now == '02:32': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: The game is easy, just roll the dice:game_die:! Air Drop Command starts with [+]. What is it in half-width English letters!? 【+●●●】`+???` \n :white_check_mark: hint①:The `+` is a plus of the feeling of supporting a country that has become less energetic. \n :white_check_mark:hint②:The 2020 Olympics have been postponed to 2021. But is it okay? Unfortunately it can"t be helped.. \n:white_check_mark:hint③: \n It means the currency of the country. + ●●● is related to the spell. that"s all. \n Please delete it by typing Command without telling others. It will end when the balance is exhausted.\n Please enter the command on the :robot:AirdropRobo dedicated channel.\n Since there is no limit on the number of times, please give me an appropriate number of times...... :robot:') if now == '02:33': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: ◆ :game_die: :robot: コマンドは↓ここのRainRoomじゃなく下のこちらの部屋でお願いします↓For commands, please click here  ↓ \n #╰🤖airdrop-robo🆕..この部屋でお願いします。I would like the command in this room :robot:') if now == '02:34': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: あっ!言い忘れていました!コマンドは途中で変わったりします。動いている時間も不特定です。私を見つけたらコマンドで呼び出して下さいね☆回数制限はありませんが、連続するとボロだから..ロボでした(〃艸〃)ムフッ止まります。ゆっくりと迷惑かからないようにお願いします。:star2:') if now == '02:33': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: Ah! I forgot! The command may change on the way. The time of movement is unspecified. If you find me, please call me with a command ☆ There is no limit on the number of times, but if you continue, it will be boro .. It was a robot (〃 艸 〃) It stops. Please do not be a nuisance slowly.:star2:') if now == '07:25': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot:..:robot:..Please wait..:robot:\n/rain BGPT 7 ALL :robot:') if now == '07:26': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot:..:デハカイセツシマス/ Let me explain:robot:') if now == '07:27': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: ゲームは簡単でサイコロ:game_die:振るだけ!エアドロップCommandは【+】から始まります。半角英数小文字でさて何でしょう!?【+●●●】`+???` \n :white_check_mark:ヒント①`+`は、元気がなくなってきた国を応援する気持ちのプラス。\n :white_check_mark:ヒント②2020年オリンピックが2021年延期しましたね。でも大丈夫かな?残念だけど仕方ない。\n:white_check_mark:ヒント③その国の通貨を意味します。+●●●ならそのスペルに関係します。以上。\n 周りに教えずにCommand打てば削除して下さいね。残高なくなれば終了する予定です。\n :robot:AirdropRobo専用チャンネルでコマンドは入れてください。\n 回数制限もうけてないから適度な回数でおねがいします。テキドナカイスウデ...:robot:') if now == '07:28': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: The game is easy, just roll the dice:game_die:! Air Drop Command starts with [+]. What is it in half-width English letters!? 【+●●●】`+???` \n :white_check_mark: hint①:The `+` is a plus of the feeling of supporting a country that has become less energetic. \n :white_check_mark:hint②:The 2020 Olympics have been postponed to 2021. But is it okay? Unfortunately it can"t be helped.. \n:white_check_mark:hint③: \n It means the currency of the country. + ●●● is related to the spell. that"s all. \n Please delete it by typing Command without telling others. It will end when the balance is exhausted.\n Please enter the command on the :robot:AirdropRobo dedicated channel.\n Since there is no limit on the number of times, please give me an appropriate number of times...... :robot:') if now == '07:29': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: ◆ :game_die: :robot: コマンドは↓レインルームじゃなく↓こちらでお願いします↓For commands, please click here  ↓ \n #╰🤖airdrop-robo🆕..cmd I would like the command in this room :robot:') if now == '07:35': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: あっ!言い忘れていました!コマンドは途中で変わったりします。動いている時間も不特定です。私を見つけたらコマンドで呼び出して下さいね☆回数制限はありませんが、連続するとボロだから..ロボでした(〃艸〃)ムフッ止まります。ゆっくりと迷惑かからないようにお願いします。:star2:') if now == '07:36': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: Ah! I forgot! The command may change on the way. The time of movement is unspecified. If you find me, please call me with a command ☆ There is no limit on the number of times, but if you continue, it will be boro .. It was a robot (〃 艸 〃) It stops. Please do not be a nuisance slowly.:star2:') if now == '07:37': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot:..... \n/throw BGPT 80 8 EquallyDistributed <:good01:699581068285706301> Play with BGPT Slot Games~:star2:') if now == '10:55': channel = client.get_channel(CHANNEL_ID) await channel.send('☆ワタシハエアドロップBOT‼:robot:☆AirdropGameの方法は適当にコメントする様にプロクラムされています。\nとても簡単!\nいつコメントするかは分かりません。CMDも変わったりします。お楽しみに:star2:') if now == '10:56': channel = client.get_channel(CHANNEL_ID) await channel.send('☆I"m Mini Airdrop-BOT‼ :robot: I am an Airdrop robot! The Airdrop method is programmed for appropriate comments. \ n Very easy! I don”t know when to comment. The CMD also changes. looking forward to:star2:') if now == '11:10': channel = client.get_channel(CHANNEL_ID) await channel.send('キナガニキイテクダサイネ:robot: HELLO!さて、 Airdrop方法は、ダイスです:game_die:!\n 指定のコマンドで、0~100までの数字をランダムに出します。その数字によって当たりが違います。\n :airplane: Airdrop賞が【0.1.77.100番】の4/100の確率です。Balloon賞、mini Drop賞 未公開の賞など複数の暗号通貨で構成されています。★リップル(XRP)もリスティングされています。\n 1回当たりの獲得枚数は、少額ですが回数重ねると大きいものです。\n BOT残高がなくなったら おしまい...です。わかりましたか?適当な説明でした<:niko_shita:699072695823892561>  :airplane::robot:') if now == '11:11': channel = client.get_channel(CHANNEL_ID) await channel.send('Please listen for a long time:robot: HELLO! Airdrop method is dice:game_die:! The specified command will randomly output a number from 0 to 100. \n The number depends on the number. \n :airplane: The Airdrop award is the establishment of 4/100 of [0.1.77.100]:star2:. \n It is composed of multiple cryptocurrencies such as the Balloon Award and mini Drop Award. ★Ripple (XRP) is also listed.\n The number of coins you can get each time is small, but the number of times you get it is large. \n When the BOT balance is exhausted, it is the end ... Did you understand? It was a brief explanation.<:niko_shita:699072695823892561>  :airplane::robot::') if now == '11:12': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: あっ!言い忘れていました!コマンドは途中で変わったりします。動いている時間も不特定です。私を見つけたらコマンドで呼び出して下さいね☆回数制限はありませんが、連続するとボロだから..ロボでした(〃艸〃)ムフッ止まります。ゆっくりと迷惑かからないようにお願いします。:star2:') if now == '11:13': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot:..:robot:..<:heart02:699580174911668225> 100回100通り出る内容が違います!<:good01:699581068285706301> 100 times 100 different contents!') if now == '11:14': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot:ah!I forgot! The command may change on the way. The time of movement is unspecified. If you find me, please call me with a command ☆ There is no limit on the number of times, but it will stop if you continue. Please do not be a nuisance slowly. I"m a bot It will break.:star2:') if now == '11:24': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot:..:robot:..Please wait..:robot:\n/rain BGPT 7 ALL :robot:') if now == '12:25': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot:..:デハカイセツシマス/ Let me explain:robot:') if now == '12:26': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: ゲームは簡単でサイコロ:game_die:振るだけ!エアドロップCommandは【+】から始まります。半角英数小文字でさて何でしょう!?【+●●●】`+???` \n :white_check_mark:ヒント①`+`は、元気がなくなってきた国を応援する気持ちのプラス。\n :white_check_mark:ヒント②2020年オリンピックが2021年延期しましたね。でも大丈夫かな?残念だけど仕方ない。\n:white_check_mark:ヒント③その国の通貨を意味します。+●●●ならそのスペルに関係します。以上。\n 周りに教えずにCommand打てば削除して下さいね。残高なくなれば終了する予定です。\n :robot:AirdropRobo専用チャンネルでコマンドは入れてください。\n 回数制限もうけてないから適度な回数でおねがいします。テキドナカイスウデ...:robot:') if now == '12:27': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: The game is easy, just roll the dice:game_die:! Air Drop Command starts with [+]. What is it in half-width English letters!? 【+●●●】`+???` \n :white_check_mark: hint①:The `+` is a plus of the feeling of supporting a country that has become less energetic. \n :white_check_mark:hint②:The 2020 Olympics have been postponed to 2021. But is it okay? Unfortunately it can"t be helped.. \n:white_check_mark:hint③: \n It means the currency of the country. + ●●● is related to the spell. that"s all. \n Please delete it by typing Command without telling others. It will end when the balance is exhausted.\n Please enter the command on the :robot:AirdropRobo dedicated channel.\n Since there is no limit on the number of times, please give me an appropriate number of times...... :robot:') if now == '12:28': channel = client.get_channel(CHANNEL_ID) await channel.send(':robot: ◆ :game_die: :robot: ↓コマンドはこちらでお願いします↓For commands, please click here  ↓\n #╰🤖airdrop-robo🆕..:robot:') #ループ処理実行 loop.start() @client.event async def on_message(message): if message.content.startswith("+yen"): if client.user != message.author: num_random = random.randint(0, 100) #出る目を指定 m = int(num_random) await asyncio.sleep(2) await message.channel.send(m) await asyncio.sleep(4) if 0 < m < 2: #1~1 q = await message.channel.send(f"\n:point_right:rall~:game_die: _(Dice→)_ :star2:No.:one: :star2: \n\n୨୧┈┈┈┈┈┈┈┈┈┈୨୧\n :airplane:\n:partying_face:tada: **Airdrop!**:confetti_ball: \n୨୧┈┈┈┈┈┈┈┈┈┈୨୧\n\n/tip BGPT 2345.6789 {message.author.mention} <:BGPT02:698471366004965406> ") [await q.add_reaction(i) for i in ('<:heart02:699580174911668225>', '<:BGPT02:698471366004965406>')] # for文の内包表記 elif 1 < m < 3: #2 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_:two: \n\n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n→mini drop:candy: \n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n\n/tip GDRH 22 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '🌈')] # for文の内包表記 elif 2 < m < 4: #3 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :three: \n\n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n→mini drop:candy: \n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n\n/tip GDRH 33 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '🌈')] # for文の内包表記 elif 3 < m < 5: #4 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :four: \n\n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n→mini drop:candy: \n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n\n/tip GDRH 44 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '🌈')] # for文の内包表記 elif 4 < m < 6: #5 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_:five: \n\n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n→mini Go(5)drop:checkered_flag: \n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n\n/tip EVEO 5 {message.author.mention} :checkered_flag:") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:good:699580636448423936>')] # for文の内包表記 elif 5 < m < 7: #6 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :six: \n\n・。・。・。・。・。・。・。・。・。\n→mini drop:lollipop: \n・。・。・。・。・。・。・。・。・。\n\n/tip SEYU 6.6 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:kaokanga:699072678614663210>')] # for文の内包表記 elif 6 < m < 8: #7 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ ☆:star2 :seven: :star2:☆ :airplane:\n:partying_face:tada: **Airdrop!mini!** \n\n୨୧┈┈┈┈┈┈┈┈┈୨୧\n\n/tip BGPT 777.7777 {message.author.mention} <:BGPT02:698471366004965406> ") [await q.add_reaction(i) for i in ('<:heart02:699580174911668225>', '<:BGPT02:698471366004965406>')] # for文の内包表記 elif 7 < m < 9: #8 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :eight: \n\n・。・。・。・。・。・。・。・。・。\n→mini Rock drop 🎸 \n・。・。・。・。・。・。・。・。・。\n\n rtip {message.author.mention} 88.8 \n <:rock:732205759462375475> <:rock:732205759462375475> <:rock:732205759462375475> :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:kaokanga:699072678614663210>')] # for文の内包表記 elif 8 < m < 10: #9 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :nine: \n\n・。・。・。・。・。・。・。・。・。\n→mini Rock drop 🎸 \n・。・。・。・。・。・。・。・。・。\n\n rtip {message.author.mention} 99.9 \n <:rock:732205759462375475> <:rock:732205759462375475> <:rock:732205759462375475> :rainbow:") [await q.add_reaction(i) for i in ('<:yeah:721269100344770600>', '<:rock:732205759462375475>')] # for文の内包表記 elif 9 < m < 11: #10 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :keycap_ten: \n\n・。・。・。・。・。・。・。・。・。\n→mini Rock drop 🎸 \n・。・。・。・。・。・。・。・。・。\n\n rtip {message.author.mention} 100 \n <:rock:732205759462375475> <:rock:732205759462375475> <:rock:732205759462375475> :rainbow:") [await q.add_reaction(i) for i in ('<:rock:732205759462375475>', '<:yeah:721269100344770600>')] # for文の内包表記 elif 10 < m < 12: #11 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :one::one: \n\n・。・。・。・。・。・。・。・。・。\n→mini drop:lollipop: \n・。・。・。・。・。・。・。・。・。\n\n/tip SEYU 11 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:kaokanga:699072678614663210>')] # for文の内包表記 elif 11 < m < 13: #12 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :one::two: \n\n・。・。・。・。・。・。・。・。・。\n→mini drop:lollipop: \n・。・。・。・。・。・。・。・。・。\n\n/tip SEYU 12 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:kaokanga:699072678614663210>')] # for文の内包表記 elif 12 < m < 14: #13 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :one::three: \n\n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n→mini drop:lollipop: \n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n\n/tip GDRH 13 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:kaokanga:699072678614663210>')] # for文の内包表記 elif 13 < m < 15: #14 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :one::four: \n\n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n→mini drop:candy: \n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n\n/tip GDRH 14 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:kaokanga:699072678614663210>')] # for文の内包表記 elif 14 < m < 16: #15 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :one::five: \n\n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n→mini drop:lollipop: \n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n\n/tip GDRH 15 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:kaokanga:699072678614663210>')] # for文の内包表記 elif 15 < m < 17: #16 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :one::six: \n\n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n→mini drop:lollipop: \n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n\n/tip GDRH 16 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:kaokanga:699072678614663210>')] # for文の内包表記 elif 16 < m < 18: #17 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :one::seven: \n\n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n→mini drop:lollipop: \n-+-+-+-+-+-+-+-+-+-+-+-+-+-+-\n\n/tip GDRH 17 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:kaokanga:699072678614663210>')] # for文の内包表記 elif 17 < m < 19: #18 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :one::eight: \n\n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n→mini drop:candy: \n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n\n/tip EVEO 18 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:uzu1:700858878879072303>')] # for文の内包表記 elif 18 < m < 20: #19 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :one::nine: \n\n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n→mini drop:candy: \n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n\n/tip EVEO 19 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:uzu1:700858878879072303>')] # for文の内包表記 elif 19 < m < 21: #20 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :two::zero: \n\n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n→mini drop:candy: \n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n\n/tip EVERYLOTO 20 {message.author.mention} ") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:uzu1:700858878879072303>')] # for文の内包表記 elif 20 < m < 22: #21 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :two::one: \n\n━-━-━-━-━-━-━-━-━-━\n→mini drop:candy: \n━-━-━-━-━-━-━-━-━-━\n\n/tip 456coin 21 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 21 < m < 23: #22 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :two::two: \n\n━-━-━-━-━-━-━-━-━-━\n→mini drop:candy: \n━-━-━-━-━-━-━-━-━-━\n\n/tip 456coin 22 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 22 < m < 24: #23 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :two::three: \n\n━-━-━-━-━-━-━-━-━-━\n→mini drop:candy: \n━-━-━-━-━-━-━-━-━-━\n\n/tip 456coin 23 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 23 < m < 25: #24 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :two::four: \n\n━-━-━-━-━-━-━-━-━-━\n→mini drop:candy: \n━-━-━-━-━-━-━-━-━-━\n\n/tip 456coin 24 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 24 < m < 26: #25 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :two::five: \n\n━-━-━-━-━-━-━-━-━-━\n→mini drop:candy: \n━-━-━-━-━-━-━-━-━-━\n\n/tip 456coin 25 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 25 < m < 27: #26 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :two::six: \n\n━-━-━-━-━-━-━-━-━-━\n→mini drop:candy: \n━-━-━-━-━-━-━-━-━-━\n\n/tip 456coin 26 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 26 < m < 28: #27 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :two::seven: \n\n━-━-━-━-━-━-━-━-━-━\n→mini drop:candy: \n━-━-━-━-━-━-━-━-━-━\n\n/tip 456coin 27 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 27 < m < 29: #28 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :two::eight: \n\n━-━-━-━-━-━-━-━-━-━\n→mini drop:candy: \n━-━-━-━-━-━-━-━-━-━\n\n/tip 456coin 28 {message.author.mention} :rainbow:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 28 < m < 30: #29 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :two::nine: \n\n━-☆-━-━-━-━-━-━-☆-━\n→||**Are you a meat lover?**:cut_of_meat: ||\n━-☆-━-━-━-━-━-━-☆-━\n:rainbow:||☆:rainbow::cut_of_meat: **Congratulations** :meat_on_bone:☆\n\n/tip 29coin 292929.2929 {message.author.mention} ||") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 29 < m < 31: #30 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :three::zero: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 30.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 30 < m < 32: #31 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :three::one: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 31.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 31 < m < 33: #32 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :three::two: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 32.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 32 < m < 34: #33 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :three::three: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 33.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 33 < m < 35: #34 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :three::four: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 34.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 34 < m < 36: #35 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :three::five: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 35.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 35 < m < 37: #36 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :three::six: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 36.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 36 < m < 38: #37 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :three::seven: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Dice Kick!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 37 < m < 39: #38 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :three::eight: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Dice Kick!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 38 < m < 40: #39 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :three::nine: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Dice Kick!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 39 < m < 41: #40 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :four::zero: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 40.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 40 < m < 42: #41 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :four::one: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 41.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 41 < m < 43: #42 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :four::two: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 42.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 42 < m < 44: #43 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :four::three: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 43.29 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 43 < m < 45: #44 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :four::four: \n\n━-━-━-━-━-━-━-━-━-━\n→||**meat love♡**:cut_of_meat: || \n━-━-━-━-━-━-━-━-━-━\n\n/tip 29coin 4444.4444 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 44 < m < 46: #45 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :four::five: \n\n━-━-━-━-━-━-━-━-━-━\n→mini drop:candy: \n━-━-━-━-━-━-━-━-━-━\n\n/tip 456coin 456.456 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 45 < m < 47: #46 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :four::six: \n\n━-━-━-━-━-━-━-━-━-━\n→mini drop:candy: \n━-━-━-━-━-━-━-━-━-━\n\n/tip 456coin 46.456 {message.author.mention} :meat_on_bone:") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 46 < m < 48: #47 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :four::seven: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Dice Kick!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 47 < m < 49: #48 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :four::eight: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Dice Kick!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 48 < m < 50: #49 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :four::nine: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Dice Kick!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 49 < m < 51: #50 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :five::zero: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Dice Kick!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 50 < m < 52: #51 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :five::one: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 5.1 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 51 < m < 53: #52 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :five::two: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 5.2 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:BGPT02:698471366004965406>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 52 < m < 54: #53 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :five::three: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 5.3 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 53 < m < 55: #54 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :five::four: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini Rock n drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n rtip {message.author.mention} 55.4 <:rock:732205759462375475>") [await q.add_reaction(i) for i in ('<:yeah:721269100344770600>', '<:rock:732205759462375475>')] # for文の内包表記 elif 54 < m < 56: #55 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :five::five: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→☆mini GoGo!(55)GAME drop:checkered_flag:☆ \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 55.55 {message.author.mention} <:BGPTpink:705616860955148310> :checkered_flag:") [await q.add_reaction(i) for i in ('<:good:699580636448423936>', '<:niko_shita:699072695823892561>')] # for文の内包表記 elif 55 < m < 57: #56 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :five::six: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 5.6 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:BGPT02:698471366004965406>', '<:niko_shita:699072695823892561>')] # for文の内包表記 elif 56 < m < 58: #57 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :five::seven: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 5.7 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 57 < m < 59: #58 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :five::eight: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 5.8 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:BGPT02:698471366004965406>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 58 < m < 60: #59 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :five::nine: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 5.9 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:BGPT02:698471366004965406>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 59 < m < 61: #60 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :six::zero: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→☆mini drop:candy:☆ \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 60 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:BGPT02:698471366004965406>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 60 < m < 62: #61 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :six::one: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 6.1 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:BGPT02:698471366004965406>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 61 < m < 63: #62 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :six::two: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 6.2 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 62 < m < 64: #63 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :six::three: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 6.3 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 63 < m < 65: #64 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :six::four: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 6.4 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 64 < m < 66: #65 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :six::five: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Kick Dice!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 65 < m < 67: #66 q = await message.channel.send(f"\n:game_die::dash::left_facing_fist:Punch! _(Dice→)_ :boom: :six::six: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Punch Dice!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't Punch the Dice. ~None!\n ダイスをパンチしたらだめよw~!なし") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 66 < m < 68: #67 q = await message.channel.send(f"\n:game_die::dash::left_facing_fist:Punch! _(Dice→)_ :boom: :six::seven: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Punch Dice!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't Punch the Dice. ~None!\n ダイスをパンチしたらだめよw~!なし") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 67 < m < 69: #68 q = await message.channel.send(f"\n:game_die::dash::left_facing_fist:Punch! _(Dice→)_ :boom: :six::eight: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Punch Dice!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't Punch the Dice. ~None!\n ダイスをパンチしたらだめよw~!なし") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 68 < m < 70: #69 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :two_hearts: :six::nine: :two_hearts: \n\n∽∽♡∽∽∽∽∽∽∽∽∽♡∽∽\n→Rock n Rain!69Love drop 🎸 \n∽∽♡∽∽∽∽∽∽∽∽∽♡∽∽\n\n rtip {message.author.mention} 6969.69 \n <:rock:732205759462375475> <:rock:732205759462375475> <:rock:732205759462375475>") [await q.add_reaction(i) for i in ('<:rock:732205759462375475>', '<:yeah:721269100344770600>')] # for文の内包表記 elif 69 < m < 71: #70 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :seven::zero: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip XJP 0.07 {message.author.mention} <:xjp_coin:739314187532107846>") [await q.add_reaction(i) for i in ('<:nicewave:741982210630090763>', '<:xjp_coin:739314187532107846>')] # for文の内包表記 elif 70 < m < 72: #71 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :seven::one: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip XJP 0.071 {message.author.mention} <:xjp_coin:739314187532107846>") [await q.add_reaction(i) for i in ('<:nicewave:741982210630090763>', '<:xjp_coin:739314187532107846>')] # for文の内包表記 elif 71 < m < 73: #72 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :seven::two: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 7.2 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:good01:699581068285706301>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 72 < m < 74: #73 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :seven::three: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 7.3 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:good01:699581068285706301>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 73 < m < 75: #74 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :seven::four: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 7.4 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:good01:699581068285706301>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 74 < m < 76: #75 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :seven::five: \n\n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n→mini drop:candy: \n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n\n/tip EVEO 7.5 {message.author.mention}") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:uzu1:700858878879072303>')] # for文の内包表記 elif 75 < m < 77: #76 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :seven::six: \n\n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n→mini drop:candy: \n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n\n/tip EVERYCOND 76 {message.author.mention}") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:uzu1:700858878879072303>')] # for文の内包表記 elif 76 < m < 78: #77 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :seven::seven: \n\n୨୧┈┈┈┈┈┈┈┈┈┈୨୧\n :balloon:**Jackpot!**\n:partying_face::tada:**Airdrop**:balloon::rocket:\n୨୧┈┈┈┈┈┈┈┈┈┈୨୧\n\n/tip BGPT 3777.77 {message.author.mention} <:BGPT02:698471366004965406>:confetti_ball: ") [await q.add_reaction(i) for i in ('<:good01:699581068285706301>', '<:BGPT02:698471366004965406>')] # for文の内包表記 elif 77 < m < 79: #78 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :seven::eight: \n\n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n→mini drop:candy: \n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n\n/tip EVEO 7.8 {message.author.mention}") [await q.add_reaction(i) for i in ('<:hai_kao:699072592987947117>', '<:uzu1:700858878879072303>')] # for文の内包表記 elif 78 < m < 80: #79 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :seven::nine: \n\n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n→mini drop:seedling: \n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n\n/tip SPRTS 79 {message.author.mention} :seedling:") [await q.add_reaction(i) for i in ('<:sprts:699076413931782146>', '<:sangras01:699579409220370514>')] # for文の内包表記 elif 79 < m < 81: #80 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :eight::zero: \n\n‥★‥∴‥∵‥∴‥∴‥∵‥∴‥★‥\n→mini drop:seedling: \n‥★‥∴‥∵‥∴‥∴‥∵‥∴‥★‥\n\n/tip SPRTS 800 {message.author.mention} :seedling:") [await q.add_reaction(i) for i in ('<:sprts:699076413931782146>', '<:sangras01:699579409220370514>')] # for文の内包表記 elif 80 < m < 82: #81 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :eight::one: \n\n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n→mini drop:seedling: \n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n\n/tip SPRTS 81 {message.author.mention} :seedling:") [await q.add_reaction(i) for i in ('<:sprts:699076413931782146>', '<:sangras01:699579409220370514>')] # for文の内包表記 elif 81 < m < 83: #82 q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice→)_ :eight::two: \n\n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n→mini drop:seedling: \n‥∵‥∴‥∵‥∴‥∴‥∵‥∴‥∵‥\n\n/tip SPRTS 82 {message.author.mention} :seedling:") [await q.add_reaction(i) for i in ('<:sprts:699076413931782146>', '<:sangras01:699579409220370514>')] # for文の内包表記 elif 82 < m < 84: #83 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :eight::three: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Dice Kick!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 83 < m < 85: #84 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :eight::four: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Dice Kick!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 84 < m < 86: #85 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :eight::five: \n\n━-━-━-━-━-━-━-━-━-━\n→★mini drop:candy:★ \n━-━-━-━-━-━-━-━-━-━\n\n/tip KENJ 850 {message.author.mention} <:kenj:700136543003607101> ") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:kenj:700136543003607101>')] # for文の内包表記 elif 85 < m < 87: #86 q = await message.channel.send(f"\n:game_die::dash::leg:kick! _(Dice→)_ :boom: :eight::six: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Dice Kick!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't kick the dice with your foot~ None\n ダイスを足で蹴ったらだめよ~!None") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 86 < m < 88: #87 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :eight::seven: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→☆mini drop:candy:☆ \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 87 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:BGPT02:698471366004965406>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 87 < m < 89: #88 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :eight::eight: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→:balloon: Balloon drop :balloon: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 880 {message.author.mention} <:BGPTpink:705616860955148310>:balloon:") [await q.add_reaction(i) for i in ('<:BGPT02:698471366004965406>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 88 < m < 90: #89 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :eight::seven: \n\n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n→ mini drop:candy: \n∽∽∽∽∽∽∽∽∽∽∽∽∽∽\n\n/tip BGPT 8.9 {message.author.mention} <:BGPTpink:705616860955148310>") [await q.add_reaction(i) for i in ('<:BGPT02:698471366004965406>', '<:BGPTpink:705616860955148310>')] # for文の内包表記 elif 89 < m < 91: #90 q = await message.channel.send(f"\n:game_die::dash::left_facing_fist:Punch! _(Dice→)_ :boom: :nine::zero: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Punch Dice!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't Punch the Dice. ~None!\n ダイスをパンチしたらだめよw~!なし") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 90 < m < 92: #91 q = await message.channel.send(f"\n:game_die::dash::left_facing_fist:Punch! _(Dice→)_ :boom: :nine::one: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Punch Dice!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't Punch the Dice. ~None!\n ダイスをパンチしたらだめよw~!なし") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 91 < m < 93: #92 q = await message.channel.send(f"\n:game_die::dash::left_facing_fist:Punch! _(Dice→)_ :boom: :nine::two: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Punch Dice!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't Punch the Dice. ~None!\n ダイスをパンチしたらだめよw~!なし") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 92 < m < 94: #93 q = await message.channel.send(f"\n:game_die::dash::left_facing_fist:Punch! _(Dice→)_ :boom: :nine::three: :boom: \n\n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n **Punch Dice!** :dash: \n〓〓〓〓〓〓〓〓〓〓〓〓〓〓〓\n\n<:namida1:699577954094809088>Don't Punch the Dice. ~None!\n ダイスをパンチしたらだめよw~!なし") [await q.add_reaction(i) for i in ('<:niko_shita:699072695823892561>', '<:uzu2:700858786960900117>')] # for文の内包表記 elif 93 < m < 95: #94 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :nine::four: \n\n━-━-━-━-━-━-━-━-━-━\n→★mini drop:candy:★ \n━-━-━-━-━-━-━-━-━-━\n\n/tip KENJ 940 {message.author.mention} <:kenj:700136543003607101> ") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:kenj:700136543003607101>')] # for文の内包表記 elif 94 < m < 96: #95 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :nine::five: \n\n━-━-━-━-━-━-━-━-━-━\n→★mini drop:candy:★ \n━-━-━-━-━-━-━-━-━-━\n\n/tip KENJ 950 {message.author.mention} <:kenj:700136543003607101> ") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:kenj:700136543003607101>')] # for文の内包表記 elif 95 < m < 97: #96 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :nine::six: \n\n━-━-━-━-━-━-━-━-━-━\n→★mini drop:candy:★ \n━-━-━-━-━-━-━-━-━-━\n\n/tip KENJ 960 {message.author.mention} <:kenj:700136543003607101> ") [await q.add_reaction(i) for i in ('<:kanngaeru:699072662382837881>', '<:kenj:700136543003607101>')] # for文の内包表記 elif 96 < m < 98: #97 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :nine::seven: \n\n‥☆∵‥∴‥∵‥∴<:BENKEICOIN04:698471407650209832>∴‥∵‥∴‥∵☆‥\n→mini drop:candy: \n‥☆∵‥∴‥∵‥∴<:BENKEICOIN04:698471407650209832>∴‥∵‥∴‥∵☆‥\n\n/tip BEN 0.97 {message.author.mention} <:benkeicoinsl:698471387064696833> ") [await q.add_reaction(i) for i in ('<:good01:699581068285706301>', '<:benkeicoinsl:698471387064696833>')] # for文の内包表記 elif 97 < m < 99: #98 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :nine::eight: \n\n‥☆∵‥∴‥∵‥∴<:BENKEICOIN04:698471407650209832>∴‥∵‥∴‥∵☆‥\n→mini drop:candy: \n‥☆∵‥∴‥∵‥∴<:BENKEICOIN04:698471407650209832>∴‥∵‥∴‥∵☆‥\n\n/tip BEN 0.98 {message.author.mention} <:benkeicoinsl:698471387064696833> ") [await q.add_reaction(i) for i in ('<:good01:699581068285706301>', '<:benkeicoinsl:698471387064696833>')] # for文の内包表記 elif 98 < m < 100: #99 q = await message.channel.send(f"\n:pinching_hand:roll~:game_die: _(Dice→)_ :nine::nine: \n\n‥☆∵‥∴‥∵‥∴<:BENKEICOIN04:698471407650209832>∴‥∵‥∴‥∵☆‥\n→:balloon: Balloon drop:candy: :balloon: \n‥☆∵‥∴‥∵‥∴<:BENKEICOIN04:698471407650209832>∴‥∵‥∴‥∵☆‥\n\n/tip BEN 9.99 {message.author.mention} <:benkeicoinsl:698471387064696833>:balloon: ") [await q.add_reaction(i) for i in ('<:good01:699581068285706301>', '<:benkeicoinsl:698471387064696833>')] # for文の内包表記 else: #それ以外なので今回の場合100が出た時に処理される q = await message.channel.send(f"\n:point_right:roll~:game_die: _(Dice :zero: or :one::zero::zero:)_ \n\n୨୧┈┈┈┈┈┈┈┈┈┈୨୧\n:partying_face::tada: **Airdrop!** :rocket::confetti_ball: \n୨୧┈┈┈┈┈┈┈┈┈┈୨୧\n\n/tip BGPT 2345.6789 {message.author.mention} <:BGPT02:698471366004965406>:confetti_ball: ") [await q.add_reaction(i) for i in ('<:good01:699581068285706301>', '<:BGPT02:698471366004965406>')] # for文の内包表記 # Botの起動とDiscordサーバーへの接続 client.run(token)
92.95525
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0.922781
0.908361
0.897107
0.892781
0.886193
0.880227
0
0.139821
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54,007
580
818
93.115517
0.58294
0.035569
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ae0b5358bd4074107ebd1ee62da4e1217ccd3e82
286,823
py
Python
intersight/api/niaapi_api.py
sdnit-se/intersight-python
551f7685c0f76bb8af60ec83ffb6f9672d49a4ae
[ "Apache-2.0" ]
21
2018-03-29T14:20:35.000Z
2021-10-13T05:11:41.000Z
intersight/api/niaapi_api.py
sdnit-se/intersight-python
551f7685c0f76bb8af60ec83ffb6f9672d49a4ae
[ "Apache-2.0" ]
14
2018-01-30T15:45:46.000Z
2022-02-23T14:23:21.000Z
intersight/api/niaapi_api.py
sdnit-se/intersight-python
551f7685c0f76bb8af60ec83ffb6f9672d49a4ae
[ "Apache-2.0" ]
18
2018-01-03T15:09:56.000Z
2021-07-16T02:21:54.000Z
# coding: utf-8 """ Cisco Intersight Cisco Intersight is a management platform delivered as a service with embedded analytics for your Cisco and 3rd party IT infrastructure. This platform offers an intelligent level of management that enables IT organizations to analyze, simplify, and automate their environments in more advanced ways than the prior generations of tools. Cisco Intersight provides an integrated and intuitive management experience for resources in the traditional data center as well as at the edge. With flexible deployment options to address complex security needs, getting started with Intersight is quick and easy. Cisco Intersight has deep integration with Cisco UCS and HyperFlex systems allowing for remote deployment, configuration, and ongoing maintenance. The model-based deployment works for a single system in a remote location or hundreds of systems in a data center and enables rapid, standardized configuration and deployment. It also streamlines maintaining those systems whether you are working with small or very large configurations. # noqa: E501 The version of the OpenAPI document: 1.0.9-1295 Contact: intersight@cisco.com Generated by: https://openapi-generator.tech """ from __future__ import absolute_import import re # noqa: F401 # python 2 and python 3 compatibility library import six from intersight.api_client import ApiClient from intersight.exceptions import (ApiTypeError, ApiValueError) class NiaapiApi(object): """NOTE: This class is auto generated by OpenAPI Generator Ref: https://openapi-generator.tech Do not edit the class manually. """ def __init__(self, api_client=None): if api_client is None: api_client = ApiClient() self.api_client = api_client def get_niaapi_apic_cco_post_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicCcoPost' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_cco_post_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicCcoPost If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_cco_post_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_apic_cco_post_by_moid_with_http_info( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicCcoPost' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_cco_post_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicCcoPost, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_cco_post_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_apic_cco_post_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicCcoPosts/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicCcoPost', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_cco_post_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicCcoPost' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_cco_post_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicCcoPostList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_cco_post_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_apic_cco_post_list_with_http_info(self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicCcoPost' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_cco_post_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicCcoPostList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_cco_post_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicCcoPosts', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicCcoPostList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_field_notice_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicFieldNotice' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_field_notice_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicFieldNotice If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_field_notice_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_apic_field_notice_by_moid_with_http_info( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicFieldNotice' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_field_notice_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicFieldNotice, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_field_notice_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_apic_field_notice_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicFieldNotices/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicFieldNotice', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_field_notice_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicFieldNotice' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_field_notice_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicFieldNoticeList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_field_notice_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_apic_field_notice_list_with_http_info( self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicFieldNotice' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_field_notice_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicFieldNoticeList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_field_notice_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicFieldNotices', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicFieldNoticeList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_hweol_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicHweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_hweol_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicHweol If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_hweol_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_apic_hweol_by_moid_with_http_info(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicHweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_hweol_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicHweol, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_hweol_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_apic_hweol_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicHweols/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicHweol', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_hweol_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicHweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_hweol_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicHweolList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_hweol_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_apic_hweol_list_with_http_info(self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicHweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_hweol_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicHweolList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_hweol_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicHweols', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicHweolList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_latest_maintained_release_by_moid( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicLatestMaintainedRelease' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_latest_maintained_release_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicLatestMaintainedRelease If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_latest_maintained_release_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_apic_latest_maintained_release_by_moid_with_http_info( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicLatestMaintainedRelease' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_latest_maintained_release_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicLatestMaintainedRelease, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_latest_maintained_release_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_apic_latest_maintained_release_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicLatestMaintainedReleases/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicLatestMaintainedRelease', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_latest_maintained_release_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicLatestMaintainedRelease' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_latest_maintained_release_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicLatestMaintainedReleaseList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_latest_maintained_release_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_apic_latest_maintained_release_list_with_http_info( self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicLatestMaintainedRelease' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_latest_maintained_release_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicLatestMaintainedReleaseList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_latest_maintained_release_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicLatestMaintainedReleases', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicLatestMaintainedReleaseList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_release_recommend_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicReleaseRecommend' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_release_recommend_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicReleaseRecommend If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_release_recommend_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_apic_release_recommend_by_moid_with_http_info( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicReleaseRecommend' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_release_recommend_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicReleaseRecommend, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_release_recommend_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_apic_release_recommend_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicReleaseRecommends/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicReleaseRecommend', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_release_recommend_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicReleaseRecommend' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_release_recommend_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicReleaseRecommendList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_release_recommend_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_apic_release_recommend_list_with_http_info( self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicReleaseRecommend' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_release_recommend_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicReleaseRecommendList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_release_recommend_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicReleaseRecommends', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicReleaseRecommendList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_sweol_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicSweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_sweol_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicSweol If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_sweol_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_apic_sweol_by_moid_with_http_info(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.ApicSweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_sweol_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicSweol, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_sweol_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_apic_sweol_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicSweols/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicSweol', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_apic_sweol_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicSweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_sweol_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiApicSweolList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_apic_sweol_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_apic_sweol_list_with_http_info(self, **kwargs): # noqa: E501 """Read a 'niaapi.ApicSweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_apic_sweol_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiApicSweolList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_apic_sweol_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/ApicSweols', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiApicSweolList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_cco_post_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmCcoPost' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_cco_post_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmCcoPost If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_cco_post_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_dcnm_cco_post_by_moid_with_http_info( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmCcoPost' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_cco_post_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmCcoPost, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_cco_post_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_dcnm_cco_post_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmCcoPosts/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmCcoPost', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_cco_post_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmCcoPost' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_cco_post_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmCcoPostList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_cco_post_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_dcnm_cco_post_list_with_http_info(self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmCcoPost' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_cco_post_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmCcoPostList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_cco_post_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmCcoPosts', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmCcoPostList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_field_notice_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmFieldNotice' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_field_notice_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmFieldNotice If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_field_notice_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_dcnm_field_notice_by_moid_with_http_info( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmFieldNotice' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_field_notice_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmFieldNotice, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_field_notice_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_dcnm_field_notice_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmFieldNotices/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmFieldNotice', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_field_notice_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmFieldNotice' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_field_notice_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmFieldNoticeList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_field_notice_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_dcnm_field_notice_list_with_http_info( self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmFieldNotice' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_field_notice_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmFieldNoticeList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_field_notice_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmFieldNotices', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmFieldNoticeList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_hweol_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmHweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_hweol_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmHweol If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_hweol_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_dcnm_hweol_by_moid_with_http_info(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmHweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_hweol_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmHweol, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_hweol_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_dcnm_hweol_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmHweols/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmHweol', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_hweol_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmHweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_hweol_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmHweolList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_hweol_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_dcnm_hweol_list_with_http_info(self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmHweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_hweol_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmHweolList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_hweol_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmHweols', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmHweolList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_latest_maintained_release_by_moid( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmLatestMaintainedRelease' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_latest_maintained_release_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmLatestMaintainedRelease If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_latest_maintained_release_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_dcnm_latest_maintained_release_by_moid_with_http_info( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmLatestMaintainedRelease' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_latest_maintained_release_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmLatestMaintainedRelease, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_latest_maintained_release_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_dcnm_latest_maintained_release_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmLatestMaintainedReleases/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmLatestMaintainedRelease', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_latest_maintained_release_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmLatestMaintainedRelease' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_latest_maintained_release_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmLatestMaintainedReleaseList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_latest_maintained_release_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_dcnm_latest_maintained_release_list_with_http_info( self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmLatestMaintainedRelease' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_latest_maintained_release_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmLatestMaintainedReleaseList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_latest_maintained_release_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmLatestMaintainedReleases', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmLatestMaintainedReleaseList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_release_recommend_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmReleaseRecommend' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_release_recommend_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmReleaseRecommend If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_release_recommend_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_dcnm_release_recommend_by_moid_with_http_info( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmReleaseRecommend' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_release_recommend_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmReleaseRecommend, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_release_recommend_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_dcnm_release_recommend_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmReleaseRecommends/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmReleaseRecommend', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_release_recommend_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmReleaseRecommend' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_release_recommend_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmReleaseRecommendList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_release_recommend_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_dcnm_release_recommend_list_with_http_info( self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmReleaseRecommend' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_release_recommend_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmReleaseRecommendList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_release_recommend_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmReleaseRecommends', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmReleaseRecommendList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_sweol_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmSweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_sweol_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmSweol If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_sweol_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_dcnm_sweol_by_moid_with_http_info(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmSweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_sweol_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmSweol, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_sweol_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_dcnm_sweol_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmSweols/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmSweol', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_dcnm_sweol_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmSweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_sweol_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiDcnmSweolList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_dcnm_sweol_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_dcnm_sweol_list_with_http_info(self, **kwargs): # noqa: E501 """Read a 'niaapi.DcnmSweol' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_dcnm_sweol_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiDcnmSweolList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_dcnm_sweol_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/DcnmSweols', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiDcnmSweolList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_file_downloader_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.FileDownloader' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_file_downloader_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiFileDownloader If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_file_downloader_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_file_downloader_by_moid_with_http_info( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.FileDownloader' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_file_downloader_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiFileDownloader, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_file_downloader_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_file_downloader_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/FileDownloaders/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiFileDownloader', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_file_downloader_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.FileDownloader' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_file_downloader_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiFileDownloaderList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_file_downloader_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_file_downloader_list_with_http_info(self, **kwargs): # noqa: E501 """Read a 'niaapi.FileDownloader' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_file_downloader_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiFileDownloaderList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_file_downloader_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/FileDownloaders', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiFileDownloaderList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_nia_metadata_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.NiaMetadata' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_nia_metadata_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiNiaMetadata If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_nia_metadata_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_nia_metadata_by_moid_with_http_info(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.NiaMetadata' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_nia_metadata_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiNiaMetadata, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_nia_metadata_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_nia_metadata_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/NiaMetadata/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiNiaMetadata', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_nia_metadata_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.NiaMetadata' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_nia_metadata_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiNiaMetadataList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_nia_metadata_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_nia_metadata_list_with_http_info(self, **kwargs): # noqa: E501 """Read a 'niaapi.NiaMetadata' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_nia_metadata_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiNiaMetadataList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_nia_metadata_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/NiaMetadata', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiNiaMetadataList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_version_regex_by_moid(self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.VersionRegex' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_version_regex_by_moid(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiVersionRegex If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_version_regex_by_moid_with_http_info( moid, **kwargs) # noqa: E501 def get_niaapi_version_regex_by_moid_with_http_info( self, moid, **kwargs): # noqa: E501 """Read a 'niaapi.VersionRegex' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_version_regex_by_moid_with_http_info(moid, async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str moid: The unique Moid identifier of a resource instance. (required) :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiVersionRegex, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = ['moid'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError( "Got an unexpected keyword argument '%s'" " to method get_niaapi_version_regex_by_moid" % key) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'moid' is set if self.api_client.client_side_validation and ( 'moid' not in local_var_params or # noqa: E501 local_var_params['moid'] is None): # noqa: E501 raise ApiValueError( "Missing the required parameter `moid` when calling `get_niaapi_version_regex_by_moid`" ) # noqa: E501 collection_formats = {} path_params = {} if 'moid' in local_var_params: path_params['Moid'] = local_var_params['moid'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/VersionRegexes/{Moid}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiVersionRegex', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats) def get_niaapi_version_regex_list(self, **kwargs): # noqa: E501 """Read a 'niaapi.VersionRegex' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_version_regex_list(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: NiaapiVersionRegexList If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True return self.get_niaapi_version_regex_list_with_http_info( **kwargs) # noqa: E501 def get_niaapi_version_regex_list_with_http_info(self, **kwargs): # noqa: E501 """Read a 'niaapi.VersionRegex' resource. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.get_niaapi_version_regex_list_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool: execute request asynchronously :param str filter: Filter criteria for the resources to return. A URI with a $filter query option identifies a subset of the entries from the Collection of Entries. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the $filter option. The expression language that is used in $filter queries supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false). :param str orderby: Determines what properties are used to sort the collection of resources. :param int top: Specifies the maximum number of resources to return in the response. :param int skip: Specifies the number of resources to skip in the response. :param str select: Specifies a subset of properties to return. :param str expand: Specify additional attributes or related resources to return in addition to the primary resources. :param str apply: Specify one or more transformation operations to perform aggregation on the resources. The transformations are processed in order with the output from a transformation being used as input for the subsequent transformation. The \"$apply\" query takes a sequence of set transformations, separated by forward slashes to express that they are consecutively applied, i.e. the result of each transformation is the input to the next transformation. Supported aggregation methods are \"aggregate\" and \"groupby\". The **aggregate** transformation takes a comma-separated list of one or more aggregate expressions as parameters and returns a result set with a single instance, representing the aggregated value for all instances in the input set. The **groupby** transformation takes one or two parameters and 1. Splits the initial set into subsets where all instances in a subset have the same values for the grouping properties specified in the first parameter, 2. Applies set transformations to each subset according to the second parameter, resulting in a new set of potentially different structure and cardinality, 3. Ensures that the instances in the result set contain all grouping properties with the correct values for the group, 4. Concatenates the intermediate result sets into one result set. A groupby transformation affects the structure of the result set. :param bool count: The $count query specifies the service should return the count of the matching resources, instead of returning the resources. :param str inlinecount: The $inlinecount query option allows clients to request an inline count of the matching resources included with the resources in the response. :param str at: Similar to \"$filter\", but \"at\" is specifically used to filter versioning information properties for resources to return. A URI with an \"at\" Query Option identifies a subset of the Entries from the Collection of Entries identified by the Resource Path section of the URI. The subset is determined by selecting only the Entries that satisfy the predicate expression specified by the query option. The expression language that is used in at operators supports references to properties and literals. The literal values can be strings enclosed in single quotes, numbers and boolean values (true or false) or any of the additional literal representations shown in the Abstract Type System section. :param _return_http_data_only: response data without head status code and headers :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :param _request_timeout: timeout setting for this request. If one number provided, it will be total request timeout. It can also be a pair (tuple) of (connection, read) timeouts. :return: tuple(NiaapiVersionRegexList, status_code(int), headers(HTTPHeaderDict)) If the method is called asynchronously, returns the request thread. """ local_var_params = locals() all_params = [ 'filter', 'orderby', 'top', 'skip', 'select', 'expand', 'apply', 'count', 'inlinecount', 'at' ] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') for key, val in six.iteritems(local_var_params['kwargs']): if key not in all_params: raise ApiTypeError("Got an unexpected keyword argument '%s'" " to method get_niaapi_version_regex_list" % key) local_var_params[key] = val del local_var_params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'filter' in local_var_params and local_var_params[ 'filter'] is not None: # noqa: E501 query_params.append( ('$filter', local_var_params['filter'])) # noqa: E501 if 'orderby' in local_var_params and local_var_params[ 'orderby'] is not None: # noqa: E501 query_params.append( ('$orderby', local_var_params['orderby'])) # noqa: E501 if 'top' in local_var_params and local_var_params[ 'top'] is not None: # noqa: E501 query_params.append( ('$top', local_var_params['top'])) # noqa: E501 if 'skip' in local_var_params and local_var_params[ 'skip'] is not None: # noqa: E501 query_params.append( ('$skip', local_var_params['skip'])) # noqa: E501 if 'select' in local_var_params and local_var_params[ 'select'] is not None: # noqa: E501 query_params.append( ('$select', local_var_params['select'])) # noqa: E501 if 'expand' in local_var_params and local_var_params[ 'expand'] is not None: # noqa: E501 query_params.append( ('$expand', local_var_params['expand'])) # noqa: E501 if 'apply' in local_var_params and local_var_params[ 'apply'] is not None: # noqa: E501 query_params.append( ('$apply', local_var_params['apply'])) # noqa: E501 if 'count' in local_var_params and local_var_params[ 'count'] is not None: # noqa: E501 query_params.append( ('$count', local_var_params['count'])) # noqa: E501 if 'inlinecount' in local_var_params and local_var_params[ 'inlinecount'] is not None: # noqa: E501 query_params.append( ('$inlinecount', local_var_params['inlinecount'])) # noqa: E501 if 'at' in local_var_params and local_var_params[ 'at'] is not None: # noqa: E501 query_params.append(('at', local_var_params['at'])) # noqa: E501 header_params = {} form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept([ 'application/json', 'text/csv', 'application/vnd.openxmlformats-officedocument.spreadsheetml.sheet' ]) # noqa: E501 # Authentication setting auth_settings = ['cookieAuth', 'oAuth2'] # noqa: E501 return self.api_client.call_api( '/niaapi/VersionRegexes', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='NiaapiVersionRegexList', # noqa: E501 auth_settings=auth_settings, async_req=local_var_params.get('async_req'), _return_http_data_only=local_var_params.get( '_return_http_data_only'), # noqa: E501 _preload_content=local_var_params.get('_preload_content', True), _request_timeout=local_var_params.get('_request_timeout'), collection_formats=collection_formats)
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8
884d54e8dd615ed0578a61c0deac4de2e7a1d156
160
py
Python
user/admin.py
Akshit10/Gen-Orion
e91ddfe8b60add02e2dbfd0d20fc84b4902da7e0
[ "MIT" ]
null
null
null
user/admin.py
Akshit10/Gen-Orion
e91ddfe8b60add02e2dbfd0d20fc84b4902da7e0
[ "MIT" ]
null
null
null
user/admin.py
Akshit10/Gen-Orion
e91ddfe8b60add02e2dbfd0d20fc84b4902da7e0
[ "MIT" ]
null
null
null
from django.contrib import admin from . models import * admin.site.register(device_table) admin.site.register(sensor_table) admin.site.register(nodemcu_table)
22.857143
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7
887bf1e55d052c58b3ccd1259726186ad9912979
218
py
Python
src/lib/__init__.py
heitor57/binary-knapsack-ga
02e03a7fadbfc1a304ca41316c71491c3d9b1460
[ "MIT" ]
null
null
null
src/lib/__init__.py
heitor57/binary-knapsack-ga
02e03a7fadbfc1a304ca41316c71491c3d9b1460
[ "MIT" ]
null
null
null
src/lib/__init__.py
heitor57/binary-knapsack-ga
02e03a7fadbfc1a304ca41316c71491c3d9b1460
[ "MIT" ]
null
null
null
from .Individual import * from .utils import * from .constants import * from .objective import * from .selection_policy import * from .mutation_policy import * from .cross_policy import * from .BinaryKnapsack import *
24.222222
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7
88a89940a322517cac5c1a0b6487b897fb5e4d82
11,105
py
Python
tests/draft_kings/nfl/statistics/models/test_defensive.py
jaebradley/daily_fantasy_sports_scoring_calculators
99b7e0443637cb4405ccdad7fa4f136af914307b
[ "MIT" ]
null
null
null
tests/draft_kings/nfl/statistics/models/test_defensive.py
jaebradley/daily_fantasy_sports_scoring_calculators
99b7e0443637cb4405ccdad7fa4f136af914307b
[ "MIT" ]
3
2021-09-05T01:40:16.000Z
2021-09-20T06:53:54.000Z
tests/draft_kings/nfl/statistics/models/test_defensive.py
jaebradley/daily_fantasy_sports_scoring_calculators
99b7e0443637cb4405ccdad7fa4f136af914307b
[ "MIT" ]
null
null
null
from unittest import TestCase from daily_fantasy_sports_scoring_calculators.draft_kings.nfl.statistics.models.defensive \ import BlockedKickReturnTouchdownStatistics, TurnoverReturnTouchdownStatistics, TouchdownStatistics, \ ScoringStatistics, TurnoverStatistics, DefensiveStatistics, PointsAllowed from daily_fantasy_sports_scoring_calculators.draft_kings.nfl.statistics.models.offensive \ import KickReturnTouchdownStatistics class TestBlockedKickReturnTouchdownStatistics(TestCase): def test_negative_points_and_field_goals(self): with self.assertRaises(ValueError): BlockedKickReturnTouchdownStatistics( punts=-1, field_goals=-1 ) def test_negative_points_and_zero_field_goals(self): with self.assertRaises(ValueError): BlockedKickReturnTouchdownStatistics( punts=-1, field_goals=0 ) def test_zero_points_and_negative_field_goals(self): with self.assertRaises(ValueError): BlockedKickReturnTouchdownStatistics( punts=0, field_goals=-1 ) def test_zero_points_and_zero_field_goals(self): for punts in range(0, 2): for field_goals in range(0, 2): try: BlockedKickReturnTouchdownStatistics( punts=punts, field_goals=field_goals) except ValueError: self.fail("expected object creation to succeed") class TestTurnoverReturnTouchdownStatistics(TestCase): def test_invalid_values(self): for interceptions in range(-1, 1): for fumble_recoveries in range(-1, 1): if 0 != interceptions and 0 != fumble_recoveries: try: TurnoverReturnTouchdownStatistics( interceptions=interceptions, fumble_recoveries=fumble_recoveries) self.fail("expected object creation to fail") except ValueError: continue def test_valid_values(self): for interceptions in range(0, 2): for fumble_recoveries in range(0, 2): try: TurnoverReturnTouchdownStatistics( interceptions=interceptions, fumble_recoveries=fumble_recoveries) except ValueError: self.fail("expected object creation to succeed") class TestScoringStatistics(TestCase): def setUp(self) -> None: self.touchdowns = TouchdownStatistics( kick_returns=KickReturnTouchdownStatistics( punts=0, kickoffs=0, field_goals=0), blocked_kicks=BlockedKickReturnTouchdownStatistics( punts=0, field_goals=0), turnovers=TurnoverReturnTouchdownStatistics( interceptions=0, fumble_recoveries=0)) def test_invalid_values(self): for safeties in range(-1, 1): for conversion_returns in range(-1, 1): if 0 != safeties and 0 != conversion_returns: try: ScoringStatistics( touchdowns=self.touchdowns, safeties=safeties, conversion_returns=conversion_returns) self.fail("expected object creation to fail") except ValueError: continue def test_valid_values(self): for safeties in range(0, 2): for conversion_returns in range(0, 2): try: ScoringStatistics( touchdowns=self.touchdowns, safeties=safeties, conversion_returns=conversion_returns) except ValueError: self.fail("expected object creation to succeed") class TestTurnoverStatistics(TestCase): def test_invalid_values(self): for interceptions in range(-1, 1): for fumble_recoveries in range(-1, 1): if 0 != interceptions and 0 != fumble_recoveries: try: TurnoverStatistics( interceptions=interceptions, fumble_recoveries=fumble_recoveries) self.fail("expected object creation to fail") except ValueError: continue def test_valid_values(self): for interceptions in range(0, 2): for fumble_recoveries in range(0, 2): try: TurnoverStatistics( interceptions=interceptions, fumble_recoveries=fumble_recoveries) except ValueError: self.fail("expected object creation to succeed") class TestDefensiveStatistics(TestCase): def test_invalid_sacks(self): with self.assertRaises(ValueError): DefensiveStatistics( scoring=ScoringStatistics( touchdowns=TouchdownStatistics( kick_returns=KickReturnTouchdownStatistics( punts=0, kickoffs=0, field_goals=0), blocked_kicks=BlockedKickReturnTouchdownStatistics( punts=0, field_goals=0), turnovers=TurnoverReturnTouchdownStatistics( interceptions=0, fumble_recoveries=0)), safeties=0, conversion_returns=0), turnovers=TurnoverStatistics( interceptions=0, fumble_recoveries=0), sacks=-1, blocked_kicks=0, points_allowed=PointsAllowed._0) def test_invalid_blocked_kicks(self): with self.assertRaises(ValueError): DefensiveStatistics( scoring=ScoringStatistics( touchdowns=TouchdownStatistics( kick_returns=KickReturnTouchdownStatistics( punts=0, kickoffs=0, field_goals=0), blocked_kicks=BlockedKickReturnTouchdownStatistics( punts=0, field_goals=0), turnovers=TurnoverReturnTouchdownStatistics( interceptions=0, fumble_recoveries=0)), safeties=0, conversion_returns=0), turnovers=TurnoverStatistics( interceptions=0, fumble_recoveries=0), sacks=0, blocked_kicks=-1, points_allowed=PointsAllowed._0) with self.assertRaises(ValueError): DefensiveStatistics( scoring=ScoringStatistics( touchdowns=TouchdownStatistics( kick_returns=KickReturnTouchdownStatistics( punts=0, kickoffs=0, field_goals=0), blocked_kicks=BlockedKickReturnTouchdownStatistics( punts=1, field_goals=0), turnovers=TurnoverReturnTouchdownStatistics( interceptions=0, fumble_recoveries=0)), safeties=0, conversion_returns=0), turnovers=TurnoverStatistics( interceptions=0, fumble_recoveries=0), sacks=0, blocked_kicks=0, points_allowed=PointsAllowed._0) with self.assertRaises(ValueError): DefensiveStatistics( scoring=ScoringStatistics( touchdowns=TouchdownStatistics( kick_returns=KickReturnTouchdownStatistics( punts=0, kickoffs=0, field_goals=0), blocked_kicks=BlockedKickReturnTouchdownStatistics( punts=0, field_goals=1), turnovers=TurnoverReturnTouchdownStatistics( interceptions=0, fumble_recoveries=0)), safeties=0, conversion_returns=0), turnovers=TurnoverStatistics( interceptions=0, fumble_recoveries=0), sacks=0, blocked_kicks=0, points_allowed=PointsAllowed._0) def test_invalid_turnovers(self): with self.assertRaises(ValueError): DefensiveStatistics( scoring=ScoringStatistics( touchdowns=TouchdownStatistics( kick_returns=KickReturnTouchdownStatistics( punts=0, kickoffs=0, field_goals=0), blocked_kicks=BlockedKickReturnTouchdownStatistics( punts=0, field_goals=0), turnovers=TurnoverReturnTouchdownStatistics( interceptions=1, fumble_recoveries=0)), safeties=0, conversion_returns=0), turnovers=TurnoverStatistics( interceptions=0, fumble_recoveries=0), sacks=0, blocked_kicks=0, points_allowed=PointsAllowed._0) with self.assertRaises(ValueError): DefensiveStatistics( scoring=ScoringStatistics( touchdowns=TouchdownStatistics( kick_returns=KickReturnTouchdownStatistics( punts=0, kickoffs=0, field_goals=0), blocked_kicks=BlockedKickReturnTouchdownStatistics( punts=0, field_goals=0), turnovers=TurnoverReturnTouchdownStatistics( interceptions=0, fumble_recoveries=1)), safeties=0, conversion_returns=0), turnovers=TurnoverStatistics( interceptions=0, fumble_recoveries=0), sacks=0, blocked_kicks=0, points_allowed=PointsAllowed._0)
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7
88b31498bd7c69b0d7e5f8e0a7e91921cfbbfa0c
235
py
Python
sw/control/controllers/__init__.py
christopherco/moabian
29b623d60212ba4daa18e3ca9aeed364390533e6
[ "MIT" ]
null
null
null
sw/control/controllers/__init__.py
christopherco/moabian
29b623d60212ba4daa18e3ca9aeed364390533e6
[ "MIT" ]
null
null
null
sw/control/controllers/__init__.py
christopherco/moabian
29b623d60212ba4daa18e3ca9aeed364390533e6
[ "MIT" ]
null
null
null
# Copyright (c) Microsoft Corporation. # Licensed under the MIT License. from .pid_controller import * from .menu_controller import * from .brain_controller import * from .huecal_controller import * from .joystick_controller import *
26.111111
38
0.795745
29
235
6.275862
0.586207
0.43956
0.43956
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0
0.13617
235
8
39
29.375
0.896552
0.289362
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true
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1
0
1
0
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7
31f8a5cc06ababe83f90451e373e7ced589d27eb
110
py
Python
authz/controller/apiv1/__init__.py
saeedhosseini21/AuthService
4707e376ed7219205005c51783ba58ef859f4d14
[ "Apache-2.0" ]
null
null
null
authz/controller/apiv1/__init__.py
saeedhosseini21/AuthService
4707e376ed7219205005c51783ba58ef859f4d14
[ "Apache-2.0" ]
null
null
null
authz/controller/apiv1/__init__.py
saeedhosseini21/AuthService
4707e376ed7219205005c51783ba58ef859f4d14
[ "Apache-2.0" ]
null
null
null
from authz.controller.apiv1.user import UserController from authz.controller.apiv1.auth import AuthController
36.666667
54
0.872727
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110
6.857143
0.642857
0.1875
0.395833
0.5
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0.019608
0.072727
110
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1
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7
ee3e2d3f3a2c458163ee84198c86df348d23c192
4,050
py
Python
src/waldur_rancher/enums.py
geant-multicloud/MCMS-mastermind
81333180f5e56a0bc88d7dad448505448e01f24e
[ "MIT" ]
26
2017-10-18T13:49:58.000Z
2021-09-19T04:44:09.000Z
src/waldur_rancher/enums.py
geant-multicloud/MCMS-mastermind
81333180f5e56a0bc88d7dad448505448e01f24e
[ "MIT" ]
14
2018-12-10T14:14:51.000Z
2021-06-07T10:33:39.000Z
src/waldur_rancher/enums.py
geant-multicloud/MCMS-mastermind
81333180f5e56a0bc88d7dad448505448e01f24e
[ "MIT" ]
32
2017-09-24T03:10:45.000Z
2021-10-16T16:41:09.000Z
class GlobalRoles: admin = 'admin' authn_manage = 'authn-manage' catalogs_manage = 'catalogs-manage' catalogs_use = 'catalogs-use' clusters_create = 'clusters-create' kontainerdrivers_manage = 'kontainerdrivers-manage' nodedrivers_manage = 'nodedrivers-manage' podsecuritypolicytemplates_manage = 'podsecuritypolicytemplates-manage' roles_manage = 'roles-manage' settings_manage = 'settings-manage' user = 'user' user_base = 'user-base' users_manage = 'users-manage' class ClusterRoles: admin = 'admin' backups_manage = 'backups-manage' cluster_admin = 'cluster-admin' cluster_member = 'cluster-member' cluster_owner = 'cluster-owner' clustercatalogs_manage = 'clustercatalogs-manage' clustercatalogs_view = 'clustercatalogs-view' clusterroletemplatebindings_manage = 'clusterroletemplatebindings-manage' clusterroletemplatebindings_view = 'clusterroletemplatebindings-view' configmaps_manage = 'configmaps-manage' configmaps_view = 'configmaps-view' create_ns = 'create-ns' edit = 'edit' ingress_manage = 'ingress-manage' ingress_view = 'ingress-view' nodes_manage = 'nodes-manage' nodes_view = 'nodes-view' persistentvolumeclaims_manage = 'persistentvolumeclaims-manage' persistentvolumeclaims_view = 'persistentvolumeclaims-view' project_member = 'project-member' project_monitoring_readonly = 'project-monitoring-readonly' project_owner = 'project-owner' projectcatalogs_manage = 'projectcatalogs-manage' projectcatalogs_view = 'projectcatalogs-view' projectroletemplatebindings_manage = 'projectroletemplatebindings-manage' projectroletemplatebindings_view = 'projectroletemplatebindings-view' projects_create = 'projects-create' projects_view = 'projects-view' read_only = 'read-only' secrets_manage = 'secrets-manage' secrets_view = 'secrets-view' serviceaccounts_manage = 'serviceaccounts-manage' serviceaccounts_view = 'serviceaccounts-view' services_manage = 'services-manage' services_view = 'services-view' storage_manage = 'storage-manage' view = 'view' workloads_manage = 'workloads-manage' workloads_view = 'workloads-view' class ProjectRoleId: admin = 'admin' backups_manage = 'backups-manage' cluster_admin = 'cluster-admin' cluster_member = 'cluster-member' cluster_owner = 'cluster-owner' clustercatalogs_manage = 'clustercatalogs-manage' clustercatalogs_view = 'clustercatalogs-view' clusterroletemplatebindings_manage = 'clusterroletemplatebindings-manage' clusterroletemplatebindings_view = 'clusterroletemplatebindings-view' configmaps_manage = 'configmaps-manage' configmaps_view = 'configmaps-view' create_ns = 'create-ns' edit = 'edit' ingress_manage = 'ingress-manage' ingress_view = 'ingress-view' nodes_manage = 'nodes-manage' nodes_view = 'nodes-view' persistentvolumeclaims_manage = 'persistentvolumeclaims-manage' persistentvolumeclaims_view = 'persistentvolumeclaims-view' project_member = 'project-member' project_monitoring_readonly = 'project-monitoring-readonly' project_owner = 'project-owner' projectcatalogs_manage = 'projectcatalogs-manage' projectcatalogs_view = 'projectcatalogs-view' projectroletemplatebindings_manage = 'projectroletemplatebindings-manage' projectroletemplatebindings_view = 'projectroletemplatebindings-view' projects_create = 'projects-create' projects_view = 'projects-view' read_only = 'read-only' secrets_manage = 'secrets-manage' secrets_view = 'secrets-view' serviceaccounts_manage = 'serviceaccounts-manage' serviceaccounts_view = 'serviceaccounts-view' services_manage = 'services-manage' services_view = 'services-view' storage_manage = 'storage-manage' view = 'view' workloads_manage = 'workloads-manage' workloads_view = 'workloads-view' LONGHORN_NAME = 'longhorn' LONGHORN_NAMESPACE = 'longhorn-system'
38.571429
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0
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0
0
8
ee7826da76d04ad31df010cb28c63adb4eb660a6
52,535
py
Python
tests/test_measunit.py
miute/icupy
253dd666936c23577abd1fdd94bc9cea012017b8
[ "MIT" ]
null
null
null
tests/test_measunit.py
miute/icupy
253dd666936c23577abd1fdd94bc9cea012017b8
[ "MIT" ]
null
null
null
tests/test_measunit.py
miute/icupy
253dd666936c23577abd1fdd94bc9cea012017b8
[ "MIT" ]
null
null
null
import pytest from icupy import U_ICU_VERSION_MAJOR_NUM if U_ICU_VERSION_MAJOR_NUM < 62: pytest.skip("ICU4C<62", allow_module_level=True) import copy from icupy import ( ICUError, Locale, MeasureUnit, StringEnumeration, UErrorCode, ) from icupy.number import NumberFormatter def test_api(): # [1] # static int32_t icu::MeasureUnit::getAvailable( # const char *type, # MeasureUnit *destArray, # int32_t destCapacity, # UErrorCode &errorCode # ) dest_array = MeasureUnit.get_available("currency") assert isinstance(dest_array, list) assert len(dest_array) > 0 assert all(isinstance(x, MeasureUnit) for x in dest_array) assert all(x.get_type() == "currency" for x in dest_array) # [2] # static int32_t icu::MeasureUnit::getAvailable( # MeasureUnit *destArray, # int32_t destCapacity, # UErrorCode &errorCode # ) dest_array = MeasureUnit.get_available() assert isinstance(dest_array, list) assert len(dest_array) > 0 assert all(isinstance(x, MeasureUnit) for x in dest_array) # static StringEnumeration *icu::MeasureUnit::getAvailableTypes( # UErrorCode &errorCode # ) types = MeasureUnit.get_available_types() assert isinstance(types, StringEnumeration) assert len(types) > 0 assert "currency" in types # const char *icu::MeasureUnit::getSubtype() unit = MeasureUnit.create_square_kilometer() result = unit.get_subtype() assert isinstance(result, str) assert result == "square-kilometer" # const char *icu::MeasureUnit::getType() result = unit.get_type() assert isinstance(result, str) assert result == "area" # UBool icu::MeasureUnit::operator!=(const UObject &other) unit1 = MeasureUnit.get_kilometer() unit2 = unit1.clone() unit3 = MeasureUnit.get_kilometer_per_hour() assert not (unit1 != unit2) assert unit1 != unit3 assert unit2 != unit3 # UBool icu::MeasureUnit::operator==(const UObject &other) assert unit1 == unit2 assert not (unit1 == unit3) assert not (unit2 == unit3) def test_clone(): unit1 = MeasureUnit.get_kilometer() # MeasureUnit *icu::MeasureUnit::clone() unit2 = unit1.clone() assert isinstance(unit2, MeasureUnit) assert unit2 == unit1 unit3 = copy.copy(unit1) assert unit3 == unit1 unit4 = copy.deepcopy(unit1) assert unit4 == unit1 @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 67, reason="ICU4C<67") def test_for_identifier(): # static MeasureUnit icu::MeasureUnit::forIdentifier( # StringPiece identifier, # UErrorCode &status # ) unit = MeasureUnit.for_identifier("furlong-per-nanosecond") assert isinstance(unit, MeasureUnit) # const char *icu::MeasureUnit::getIdentifier() result = unit.get_identifier() assert isinstance(result, str) assert result == "furlong-per-nanosecond" @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 67, reason="ICU4C<67") def test_get_complexity(): from icupy import UMeasureUnitComplexity # UMeasureUnitComplexity icu::MeasureUnit::getComplexity( # UErrorCode &status # ) unit = MeasureUnit.get_meter() assert (unit.get_complexity() == UMeasureUnitComplexity.UMEASURE_UNIT_SINGLE) unit = MeasureUnit.for_identifier("meter-per-second") assert (unit.get_complexity() == UMeasureUnitComplexity.UMEASURE_UNIT_COMPOUND) unit = MeasureUnit.for_identifier("hour-and-minute") assert (unit.get_complexity() == UMeasureUnitComplexity.UMEASURE_UNIT_MIXED) @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 67, reason="ICU4C<67") def test_get_dimensionality(): # int32_t icu::MeasureUnit::getDimensionality(UErrorCode &status) unit = MeasureUnit.create_cubic_meter() assert unit.get_dimensionality() == 3 unit = MeasureUnit.create_meter() assert unit.get_dimensionality() == 1 @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 69, reason="ICU4C<69") def test_get_prefix(): from icupy import UMeasurePrefix # UMeasurePrefix icu::MeasureUnit::getPrefix(UErrorCode &status) unit = MeasureUnit.get_kilometer() assert unit.get_prefix() == UMeasurePrefix.UMEASURE_PREFIX_KILO def test_measure_unit_53(): fmt = NumberFormatter.with_locale(Locale.get_us()) assert (fmt.unit(MeasureUnit.create_acre()) .format_int(1) .to_string()) == "1 ac" assert (fmt.unit(MeasureUnit.create_arc_minute()) .format_int(1) .to_string()) == "1 arcmin" assert (fmt.unit(MeasureUnit.create_arc_second()) .format_int(1) .to_string()) == "1 arcsec" assert (fmt.unit(MeasureUnit.create_celsius()) .format_int(1) .to_string()) == "1\xb0C" # 1°C assert (fmt.unit(MeasureUnit.create_centimeter()) .format_int(1) .to_string()) == "1 cm" assert (fmt.unit(MeasureUnit.create_cubic_kilometer()) .format_int(1) .to_string()) == "1 km\xb3" # 1 km³ assert (fmt.unit(MeasureUnit.create_cubic_mile()) .format_int(1) .to_string()) == "1 mi\xb3" # 1 mi³ assert (fmt.unit(MeasureUnit.create_day()) .format_int(1) .to_string()) == "1 day" assert (fmt.unit(MeasureUnit.create_degree()) .format_int(1) .to_string()) == "1 deg" assert (fmt.unit(MeasureUnit.create_fahrenheit()) .format_int(1) .to_string()) == "1\xb0F" # 1°F assert (fmt.unit(MeasureUnit.create_foot()) .format_int(1) .to_string()) == "1 ft" assert (fmt.unit(MeasureUnit.create_gforce()) .format_int(1) .to_string()) == "1 G" assert (fmt.unit(MeasureUnit.create_gram()) .format_int(1) .to_string()) == "1 g" assert (fmt.unit(MeasureUnit.create_hectare()) .format_int(1) .to_string()) == "1 ha" assert (fmt.unit(MeasureUnit.create_hectopascal()) .format_int(1) .to_string()) == "1 hPa" assert (fmt.unit(MeasureUnit.create_horsepower()) .format_int(1) .to_string()) == "1 hp" assert (fmt.unit(MeasureUnit.create_hour()) .format_int(1) .to_string()) == "1 hr" assert (fmt.unit(MeasureUnit.create_inch()) .format_int(1) .to_string()) == "1 in" assert (fmt.unit(MeasureUnit.create_inch_hg()) .format_int(1) .to_string()) == "1 inHg" assert (fmt.unit(MeasureUnit.create_kilogram()) .format_int(1) .to_string()) == "1 kg" assert (fmt.unit(MeasureUnit.create_kilometer()) .format_int(1) .to_string()) == "1 km" assert (fmt.unit(MeasureUnit.create_kilometer_per_hour()) .format_int(1) .to_string()) == "1 km/h" assert (fmt.unit(MeasureUnit.create_kilowatt()) .format_int(1) .to_string()) == "1 kW" assert (fmt.unit(MeasureUnit.create_light_year()) .format_int(1) .to_string()) == "1 ly" assert (fmt.unit(MeasureUnit.create_liter()) .format_int(1) .to_string()) == "1 L" assert (fmt.unit(MeasureUnit.create_meter()) .format_int(1) .to_string()) == "1 m" assert (fmt.unit(MeasureUnit.create_meter_per_second()) .format_int(1) .to_string()) == "1 m/s" assert (fmt.unit(MeasureUnit.create_mile()) .format_int(1) .to_string()) == "1 mi" assert (fmt.unit(MeasureUnit.create_mile_per_hour()) .format_int(1) .to_string()) == "1 mph" assert (fmt.unit(MeasureUnit.create_millibar()) .format_int(1) .to_string()) == "1 mbar" assert (fmt.unit(MeasureUnit.create_millimeter()) .format_int(1) .to_string()) == "1 mm" assert (fmt.unit(MeasureUnit.create_millisecond()) .format_int(1) .to_string()) == "1 ms" assert (fmt.unit(MeasureUnit.create_minute()) .format_int(1) .to_string()) == "1 min" assert (fmt.unit(MeasureUnit.create_month()) .format_int(1) .to_string()) == "1 mth" assert (fmt.unit(MeasureUnit.create_ounce()) .format_int(1) .to_string()) == "1 oz" assert (fmt.unit(MeasureUnit.create_picometer()) .format_int(1) .to_string()) == "1 pm" assert (fmt.unit(MeasureUnit.create_pound()) .format_int(1) .to_string()) == "1 lb" assert (fmt.unit(MeasureUnit.create_second()) .format_int(1) .to_string()) == "1 sec" assert (fmt.unit(MeasureUnit.create_square_foot()) .format_int(1) .to_string()) == "1 sq ft" assert (fmt.unit(MeasureUnit.create_square_kilometer()) .format_int(1) .to_string()) == "1 km\xb2" # 1 km² assert (fmt.unit(MeasureUnit.create_square_meter()) .format_int(1) .to_string()) == "1 m\xb2" # 1 m² assert (fmt.unit(MeasureUnit.create_square_mile()) .format_int(1) .to_string()) == "1 sq mi" assert (fmt.unit(MeasureUnit.create_watt()) .format_int(1) .to_string()) == "1 W" assert (fmt.unit(MeasureUnit.create_week()) .format_int(1) .to_string()) == "1 wk" assert (fmt.unit(MeasureUnit.create_yard()) .format_int(1) .to_string()) == "1 yd" assert (fmt.unit(MeasureUnit.create_year()) .format_int(1) .to_string()) == "1 yr" def test_measure_unit_54(): fmt = NumberFormatter.with_locale(Locale.get_us()) assert (fmt.unit(MeasureUnit.create_acre_foot()) .format_int(1) .to_string()) == "1 ac ft" assert (fmt.unit(MeasureUnit.create_ampere()) .format_int(1) .to_string()) == "1 A" assert (fmt.unit(MeasureUnit.create_astronomical_unit()) .format_int(1) .to_string()) == "1 au" assert (fmt.unit(MeasureUnit.create_bit()) .format_int(1) .to_string()) == "1 bit" assert (fmt.unit(MeasureUnit.create_bushel()) .format_int(1) .to_string()) == "1 bu" assert (fmt.unit(MeasureUnit.create_byte()) .format_int(1) .to_string()) == "1 byte" assert (fmt.unit(MeasureUnit.create_calorie()) .format_int(1) .to_string()) == "1 cal" assert (fmt.unit(MeasureUnit.create_carat()) .format_int(1) .to_string()) == "1 CD" assert (fmt.unit(MeasureUnit.create_centiliter()) .format_int(1) .to_string()) == "1 cL" assert (fmt.unit(MeasureUnit.create_cubic_centimeter()) .format_int(1) .to_string()) == "1 cm\xb3" # 1 cm³ assert (fmt.unit(MeasureUnit.create_cubic_foot()) .format_int(1) .to_string()) == "1 ft\xb3" # 1 ft³ assert (fmt.unit(MeasureUnit.create_cubic_inch()) .format_int(1) .to_string()) == "1 in\xb3" # 1 in³ assert (fmt.unit(MeasureUnit.create_cubic_meter()) .format_int(1) .to_string()) == "1 m\xb3" # 1 m³ assert (fmt.unit(MeasureUnit.create_cubic_yard()) .format_int(1) .to_string()) == "1 yd\xb3" # 1 yd³ assert (fmt.unit(MeasureUnit.create_cup()) .format_int(1) .to_string()) == "1 c" assert (fmt.unit(MeasureUnit.create_deciliter()) .format_int(1) .to_string()) == "1 dL" assert (fmt.unit(MeasureUnit.create_decimeter()) .format_int(1) .to_string()) == "1 dm" assert (fmt.unit(MeasureUnit.create_fathom()) .format_int(1) .to_string()) == "1 fth" assert (fmt.unit(MeasureUnit.create_fluid_ounce()) .format_int(1) .to_string()) == "1 fl oz" assert (fmt.unit(MeasureUnit.create_foodcalorie()) .format_int(1) .to_string()) == "1 Cal" assert (fmt.unit(MeasureUnit.create_furlong()) .format_int(1) .to_string()) == "1 fur" assert (fmt.unit(MeasureUnit.create_gallon()) .format_int(1) .to_string()) == "1 gal" assert (fmt.unit(MeasureUnit.create_gigabit()) .format_int(1) .to_string()) == "1 Gb" assert (fmt.unit(MeasureUnit.create_gigabyte()) .format_int(1) .to_string()) == "1 GB" assert (fmt.unit(MeasureUnit.create_gigahertz()) .format_int(1) .to_string()) == "1 GHz" assert (fmt.unit(MeasureUnit.create_gigawatt()) .format_int(1) .to_string()) == "1 GW" assert (fmt.unit(MeasureUnit.create_hectoliter()) .format_int(1) .to_string()) == "1 hL" assert (fmt.unit(MeasureUnit.create_hertz()) .format_int(1) .to_string()) == "1 Hz" assert (fmt.unit(MeasureUnit.create_joule()) .format_int(1) .to_string()) == "1 J" assert (fmt.unit(MeasureUnit.create_karat()) .format_int(1) .to_string()) == "1 kt" assert (fmt.unit(MeasureUnit.create_kelvin()) .format_int(1) .to_string()) == "1 K" assert (fmt.unit(MeasureUnit.create_kilobit()) .format_int(1) .to_string()) == "1 kb" assert (fmt.unit(MeasureUnit.create_kilobyte()) .format_int(1) .to_string()) == "1 kB" assert (fmt.unit(MeasureUnit.create_kilocalorie()) .format_int(1) .to_string()) == "1 kcal" assert (fmt.unit(MeasureUnit.create_kilohertz()) .format_int(1) .to_string()) == "1 kHz" assert (fmt.unit(MeasureUnit.create_kilojoule()) .format_int(1) .to_string()) == "1 kJ" assert (fmt.unit(MeasureUnit.create_kilowatt_hour()) .format_int(1) .to_string()) == "1 kWh" assert (fmt.unit(MeasureUnit.create_liter_per_kilometer()) .format_int(1) .to_string()) == "1 L/km" assert (fmt.unit(MeasureUnit.create_lux()) .format_int(1) .to_string()) == "1 lx" assert (fmt.unit(MeasureUnit.create_megabit()) .format_int(1) .to_string()) == "1 Mb" assert (fmt.unit(MeasureUnit.create_megabyte()) .format_int(1) .to_string()) == "1 MB" assert (fmt.unit(MeasureUnit.create_megahertz()) .format_int(1) .to_string()) == "1 MHz" assert (fmt.unit(MeasureUnit.create_megaliter()) .format_int(1) .to_string()) == "1 ML" assert (fmt.unit(MeasureUnit.create_megawatt()) .format_int(1) .to_string()) == "1 MW" assert (fmt.unit(MeasureUnit.create_meter_per_second_squared()) .format_int(1) .to_string()) == "1 m/s\xb2" # 1 m/s² assert (fmt.unit(MeasureUnit.create_metric_ton()) .format_int(1) .to_string()) == "1 t" assert (fmt.unit(MeasureUnit.create_microgram()) .format_int(1) .to_string()) in ("1 \xb5g", "1 \u03bcg") # 1 µg assert (fmt.unit(MeasureUnit.create_micrometer()) .format_int(1) .to_string()) in ("1 \xb5m", "1 \u03bcm") # 1 µm assert (fmt.unit(MeasureUnit.create_microsecond()) .format_int(1) .to_string()) in ("1 \xb5s", "1 \u03bcs") # 1 µs assert (fmt.unit(MeasureUnit.create_mile_per_gallon()) .format_int(1) .to_string()) == "1 mpg" assert (fmt.unit(MeasureUnit.create_milliampere()) .format_int(1) .to_string()) == "1 mA" assert (fmt.unit(MeasureUnit.create_milligram()) .format_int(1) .to_string()) == "1 mg" assert (fmt.unit(MeasureUnit.create_milliliter()) .format_int(1) .to_string()) == "1 mL" assert (fmt.unit(MeasureUnit.create_millimeter_of_mercury()) .format_int(1) .to_string()) == "1 mmHg" assert (fmt.unit(MeasureUnit.create_milliwatt()) .format_int(1) .to_string()) == "1 mW" assert (fmt.unit(MeasureUnit.create_nanometer()) .format_int(1) .to_string()) == "1 nm" assert (fmt.unit(MeasureUnit.create_nanosecond()) .format_int(1) .to_string()) == "1 ns" assert (fmt.unit(MeasureUnit.create_nautical_mile()) .format_int(1) .to_string()) == "1 nmi" assert (fmt.unit(MeasureUnit.create_ohm()) .format_int(1) .to_string()) == "1 \u03a9" # 1 Ω assert (fmt.unit(MeasureUnit.create_ounce_troy()) .format_int(1) .to_string()) == "1 oz t" assert (fmt.unit(MeasureUnit.create_parsec()) .format_int(1) .to_string()) == "1 pc" assert (fmt.unit(MeasureUnit.create_pint()) .format_int(1) .to_string()) == "1 pt" assert (fmt.unit(MeasureUnit.create_pound_per_square_inch()) .format_int(1) .to_string()) == "1 psi" assert (fmt.unit(MeasureUnit.create_quart()) .format_int(1) .to_string()) == "1 qt" assert (fmt.unit(MeasureUnit.create_radian()) .format_int(1) .to_string()) == "1 rad" assert (fmt.unit(MeasureUnit.create_square_centimeter()) .format_int(1) .to_string()) == "1 cm\xb2" # 1 cm² assert (fmt.unit(MeasureUnit.create_square_inch()) .format_int(1) .to_string()) == "1 in\xb2" # 1 in² assert (fmt.unit(MeasureUnit.create_square_yard()) .format_int(1) .to_string()) == "1 yd\xb2" # 1 yd² assert (fmt.unit(MeasureUnit.create_stone()) .format_int(1) .to_string()) == "1 st" assert (fmt.unit(MeasureUnit.create_tablespoon()) .format_int(1) .to_string()) == "1 tbsp" assert (fmt.unit(MeasureUnit.create_teaspoon()) .format_int(1) .to_string()) == "1 tsp" assert (fmt.unit(MeasureUnit.create_terabit()) .format_int(1) .to_string()) == "1 Tb" assert (fmt.unit(MeasureUnit.create_terabyte()) .format_int(1) .to_string()) == "1 TB" assert (fmt.unit(MeasureUnit.create_ton()) .format_int(1) .to_string()) == "1 tn" assert (fmt.unit(MeasureUnit.create_volt()) .format_int(1) .to_string()) == "1 V" def test_measure_unit_56(): fmt = NumberFormatter.with_locale(Locale.get_us()) assert (fmt.unit(MeasureUnit.create_century()) .format_int(1) .to_string()) == "1 c" assert (fmt.unit(MeasureUnit.create_cup_metric()) .format_int(1) .to_string()) == "1 mc" assert (fmt.unit(MeasureUnit.create_generic_temperature()) .format_int(1) .to_string()) == "1\xb0" # 1° assert (fmt.unit(MeasureUnit.create_knot()) .format_int(1) .to_string()) == "1 kn" assert (fmt.unit(MeasureUnit.create_liter_per_100_kilometers()) .format_int(1) .to_string()) == "1 L/100 km" assert (fmt.unit(MeasureUnit.create_mile_scandinavian()) .format_int(1) .to_string()) == "1 smi" assert (fmt.unit(MeasureUnit.create_pint_metric()) .format_int(1) .to_string()) == "1 mpt" assert (fmt.unit(MeasureUnit.create_revolution_angle()) .format_int(1) .to_string()) == "1 rev" def test_measure_unit_57(): fmt = NumberFormatter.with_locale(Locale.get_us()) assert (fmt.unit(MeasureUnit.create_gallon_imperial()) .format_int(1) .to_string()) == "1 gal Imp." assert (fmt.unit(MeasureUnit.create_mile_per_gallon_imperial()) .format_int(1) .to_string()) == "1 mpg Imp." try: assert (fmt.unit(MeasureUnit.create_milligram_per_deciliter()) .format_int(1) .to_string()) == "1 mg/dL" except ICUError as ex: assert ex.args[0] == UErrorCode.U_MISSING_RESOURCE_ERROR # ICU 69.1 assert (fmt.unit(MeasureUnit.create_millimole_per_liter()) .format_int(1) .to_string()) == "1 mmol/L" assert (fmt.unit(MeasureUnit.create_part_per_million()) .format_int(1) .to_string()) == "1 ppm" def test_measure_unit_59(): fmt = NumberFormatter.with_locale(Locale.get_us()) assert (fmt.unit(MeasureUnit.create_point()) .format_int(1) .to_string()) == "1 pt" @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 63, reason="ICU4C<63") def test_measure_unit_63(): fmt = NumberFormatter.with_locale(Locale.get_us()) assert (fmt.unit(MeasureUnit.create_atmosphere()) .format_int(1) .to_string()) == "1 atm" assert (fmt.unit(MeasureUnit.create_percent()) .format_int(1) .to_string()) == "1%" assert (fmt.unit(MeasureUnit.create_permille()) .format_int(1) .to_string()) == "1\u2030" # 1‰ assert (fmt.unit(MeasureUnit.create_petabyte()) .format_int(1) .to_string()) == "1 PB" @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 64, reason="ICU4C<64") def test_measure_unit_64(): fmt = NumberFormatter.with_locale(Locale.get_us()) assert (fmt.unit(MeasureUnit.create_barrel()) .format_int(1) .to_string()) == "1 bbl" assert (fmt.unit(MeasureUnit.create_british_thermal_unit()) .format_int(1) .to_string()) == "1 Btu" assert (fmt.unit(MeasureUnit.create_dalton()) .format_int(1) .to_string()) == "1 Da" assert (fmt.unit(MeasureUnit.create_day_person()) .format_int(1) .to_string()) == "1 day" assert (fmt.unit(MeasureUnit.create_dunam()) .format_int(1) .to_string()) == "1 dunam" assert (fmt.unit(MeasureUnit.create_earth_mass()) .format_int(1) .to_string()) == "1 M\u2295" # 1 M⊕ assert (fmt.unit(MeasureUnit.create_electronvolt()) .format_int(1) .to_string()) == "1 eV" assert (fmt.unit(MeasureUnit.create_fluid_ounce_imperial()) .format_int(1) .to_string()) == "1 fl oz Imp." assert (fmt.unit(MeasureUnit.create_kilopascal()) .format_int(1) .to_string()) == "1 kPa" assert (fmt.unit(MeasureUnit.create_megapascal()) .format_int(1) .to_string()) == "1 MPa" assert (fmt.unit(MeasureUnit.create_mole()) .format_int(1) .to_string()) == "1 mol" assert (fmt.unit(MeasureUnit.create_month_person()) .format_int(1) .to_string()) == "1 mth" assert (fmt.unit(MeasureUnit.create_newton()) .format_int(1) .to_string()) == "1 N" assert (fmt.unit(MeasureUnit.create_newton_meter()) .format_int(1) .to_string()) == "1 N\u22c5m" # 1 N⋅m assert (fmt.unit(MeasureUnit.create_permyriad()) .format_int(1) .to_string()) == "1\u2031" # 1‱ assert (fmt.unit(MeasureUnit.create_pound_foot()) .format_int(1) .to_string()) == "1 lbf\u22c5ft" # 1 lb⋅ft assert (fmt.unit(MeasureUnit.create_pound_force()) .format_int(1) .to_string()) == "1 lbf" assert (fmt.unit(MeasureUnit.create_solar_luminosity()) .format_int(1) .to_string()) == "1 L\u2609" # 1 L☉ assert (fmt.unit(MeasureUnit.create_solar_mass()) .format_int(1) .to_string()) == "1 M\u2609" # 1 M☉ assert (fmt.unit(MeasureUnit.create_solar_radius()) .format_int(1) .to_string()) == "1 R\u2609" # 1 R☉ assert (fmt.unit(MeasureUnit.create_week_person()) .format_int(1) .to_string()) == "1 wk" assert (fmt.unit(MeasureUnit.create_year_person()) .format_int(1) .to_string()) == "1 yr" assert (fmt.unit(MeasureUnit.get_acre()) .format_int(1) .to_string()) == "1 ac" assert (fmt.unit(MeasureUnit.get_acre_foot()) .format_int(1) .to_string()) == "1 ac ft" assert (fmt.unit(MeasureUnit.get_ampere()) .format_int(1) .to_string()) == "1 A" assert (fmt.unit(MeasureUnit.get_arc_minute()) .format_int(1) .to_string()) == "1 arcmin" assert (fmt.unit(MeasureUnit.get_arc_second()) .format_int(1) .to_string()) == "1 arcsec" assert (fmt.unit(MeasureUnit.get_astronomical_unit()) .format_int(1) .to_string()) == "1 au" assert (fmt.unit(MeasureUnit.get_atmosphere()) .format_int(1) .to_string()) == "1 atm" assert (fmt.unit(MeasureUnit.get_barrel()) .format_int(1) .to_string()) == "1 bbl" assert (fmt.unit(MeasureUnit.get_bit()) .format_int(1) .to_string()) == "1 bit" assert (fmt.unit(MeasureUnit.get_british_thermal_unit()) .format_int(1) .to_string()) == "1 Btu" assert (fmt.unit(MeasureUnit.get_bushel()) .format_int(1) .to_string()) == "1 bu" assert (fmt.unit(MeasureUnit.get_byte()) .format_int(1) .to_string()) == "1 byte" assert (fmt.unit(MeasureUnit.get_calorie()) .format_int(1) .to_string()) == "1 cal" assert (fmt.unit(MeasureUnit.get_carat()) .format_int(1) .to_string()) == "1 CD" assert (fmt.unit(MeasureUnit.get_celsius()) .format_int(1) .to_string()) == "1\xb0C" # 1°C assert (fmt.unit(MeasureUnit.get_centiliter()) .format_int(1) .to_string()) == "1 cL" assert (fmt.unit(MeasureUnit.get_centimeter()) .format_int(1) .to_string()) == "1 cm" assert (fmt.unit(MeasureUnit.get_century()) .format_int(1) .to_string()) == "1 c" assert (fmt.unit(MeasureUnit.get_cubic_centimeter()) .format_int(1) .to_string()) == "1 cm\xb3" # 1 cm³ assert (fmt.unit(MeasureUnit.get_cubic_foot()) .format_int(1) .to_string()) == "1 ft\xb3" # 1 ft³ assert (fmt.unit(MeasureUnit.get_cubic_inch()) .format_int(1) .to_string()) == "1 in\xb3" # 1 in³ assert (fmt.unit(MeasureUnit.get_cubic_kilometer()) .format_int(1) .to_string()) == "1 km\xb3" # 1 km³ assert (fmt.unit(MeasureUnit.get_cubic_meter()) .format_int(1) .to_string()) == "1 m\xb3" # 1 m³ assert (fmt.unit(MeasureUnit.get_cubic_mile()) .format_int(1) .to_string()) == "1 mi\xb3" # 1 mi³ assert (fmt.unit(MeasureUnit.get_cubic_yard()) .format_int(1) .to_string()) == "1 yd\xb3" # 1 yd³ assert (fmt.unit(MeasureUnit.get_cup()) .format_int(1) .to_string()) == "1 c" assert (fmt.unit(MeasureUnit.get_cup_metric()) .format_int(1) .to_string()) == "1 mc" assert (fmt.unit(MeasureUnit.get_dalton()) .format_int(1) .to_string()) == "1 Da" assert (fmt.unit(MeasureUnit.get_day()) .format_int(1) .to_string()) == "1 day" assert (fmt.unit(MeasureUnit.get_day_person()) .format_int(1) .to_string()) == "1 day" assert (fmt.unit(MeasureUnit.get_deciliter()) .format_int(1) .to_string()) == "1 dL" assert (fmt.unit(MeasureUnit.get_decimeter()) .format_int(1) .to_string()) == "1 dm" assert (fmt.unit(MeasureUnit.get_degree()) .format_int(1) .to_string()) == "1 deg" assert (fmt.unit(MeasureUnit.get_dunam()) .format_int(1) .to_string()) == "1 dunam" assert (fmt.unit(MeasureUnit.get_earth_mass()) .format_int(1) .to_string()) == "1 M\u2295" # 1 M⊕ assert (fmt.unit(MeasureUnit.get_electronvolt()) .format_int(1) .to_string()) == "1 eV" assert (fmt.unit(MeasureUnit.get_fahrenheit()) .format_int(1) .to_string()) == "1\xb0F" # 1°F assert (fmt.unit(MeasureUnit.get_fathom()) .format_int(1) .to_string()) == "1 fth" assert (fmt.unit(MeasureUnit.get_fluid_ounce()) .format_int(1) .to_string()) == "1 fl oz" assert (fmt.unit(MeasureUnit.get_fluid_ounce_imperial()) .format_int(1) .to_string()) == "1 fl oz Imp." assert (fmt.unit(MeasureUnit.get_foodcalorie()) .format_int(1) .to_string()) == "1 Cal" assert (fmt.unit(MeasureUnit.get_foot()) .format_int(1) .to_string()) == "1 ft" assert (fmt.unit(MeasureUnit.get_furlong()) .format_int(1) .to_string()) == "1 fur" assert (fmt.unit(MeasureUnit.get_gallon()) .format_int(1) .to_string()) == "1 gal" assert (fmt.unit(MeasureUnit.get_gallon_imperial()) .format_int(1) .to_string()) == "1 gal Imp." assert (fmt.unit(MeasureUnit.get_generic_temperature()) .format_int(1) .to_string()) == "1\xb0" # 1° assert (fmt.unit(MeasureUnit.get_gforce()) .format_int(1) .to_string()) == "1 G" assert (fmt.unit(MeasureUnit.get_gigabit()) .format_int(1) .to_string()) == "1 Gb" assert (fmt.unit(MeasureUnit.get_gigabyte()) .format_int(1) .to_string()) == "1 GB" assert (fmt.unit(MeasureUnit.get_gigahertz()) .format_int(1) .to_string()) == "1 GHz" assert (fmt.unit(MeasureUnit.get_gigawatt()) .format_int(1) .to_string()) == "1 GW" assert (fmt.unit(MeasureUnit.get_gram()) .format_int(1) .to_string()) == "1 g" assert (fmt.unit(MeasureUnit.get_hectare()) .format_int(1) .to_string()) == "1 ha" assert (fmt.unit(MeasureUnit.get_hectoliter()) .format_int(1) .to_string()) == "1 hL" assert (fmt.unit(MeasureUnit.get_hectopascal()) .format_int(1) .to_string()) == "1 hPa" assert (fmt.unit(MeasureUnit.get_hertz()) .format_int(1) .to_string()) == "1 Hz" assert (fmt.unit(MeasureUnit.get_horsepower()) .format_int(1) .to_string()) == "1 hp" assert (fmt.unit(MeasureUnit.get_hour()) .format_int(1) .to_string()) == "1 hr" assert (fmt.unit(MeasureUnit.get_inch()) .format_int(1) .to_string()) == "1 in" assert (fmt.unit(MeasureUnit.get_inch_hg()) .format_int(1) .to_string()) == "1 inHg" assert (fmt.unit(MeasureUnit.get_joule()) .format_int(1) .to_string()) == "1 J" assert (fmt.unit(MeasureUnit.get_karat()) .format_int(1) .to_string()) == "1 kt" assert (fmt.unit(MeasureUnit.get_kelvin()) .format_int(1) .to_string()) == "1 K" assert (fmt.unit(MeasureUnit.get_kilobit()) .format_int(1) .to_string()) == "1 kb" assert (fmt.unit(MeasureUnit.get_kilobyte()) .format_int(1) .to_string()) == "1 kB" assert (fmt.unit(MeasureUnit.get_kilocalorie()) .format_int(1) .to_string()) == "1 kcal" assert (fmt.unit(MeasureUnit.get_kilogram()) .format_int(1) .to_string()) == "1 kg" assert (fmt.unit(MeasureUnit.get_kilohertz()) .format_int(1) .to_string()) == "1 kHz" assert (fmt.unit(MeasureUnit.get_kilojoule()) .format_int(1) .to_string()) == "1 kJ" assert (fmt.unit(MeasureUnit.get_kilometer()) .format_int(1) .to_string()) == "1 km" assert (fmt.unit(MeasureUnit.get_kilometer_per_hour()) .format_int(1) .to_string()) == "1 km/h" assert (fmt.unit(MeasureUnit.get_kilopascal()) .format_int(1) .to_string()) == "1 kPa" assert (fmt.unit(MeasureUnit.get_kilowatt()) .format_int(1) .to_string()) == "1 kW" assert (fmt.unit(MeasureUnit.get_kilowatt_hour()) .format_int(1) .to_string()) == "1 kWh" assert (fmt.unit(MeasureUnit.get_knot()) .format_int(1) .to_string()) == "1 kn" assert (fmt.unit(MeasureUnit.get_light_year()) .format_int(1) .to_string()) == "1 ly" assert (fmt.unit(MeasureUnit.get_liter()) .format_int(1) .to_string()) == "1 L" assert (fmt.unit(MeasureUnit.get_liter_per_100_kilometers()) .format_int(1) .to_string()) == "1 L/100 km" assert (fmt.unit(MeasureUnit.get_liter_per_kilometer()) .format_int(1) .to_string()) == "1 L/km" assert (fmt.unit(MeasureUnit.get_lux()) .format_int(1) .to_string()) == "1 lx" assert (fmt.unit(MeasureUnit.get_megabit()) .format_int(1) .to_string()) == "1 Mb" assert (fmt.unit(MeasureUnit.get_megabyte()) .format_int(1) .to_string()) == "1 MB" assert (fmt.unit(MeasureUnit.get_megahertz()) .format_int(1) .to_string()) == "1 MHz" assert (fmt.unit(MeasureUnit.get_megaliter()) .format_int(1) .to_string()) == "1 ML" assert (fmt.unit(MeasureUnit.get_megapascal()) .format_int(1) .to_string()) == "1 MPa" assert (fmt.unit(MeasureUnit.get_megawatt()) .format_int(1) .to_string()) == "1 MW" assert (fmt.unit(MeasureUnit.get_meter()) .format_int(1) .to_string()) == "1 m" assert (fmt.unit(MeasureUnit.get_meter_per_second()) .format_int(1) .to_string()) == "1 m/s" assert (fmt.unit(MeasureUnit.get_meter_per_second_squared()) .format_int(1) .to_string()) == "1 m/s\xb2" # 1 m/s² assert (fmt.unit(MeasureUnit.get_metric_ton()) .format_int(1) .to_string()) == "1 t" assert (fmt.unit(MeasureUnit.get_microgram()) .format_int(1) .to_string()) in ("1 \xb5g", "1 \u03bcg") # 1 µg assert (fmt.unit(MeasureUnit.get_micrometer()) .format_int(1) .to_string()) in ("1 \xb5m", "1 \u03bcm") # 1 µm assert (fmt.unit(MeasureUnit.get_microsecond()) .format_int(1) .to_string()) in ("1 \xb5s", "1 \u03bcs") # 1 µs assert (fmt.unit(MeasureUnit.get_mile()) .format_int(1) .to_string()) == "1 mi" assert (fmt.unit(MeasureUnit.get_mile_per_gallon()) .format_int(1) .to_string()) == "1 mpg" assert (fmt.unit(MeasureUnit.get_mile_per_gallon_imperial()) .format_int(1) .to_string()) == "1 mpg Imp." assert (fmt.unit(MeasureUnit.get_mile_per_hour()) .format_int(1) .to_string()) == "1 mph" assert (fmt.unit(MeasureUnit.get_mile_scandinavian()) .format_int(1) .to_string()) == "1 smi" assert (fmt.unit(MeasureUnit.get_milliampere()) .format_int(1) .to_string()) == "1 mA" assert (fmt.unit(MeasureUnit.get_millibar()) .format_int(1) .to_string()) == "1 mbar" assert (fmt.unit(MeasureUnit.get_milligram()) .format_int(1) .to_string()) == "1 mg" try: assert (fmt.unit(MeasureUnit.get_milligram_per_deciliter()) .format_int(1) .to_string()) == "1 mg/dL" except ICUError as ex: assert ex.args[0] == UErrorCode.U_MISSING_RESOURCE_ERROR # ICU 69.1 assert (fmt.unit(MeasureUnit.get_milliliter()) .format_int(1) .to_string()) == "1 mL" assert (fmt.unit(MeasureUnit.get_millimeter()) .format_int(1) .to_string()) == "1 mm" assert (fmt.unit(MeasureUnit.get_millimeter_of_mercury()) .format_int(1) .to_string()) == "1 mmHg" assert (fmt.unit(MeasureUnit.get_millimole_per_liter()) .format_int(1) .to_string()) == "1 mmol/L" assert (fmt.unit(MeasureUnit.get_millisecond()) .format_int(1) .to_string()) == "1 ms" assert (fmt.unit(MeasureUnit.get_milliwatt()) .format_int(1) .to_string()) == "1 mW" assert (fmt.unit(MeasureUnit.get_minute()) .format_int(1) .to_string()) == "1 min" assert (fmt.unit(MeasureUnit.get_mole()) .format_int(1) .to_string()) == "1 mol" assert (fmt.unit(MeasureUnit.get_month()) .format_int(1) .to_string()) == "1 mth" assert (fmt.unit(MeasureUnit.get_month_person()) .format_int(1) .to_string()) == "1 mth" assert (fmt.unit(MeasureUnit.get_nanometer()) .format_int(1) .to_string()) == "1 nm" assert (fmt.unit(MeasureUnit.get_nanosecond()) .format_int(1) .to_string()) == "1 ns" assert (fmt.unit(MeasureUnit.get_nautical_mile()) .format_int(1) .to_string()) == "1 nmi" assert (fmt.unit(MeasureUnit.get_newton()) .format_int(1) .to_string()) == "1 N" assert (fmt.unit(MeasureUnit.get_newton_meter()) .format_int(1) .to_string()) == "1 N\u22c5m" # 1 N⋅m assert (fmt.unit(MeasureUnit.get_ohm()) .format_int(1) .to_string()) == "1 \u03a9" # 1 Ω assert (fmt.unit(MeasureUnit.get_ounce()) .format_int(1) .to_string()) == "1 oz" assert (fmt.unit(MeasureUnit.get_ounce_troy()) .format_int(1) .to_string()) == "1 oz t" assert (fmt.unit(MeasureUnit.get_parsec()) .format_int(1) .to_string()) == "1 pc" assert (fmt.unit(MeasureUnit.get_part_per_million()) .format_int(1) .to_string()) == "1 ppm" assert (fmt.unit(MeasureUnit.get_percent()) .format_int(1) .to_string()) == "1%" assert (fmt.unit(MeasureUnit.get_permille()) .format_int(1) .to_string()) == "1\u2030" # 1‰ assert (fmt.unit(MeasureUnit.get_permyriad()) .format_int(1) .to_string()) == "1\u2031" # 1‱ assert (fmt.unit(MeasureUnit.get_petabyte()) .format_int(1) .to_string()) == "1 PB" assert (fmt.unit(MeasureUnit.get_picometer()) .format_int(1) .to_string()) == "1 pm" assert (fmt.unit(MeasureUnit.get_pint()) .format_int(1) .to_string()) == "1 pt" assert (fmt.unit(MeasureUnit.get_pint_metric()) .format_int(1) .to_string()) == "1 mpt" assert (fmt.unit(MeasureUnit.get_point()) .format_int(1) .to_string()) == "1 pt" assert (fmt.unit(MeasureUnit.get_pound()) .format_int(1) .to_string()) == "1 lb" assert (fmt.unit(MeasureUnit.get_pound_foot()) .format_int(1) .to_string()) == "1 lbf\u22c5ft" # 1 lb⋅ft assert (fmt.unit(MeasureUnit.get_pound_force()) .format_int(1) .to_string()) == "1 lbf" assert (fmt.unit(MeasureUnit.get_pound_per_square_inch()) .format_int(1) .to_string()) == "1 psi" assert (fmt.unit(MeasureUnit.get_quart()) .format_int(1) .to_string()) == "1 qt" assert (fmt.unit(MeasureUnit.get_radian()) .format_int(1) .to_string()) == "1 rad" assert (fmt.unit(MeasureUnit.get_revolution_angle()) .format_int(1) .to_string()) == "1 rev" assert (fmt.unit(MeasureUnit.get_second()) .format_int(1) .to_string()) == "1 sec" assert (fmt.unit(MeasureUnit.get_solar_luminosity()) .format_int(1) .to_string()) == "1 L\u2609" # 1 L☉ assert (fmt.unit(MeasureUnit.get_solar_mass()) .format_int(1) .to_string()) == "1 M\u2609" # 1 M☉ assert (fmt.unit(MeasureUnit.get_solar_radius()) .format_int(1) .to_string()) == "1 R\u2609" # 1 R☉ assert (fmt.unit(MeasureUnit.get_square_centimeter()) .format_int(1) .to_string()) == "1 cm\xb2" # 1 cm² assert (fmt.unit(MeasureUnit.get_square_foot()) .format_int(1) .to_string()) == "1 sq ft" assert (fmt.unit(MeasureUnit.get_square_inch()) .format_int(1) .to_string()) == "1 in\xb2" # 1 in² assert (fmt.unit(MeasureUnit.get_square_kilometer()) .format_int(1) .to_string()) == "1 km\xb2" # 1 km² assert (fmt.unit(MeasureUnit.get_square_meter()) .format_int(1) .to_string()) == "1 m\xb2" # 1 m² assert (fmt.unit(MeasureUnit.get_square_mile()) .format_int(1) .to_string()) == "1 sq mi" assert (fmt.unit(MeasureUnit.get_square_yard()) .format_int(1) .to_string()) == "1 yd\xb2" # 1 yd² assert (fmt.unit(MeasureUnit.get_stone()) .format_int(1) .to_string()) == "1 st" assert (fmt.unit(MeasureUnit.get_tablespoon()) .format_int(1) .to_string()) == "1 tbsp" assert (fmt.unit(MeasureUnit.get_teaspoon()) .format_int(1) .to_string()) == "1 tsp" assert (fmt.unit(MeasureUnit.get_terabit()) .format_int(1) .to_string()) == "1 Tb" assert (fmt.unit(MeasureUnit.get_terabyte()) .format_int(1) .to_string()) == "1 TB" assert (fmt.unit(MeasureUnit.get_ton()) .format_int(1) .to_string()) == "1 tn" assert (fmt.unit(MeasureUnit.get_volt()) .format_int(1) .to_string()) == "1 V" assert (fmt.unit(MeasureUnit.get_watt()) .format_int(1) .to_string()) == "1 W" assert (fmt.unit(MeasureUnit.get_week()) .format_int(1) .to_string()) == "1 wk" assert (fmt.unit(MeasureUnit.get_week_person()) .format_int(1) .to_string()) == "1 wk" assert (fmt.unit(MeasureUnit.get_yard()) .format_int(1) .to_string()) == "1 yd" assert (fmt.unit(MeasureUnit.get_year()) .format_int(1) .to_string()) == "1 yr" assert (fmt.unit(MeasureUnit.get_year_person()) .format_int(1) .to_string()) == "1 yr" @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 65, reason="ICU4C<65") def test_measure_unit_65(): fmt = NumberFormatter.with_locale(Locale.get_us()) assert (fmt.unit(MeasureUnit.create_bar()) .format_int(1) .to_string()) == "1 bar" assert (fmt.unit(MeasureUnit.create_decade()) .format_int(1) .to_string()) == "1 dec" assert (fmt.unit(MeasureUnit.create_dot_per_centimeter()) .format_int(1) .to_string()) == "1 dpcm" assert (fmt.unit(MeasureUnit.create_dot_per_inch()) .format_int(1) .to_string()) == "1 dpi" assert (fmt.unit(MeasureUnit.create_em()) .format_int(1) .to_string()) == "1 em" assert (fmt.unit(MeasureUnit.create_megapixel()) .format_int(1) .to_string()) == "1 MP" assert (fmt.unit(MeasureUnit.create_pascal()) .format_int(1) .to_string()) == "1 Pa" assert (fmt.unit(MeasureUnit.create_pixel()) .format_int(1) .to_string()) == "1 px" assert (fmt.unit(MeasureUnit.create_pixel_per_centimeter()) .format_int(1) .to_string()) == "1 ppcm" assert (fmt.unit(MeasureUnit.create_pixel_per_inch()) .format_int(1) .to_string()) == "1 ppi" assert (fmt.unit(MeasureUnit.create_therm_us()) .format_int(1) .to_string()) == "1 US therm" assert (fmt.unit(MeasureUnit.get_bar()) .format_int(1) .to_string()) == "1 bar" assert (fmt.unit(MeasureUnit.get_decade()) .format_int(1) .to_string()) == "1 dec" assert (fmt.unit(MeasureUnit.get_dot_per_centimeter()) .format_int(1) .to_string()) == "1 dpcm" assert (fmt.unit(MeasureUnit.get_dot_per_inch()) .format_int(1) .to_string()) == "1 dpi" assert (fmt.unit(MeasureUnit.get_em()) .format_int(1) .to_string()) == "1 em" assert (fmt.unit(MeasureUnit.get_megapixel()) .format_int(1) .to_string()) == "1 MP" assert (fmt.unit(MeasureUnit.get_pascal()) .format_int(1) .to_string()) == "1 Pa" assert (fmt.unit(MeasureUnit.get_pixel()) .format_int(1) .to_string()) == "1 px" assert (fmt.unit(MeasureUnit.get_pixel_per_centimeter()) .format_int(1) .to_string()) == "1 ppcm" assert (fmt.unit(MeasureUnit.get_pixel_per_inch()) .format_int(1) .to_string()) == "1 ppi" assert (fmt.unit(MeasureUnit.get_therm_us()) .format_int(1) .to_string()) == "1 US therm" @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 68, reason="ICU4C<68") def test_measure_unit_68(): fmt = NumberFormatter.with_locale(Locale.get_us()) assert (fmt.unit(MeasureUnit.create_candela()) .format_int(1) .to_string()) == "1 cd" assert (fmt.unit(MeasureUnit.create_dessert_spoon()) .format_int(1) .to_string()) == "1 dstspn" assert (fmt.unit(MeasureUnit.create_dessert_spoon_imperial()) .format_int(1) .to_string()) == "1 dstspn Imp" assert (fmt.unit(MeasureUnit.create_dot()) .format_int(1) .to_string()) in ("1 dot", # ICU4C<69 "1 px") # ICU4C>=69 assert (fmt.unit(MeasureUnit.create_dram()) .format_int(1) .to_string()) == "1 dram fl" assert (fmt.unit(MeasureUnit.create_drop()) .format_int(1) .to_string()) == "1 drop" assert (fmt.unit(MeasureUnit.create_earth_radius()) .format_int(1) .to_string()) == "1 R\u2295" # 1 R⊕ assert (fmt.unit(MeasureUnit.create_grain()) .format_int(1) .to_string()) == "1 grain" assert (fmt.unit(MeasureUnit.create_jigger()) .format_int(1) .to_string()) == "1 jigger" assert (fmt.unit(MeasureUnit.create_lumen()) .format_int(1) .to_string()) == "1 lm" assert (fmt.unit(MeasureUnit.create_pinch()) .format_int(1) .to_string()) == "1 pinch" assert (fmt.unit(MeasureUnit.create_quart_imperial()) .format_int(1) .to_string()) == "1 qt Imp." assert (fmt.unit(MeasureUnit.get_candela()) .format_int(1) .to_string()) == "1 cd" assert (fmt.unit(MeasureUnit.get_dessert_spoon()) .format_int(1) .to_string()) == "1 dstspn" assert (fmt.unit(MeasureUnit.get_dessert_spoon_imperial()) .format_int(1) .to_string()) == "1 dstspn Imp" assert (fmt.unit(MeasureUnit.get_dot()) .format_int(1) .to_string()) in ("1 dot", # ICU4C<69 "1 px") # ICU4C>=69 assert (fmt.unit(MeasureUnit.get_dram()) .format_int(1) .to_string()) == "1 dram fl" assert (fmt.unit(MeasureUnit.get_drop()) .format_int(1) .to_string()) == "1 drop" assert (fmt.unit(MeasureUnit.get_earth_radius()) .format_int(1) .to_string()) == "1 R\u2295" # 1 R⊕ assert (fmt.unit(MeasureUnit.get_grain()) .format_int(1) .to_string()) == "1 grain" assert (fmt.unit(MeasureUnit.get_jigger()) .format_int(1) .to_string()) == "1 jigger" assert (fmt.unit(MeasureUnit.get_lumen()) .format_int(1) .to_string()) == "1 lm" assert (fmt.unit(MeasureUnit.get_pinch()) .format_int(1) .to_string()) == "1 pinch" assert (fmt.unit(MeasureUnit.get_quart_imperial()) .format_int(1) .to_string()) == "1 qt Imp." @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 69, reason="ICU4C<69") def test_measure_unit_69(): fmt = NumberFormatter.with_locale(Locale.get_us()) assert (fmt.unit(MeasureUnit.create_milligram_of_glucose_per_deciliter()) .format_int(1) .to_string()) == "1 mg/dL" assert (fmt.unit(MeasureUnit.get_milligram_of_glucose_per_deciliter()) .format_int(1) .to_string()) == "1 mg/dL" @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 67, reason="ICU4C<67") def test_product(): # MeasureUnit icu::MeasureUnit::product( # const MeasureUnit &other, # UErrorCode &status # ) unit = MeasureUnit.for_identifier("kilowatt") unit2 = unit.product(MeasureUnit.for_identifier("hour-per-day")) assert isinstance(unit2, MeasureUnit) assert unit2.get_identifier() in ("hour-kilowatt-per-day", # ICU4C<69 "kilowatt-hour-per-day") # ICU4C>=69 @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 67, reason="ICU4C<67") def test_reciprocal(): # MeasureUnit icu::MeasureUnit::reciprocal(UErrorCode &status) unit = MeasureUnit.for_identifier("meter-per-second") unit2 = unit.reciprocal() assert isinstance(unit2, MeasureUnit) assert unit2.get_identifier() == "second-per-meter" @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 68, reason="ICU4C<68") def test_split_to_single_units(): unit = MeasureUnit.create_newton_meter() # std::pair<LocalArray<MeasureUnit>, int32_t> # icu::MeasureUnit::splitToSingleUnits(UErrorCode &status) units = unit.split_to_single_units() assert isinstance(units, list) assert len(units) == 2 assert all(isinstance(x, MeasureUnit) for x in units) assert units[0].get_identifier() == "newton" assert units[1].get_identifier() == "meter" unit = MeasureUnit.create_kilometer() units = unit.split_to_single_units() assert isinstance(units, list) assert len(units) == 1 assert all(isinstance(x, MeasureUnit) for x in units) assert units[0].get_identifier() == "kilometer" @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 67, reason="ICU4C<67") def test_with_dimensionality(): unit = MeasureUnit.create_kilometer() # MeasureUnit icu::MeasureUnit::withDimensionality( # int32_t dimensionality, # UErrorCode &status # ) unit2 = unit.with_dimensionality(2) assert isinstance(unit2, MeasureUnit) assert unit2.get_identifier() == "square-kilometer" unit3 = unit.with_dimensionality(3) assert isinstance(unit3, MeasureUnit) assert unit3.get_identifier() == "cubic-kilometer" @pytest.mark.skipif(U_ICU_VERSION_MAJOR_NUM < 69, reason="ICU4C<69") def test_with_prefix(): from icupy import UMeasurePrefix unit = MeasureUnit.create_byte() # MeasureUnit icu::MeasureUnit::withPrefix( # UMeasurePrefix prefix, # UErrorCode &status # ) unit2 = unit.with_prefix(UMeasurePrefix.UMEASURE_PREFIX_KILO) assert isinstance(unit2, MeasureUnit) assert unit2.get_identifier() == "kilobyte"
30.054348
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52,535
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0.871175
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0.28916
52,535
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0.016601
false
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8
c9f63199c282819e3b20b98eef264e456c653e08
4,652
py
Python
test/pyaz/network/watcher/connection_monitor/__init__.py
bigdatamoore/py-az-cli
54383a4ee7cc77556f6183e74e992eec95b28e01
[ "MIT" ]
null
null
null
test/pyaz/network/watcher/connection_monitor/__init__.py
bigdatamoore/py-az-cli
54383a4ee7cc77556f6183e74e992eec95b28e01
[ "MIT" ]
9
2021-09-24T16:37:24.000Z
2021-12-24T00:39:19.000Z
test/pyaz/network/watcher/connection_monitor/__init__.py
bigdatamoore/py-az-cli
54383a4ee7cc77556f6183e74e992eec95b28e01
[ "MIT" ]
null
null
null
import json, subprocess from .... pyaz_utils import get_cli_name, get_params def create(name, __WATCHER_RG=None, __WATCHER_NAME=None, resource_group=None, location=None, source_resource=None, source_port=None, dest_resource=None, dest_port=None, dest_address=None, tags=None, do_not_start=None, monitoring_interval=None, endpoint_source_name=None, endpoint_source_resource_id=None, endpoint_source_address=None, endpoint_source_type=None, endpoint_source_coverage_level=None, endpoint_dest_name=None, endpoint_dest_resource_id=None, endpoint_dest_address=None, endpoint_dest_type=None, endpoint_dest_coverage_level=None, test_config_name=None, frequency=None, protocol=None, preferred_ip_version=None, threshold_failed_percent=None, threshold_round_trip_time=None, tcp_disable_trace_route=None, tcp_port=None, tcp_port_behavior=None, icmp_disable_trace_route=None, http_port=None, http_method=None, http_path=None, http_valid_status_codes=None, https_prefer=None, test_group_name=None, test_group_disable=None, output_type=None, workspace_ids=None, notes=None): params = get_params(locals()) command = "az network watcher connection-monitor create " + params print(command) output = subprocess.run(command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout = output.stdout.decode("utf-8") stderr = output.stderr.decode("utf-8") if stdout: return json.loads(stdout) print(stdout) else: raise Exception(stderr) print(stderr) def delete(location, resource_group=None, __NETWORK_WATCHER_NAME=None, name): params = get_params(locals()) command = "az network watcher connection-monitor delete " + params print(command) output = subprocess.run(command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout = output.stdout.decode("utf-8") stderr = output.stderr.decode("utf-8") if stdout: return json.loads(stdout) print(stdout) else: raise Exception(stderr) print(stderr) def show(location, resource_group=None, __NETWORK_WATCHER_NAME=None, name): params = get_params(locals()) command = "az network watcher connection-monitor show " + params print(command) output = subprocess.run(command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout = output.stdout.decode("utf-8") stderr = output.stderr.decode("utf-8") if stdout: return json.loads(stdout) print(stdout) else: raise Exception(stderr) print(stderr) def stop(location, resource_group=None, __NETWORK_WATCHER_NAME=None, name): params = get_params(locals()) command = "az network watcher connection-monitor stop " + params print(command) output = subprocess.run(command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout = output.stdout.decode("utf-8") stderr = output.stderr.decode("utf-8") if stdout: return json.loads(stdout) print(stdout) else: raise Exception(stderr) print(stderr) def start(location, resource_group=None, __NETWORK_WATCHER_NAME=None, name): params = get_params(locals()) command = "az network watcher connection-monitor start " + params print(command) output = subprocess.run(command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout = output.stdout.decode("utf-8") stderr = output.stderr.decode("utf-8") if stdout: return json.loads(stdout) print(stdout) else: raise Exception(stderr) print(stderr) def query(location, resource_group=None, __NETWORK_WATCHER_NAME=None, name): params = get_params(locals()) command = "az network watcher connection-monitor query " + params print(command) output = subprocess.run(command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout = output.stdout.decode("utf-8") stderr = output.stderr.decode("utf-8") if stdout: return json.loads(stdout) print(stdout) else: raise Exception(stderr) print(stderr) def list(location, resource_group=None, __NETWORK_WATCHER_NAME=None): params = get_params(locals()) command = "az network watcher connection-monitor list " + params print(command) output = subprocess.run(command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout = output.stdout.decode("utf-8") stderr = output.stderr.decode("utf-8") if stdout: return json.loads(stdout) print(stdout) else: raise Exception(stderr) print(stderr)
45.607843
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0.715821
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4,652
5.419192
0.153199
0.060888
0.043492
0.045666
0.72041
0.72041
0.72041
0.72041
0.707052
0.707052
0
0.003658
0.177343
4,652
101
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46.059406
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0.225806
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0
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0
0
0
0
7
c9f66c554d1e79285876bdb04818c9225b13a0d5
6,511
py
Python
pynes/tests/and_test.py
BmanisKing/Mine
d33fc14c84af336ae16fefda2dcebc9f0e1e12ab
[ "BSD-3-Clause" ]
null
null
null
pynes/tests/and_test.py
BmanisKing/Mine
d33fc14c84af336ae16fefda2dcebc9f0e1e12ab
[ "BSD-3-Clause" ]
null
null
null
pynes/tests/and_test.py
BmanisKing/Mine
d33fc14c84af336ae16fefda2dcebc9f0e1e12ab
[ "BSD-3-Clause" ]
null
null
null
# -*- coding: utf-8 -*- ''' AND, Logical AND with Accumulator Test This is a test for the logical instruction AND of the 6502. In the 6502 the logical AND could be performed against the content of the accumulator or a content at a specific location. ''' import unittest from pynes.compiler import lexical, syntax, semantic class AndTest(unittest.TestCase): def test_and_imm(self): ''' Test the logical operation AND between $10(Decimal 16) and the content of the Accumulator ''' tokens = list(lexical('AND #$10')) self.assertEquals(2, len(tokens)) self.assertEquals('T_INSTRUCTION', tokens[0]['type']) self.assertEquals('T_HEX_NUMBER', tokens[1]['type']) ast = syntax(tokens) self.assertEquals(1, len(ast)) self.assertEquals('S_IMMEDIATE', ast[0]['type']) code = semantic(ast) self.assertEquals(code, [0x29, 0x10]) def test_and_imm_with_decimal(self): ''' Test the logical operation AND between #10(Decimal 10) and the content of the Accumulator ''' tokens = list(lexical('AND #10')) self.assertEquals(2, len(tokens)) self.assertEquals('T_INSTRUCTION', tokens[0]['type']) self.assertEquals('T_DECIMAL_NUMBER', tokens[1]['type']) ast = syntax(tokens) self.assertEquals(1, len(ast)) self.assertEquals('S_IMMEDIATE', ast[0]['type']) code = semantic(ast) self.assertEquals(code, [0x29, 0x0a]) def test_and_imm_with_binary(self): ''' Test the logical operation AND between #%00000100 (Decimal 4) and the content of the Accumulator ''' tokens = list(lexical('AND #%00000100')) self.assertEquals(2, len(tokens)) self.assertEquals('T_INSTRUCTION', tokens[0]['type']) self.assertEquals('T_BINARY_NUMBER', tokens[1]['type']) ast = syntax(tokens) self.assertEquals(1, len(ast)) self.assertEquals('S_IMMEDIATE', ast[0]['type']) code = semantic(ast) self.assertEquals(code, [0x29, 0x04]) def test_and_zp(self): ''' Test the logical operation AND between the content of accumulator and the content of zero page address $00 ''' tokens = list(lexical('AND $00')) self.assertEquals(2, len(tokens)) self.assertEquals('T_INSTRUCTION', tokens[0]['type']) self.assertEquals('T_ADDRESS', tokens[1]['type']) ast = syntax(tokens) self.assertEquals(1, len(ast)) self.assertEquals('S_ZEROPAGE', ast[0]['type']) code = semantic(ast) self.assertEquals(code, [0x25, 0x00]) def test_and_zpx(self): ''' Test the logical operation AND between the content of accumulator and the content located at zero page with address calculated from $10 adding content of X ''' tokens = list(lexical('AND $10,X')) self.assertEquals(4, len(tokens)) self.assertEquals('T_INSTRUCTION', tokens[0]['type']) self.assertEquals('T_ADDRESS', tokens[1]['type']) self.assertEquals('T_SEPARATOR', tokens[2]['type']) self.assertEquals('T_REGISTER', tokens[3]['type']) ast = syntax(tokens) self.assertEquals(1, len(ast)) self.assertEquals('S_ZEROPAGE_X', ast[0]['type']) code = semantic(ast) self.assertEquals(code, [0x35, 0x10]) def test_and_abs(self): tokens = list(lexical('AND $1234')) self.assertEquals(2, len(tokens)) self.assertEquals('T_INSTRUCTION', tokens[0]['type']) self.assertEquals('T_ADDRESS', tokens[1]['type']) self.assertEquals('$1234', tokens[1]['value']) ast = syntax(tokens) self.assertEquals(1, len(ast)) self.assertEquals('S_ABSOLUTE', ast[0]['type']) code = semantic(ast) self.assertEquals(code, [0x2d, 0x34, 0x12]) def test_and_absx(self): tokens = list(lexical('AND $1234,X')) self.assertEquals(4, len(tokens)) self.assertEquals('T_INSTRUCTION', tokens[0]['type']) self.assertEquals('T_ADDRESS', tokens[1]['type']) self.assertEquals('$1234', tokens[1]['value']) self.assertEquals('T_SEPARATOR', tokens[2]['type']) self.assertEquals('T_REGISTER', tokens[3]['type']) ast = syntax(tokens) self.assertEquals(1, len(ast)) self.assertEquals('S_ABSOLUTE_X', ast[0]['type']) code = semantic(ast) self.assertEquals(code, [0x3d, 0x34, 0x12]) def test_and_absy(self): tokens = list(lexical('AND $1234,Y')) self.assertEquals(4, len(tokens)) self.assertEquals('T_INSTRUCTION', tokens[0]['type']) self.assertEquals('T_ADDRESS', tokens[1]['type']) self.assertEquals('T_SEPARATOR', tokens[2]['type']) self.assertEquals('T_REGISTER', tokens[3]['type']) ast = syntax(tokens) self.assertEquals(1, len(ast)) self.assertEquals('S_ABSOLUTE_Y', ast[0]['type']) code = semantic(ast) self.assertEquals(code, [0x39, 0x34, 0x12]) def test_and_indx(self): tokens = list(lexical('AND ($20,X)')) self.assertEquals(6, len(tokens)) self.assertEquals('T_INSTRUCTION', tokens[0]['type']) self.assertEquals('T_OPEN', tokens[1]['type']) self.assertEquals('T_ADDRESS', tokens[2]['type']) self.assertEquals('$20', tokens[2]['value']) self.assertEquals('T_SEPARATOR', tokens[3]['type']) self.assertEquals('T_REGISTER', tokens[4]['type']) self.assertEquals('T_CLOSE', tokens[5]['type']) ast = syntax(tokens) self.assertEquals(1, len(ast)) self.assertEquals('S_INDIRECT_X', ast[0]['type']) code = semantic(ast) self.assertEquals(code, [0x21, 0x20]) def test_and_indy(self): tokens = list(lexical('AND ($20),Y')) self.assertEquals(6, len(tokens)) self.assertEquals('T_INSTRUCTION', tokens[0]['type']) self.assertEquals('T_OPEN', tokens[1]['type']) self.assertEquals('T_ADDRESS', tokens[2]['type']) self.assertEquals('T_CLOSE', tokens[3]['type']) self.assertEquals('T_SEPARATOR', tokens[4]['type']) self.assertEquals('T_REGISTER', tokens[5]['type']) ast = syntax(tokens) self.assertEquals(1, len(ast)) self.assertEquals('S_INDIRECT_Y', ast[0]['type']) code = semantic(ast) self.assertEquals(code, [0x31, 0x20])
39.944785
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0.612041
801
6,511
4.88015
0.133583
0.31517
0.147864
0.118189
0.858787
0.823996
0.743413
0.733947
0.733947
0.688411
0
0.041057
0.233144
6,511
162
70
40.191358
0.741839
0.120565
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0.583333
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false
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0
0
0
0
0
0
0
8
a00919f06488979ff581bab029208a2977c4c252
134
py
Python
ml_privacy_meter/__init__.py
mihirkhandekar/ml_privacy_meter
c8efa4b444a7908783cf83acc2a0270113dc2356
[ "MIT" ]
null
null
null
ml_privacy_meter/__init__.py
mihirkhandekar/ml_privacy_meter
c8efa4b444a7908783cf83acc2a0270113dc2356
[ "MIT" ]
null
null
null
ml_privacy_meter/__init__.py
mihirkhandekar/ml_privacy_meter
c8efa4b444a7908783cf83acc2a0270113dc2356
[ "MIT" ]
null
null
null
from ml_privacy_meter import attack from ml_privacy_meter import utils import tensorflow as tf tf.compat.v1.enable_eager_execution()
26.8
37
0.858209
22
134
4.954545
0.681818
0.110092
0.238532
0.330275
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134
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0
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1
0
1
0
1
0
0
7
a00d3bdd283611385404a2b96d12a73e23315490
64
py
Python
rover/vl53l1x/__init__.py
GamesCreatorsClub/GCC-Rover
25a69f62a1bb01fc421924ec39f180f50d6a640b
[ "MIT" ]
3
2018-02-13T21:39:55.000Z
2018-04-26T18:17:39.000Z
rover/vl53l1x/__init__.py
GamesCreatorsClub/GCC-Rover
25a69f62a1bb01fc421924ec39f180f50d6a640b
[ "MIT" ]
null
null
null
rover/vl53l1x/__init__.py
GamesCreatorsClub/GCC-Rover
25a69f62a1bb01fc421924ec39f180f50d6a640b
[ "MIT" ]
null
null
null
from vl53l1x.vl53l1x import * from vl53l1x.GCC_VL53L1X import *
21.333333
33
0.8125
9
64
5.666667
0.444444
0.431373
0
0
0
0
0
0
0
0
0
0.214286
0.125
64
2
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32
0.696429
0
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0
1
0
true
0
1
0
1
0
1
0
0
null
1
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1
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1
0
0
0
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0
0
0
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null
0
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1
0
1
0
1
0
0
7
095cf4119f963d728e08b6a0230825cdc6250faf
55
py
Python
audio_tf_pytorch/__init__.py
rish-16/audio-tf-pytorch
397a6e9f1a97cce774202d392eb9706f0483405c
[ "MIT" ]
1
2021-06-10T13:38:41.000Z
2021-06-10T13:38:41.000Z
audio_tf_pytorch/__init__.py
rish-16/audio-tf-pytorch
397a6e9f1a97cce774202d392eb9706f0483405c
[ "MIT" ]
null
null
null
audio_tf_pytorch/__init__.py
rish-16/audio-tf-pytorch
397a6e9f1a97cce774202d392eb9706f0483405c
[ "MIT" ]
1
2021-06-10T13:38:43.000Z
2021-06-10T13:38:43.000Z
from audio_tf_pytorch.audio_tf_pytorch import Attention
55
55
0.927273
9
55
5.222222
0.666667
0.297872
0.595745
0
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0.054545
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1
55
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true
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0
1
0
1
0
0
7
116cd41fce1a2aed91705e096bca2f53f8b07761
192
py
Python
Projects/ESP32Micropython/positions_file.py
TizioMaurizio/ArduinoWorkshop
d38ede91c6b7a925eafb0272a5fa9f44885ae017
[ "MIT" ]
null
null
null
Projects/ESP32Micropython/positions_file.py
TizioMaurizio/ArduinoWorkshop
d38ede91c6b7a925eafb0272a5fa9f44885ae017
[ "MIT" ]
null
null
null
Projects/ESP32Micropython/positions_file.py
TizioMaurizio/ArduinoWorkshop
d38ede91c6b7a925eafb0272a5fa9f44885ae017
[ "MIT" ]
null
null
null
positions = {'start': [0, 45, 30, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], 'mid': [0, 45, 45, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], 'end': [0, 30, 30, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]}
96
191
0.385417
52
192
1.423077
0.134615
0.972973
1.337838
1.621622
0.581081
0.581081
0.581081
0.581081
0.581081
0.581081
0
0.388489
0.276042
192
1
192
192
0.143885
0
0
0
0
0
0.057292
0
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false
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null
1
1
1
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null
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8
118eede795109ec14575911abf2dab8cf71f18f0
12,991
py
Python
test/test_soft_functions.py
pythoro/npsolve
c6993dd7a10a60a09655f0252c3ad36fe7dc3af1
[ "MIT" ]
null
null
null
test/test_soft_functions.py
pythoro/npsolve
c6993dd7a10a60a09655f0252c3ad36fe7dc3af1
[ "MIT" ]
null
null
null
test/test_soft_functions.py
pythoro/npsolve
c6993dd7a10a60a09655f0252c3ad36fe7dc3af1
[ "MIT" ]
null
null
null
# -*- coding: utf-8 -*- """ Created on Thu May 21 15:21:59 2020 @author: Reuben """ import unittest import numpy as np import npsolve.soft_functions as soft class Test_lim_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, 2.5, 3.5, 1000] self.limit = 3.0 def test_m1000_side1(self): val = soft.lim(self.vals[0], self.limit, side=1, scale=0.001) self.assertEqual(val, self.limit) def test_25_side1(self): val = soft.lim(self.vals[1], self.limit, side=1, scale=0.001) self.assertEqual(val, self.limit) def test_35_side1(self): val = soft.lim(self.vals[2], self.limit, side=1, scale=0.001) self.assertEqual(val, self.vals[2]) def test_1000_side1(self): val = soft.lim(self.vals[3], self.limit, side=1, scale=0.001) self.assertEqual(val, self.vals[3]) def test_m1000_sidem1(self): val = soft.lim(self.vals[0], self.limit, side=-1, scale=0.001) self.assertEqual(val, self.vals[0]) def test_25_sidem1(self): val = soft.lim(self.vals[1], self.limit, side=-1, scale=0.001) self.assertEqual(val, self.vals[1]) def test_35_sidem1(self): val = soft.lim(self.vals[2], self.limit, side=-1, scale=0.001) self.assertEqual(val, self.limit) def test_1000_sidem1(self): val = soft.lim(self.vals[3], self.limit, side=-1, scale=0.001) self.assertEqual(val, self.limit) class Test_lim_numpy(Test_lim_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) self.limit = 3.0 class Test_floor_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, 2.5, 3.5, 1000] self.limit = 3.0 def test_m1000(self): val = soft.floor(self.vals[0], self.limit, scale=0.001) self.assertEqual(val, self.limit) def test_25(self): val = soft.floor(self.vals[1], self.limit, scale=0.001) self.assertEqual(val, self.limit) def test_35(self): val = soft.floor(self.vals[2], self.limit, scale=0.001) self.assertEqual(val, self.vals[2]) def test_1000(self): val = soft.floor(self.vals[3], self.limit, scale=0.001) self.assertEqual(val, self.vals[3]) class Test_floor_numpy(Test_floor_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) self.limit = 3.0 class Test_ceil_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, 2.5, 3.5, 1000] self.limit = 3.0 def test_m1000(self): val = soft.ceil(self.vals[0], self.limit, scale=0.001) self.assertEqual(val, self.vals[0]) def test_25(self): val = soft.ceil(self.vals[1], self.limit, scale=0.001) self.assertEqual(val, self.vals[1]) def test_35(self): val = soft.ceil(self.vals[2], self.limit, scale=0.001) self.assertEqual(val, self.limit) def test_1000(self): val = soft.ceil(self.vals[3], self.limit, scale=0.001) self.assertEqual(val, self.limit) class Test_ceil_numpy(Test_ceil_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) self.limit = 3.0 class Test_clip_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, -1.0, 2.5, 3.5, 1000] self.lower = 1.5 self.upper = 3.0 def test_m1000(self): val = soft.clip(self.vals[0], self.lower, self.upper, scale=0.001) self.assertEqual(val, self.lower) def test_m1(self): val = soft.clip(self.vals[1], self.lower, self.upper, scale=0.001) self.assertEqual(val, self.lower) def test_25(self): val = soft.clip(self.vals[2], self.lower, self.upper, scale=0.001) self.assertEqual(val, self.vals[2]) def test_35(self): val = soft.clip(self.vals[3], self.lower, self.upper, scale=0.001) self.assertEqual(val, self.upper) def test_1000(self): val = soft.clip(self.vals[4], self.lower, self.upper, scale=0.001) self.assertEqual(val, self.upper) class Test_clip_numpy(Test_clip_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) class Test_posdiff_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, 2.5, 3.5, 1000] self.limit = 3.0 def test_m1000(self): val = soft.posdiff(self.vals[0], self.limit, scale=0.001) self.assertEqual(val, 0) def test_25(self): val = soft.posdiff(self.vals[1], self.limit, scale=0.001) self.assertEqual(val, 0) def test_35(self): val = soft.posdiff(self.vals[2], self.limit, scale=0.001) self.assertEqual(val, self.vals[2] - self.limit) def test_1000(self): val = soft.posdiff(self.vals[3], self.limit, scale=0.001) self.assertEqual(val, self.vals[3] - self.limit) class Test_posdiff_numpy(Test_posdiff_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) self.limit = 3.0 class Test_negdiff_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, 2.5, 3.5, 1000] self.limit = 3.0 def test_m1000(self): val = soft.negdiff(self.vals[0], self.limit, scale=0.001) self.assertEqual(val, self.vals[0] - self.limit) def test_25(self): val = soft.negdiff(self.vals[1], self.limit, scale=0.001) self.assertEqual(val, self.vals[1] - self.limit) def test_35(self): val = soft.negdiff(self.vals[2], self.limit, scale=0.001) self.assertEqual(val, 0) def test_1000(self): val = soft.negdiff(self.vals[3], self.limit, scale=0.001) self.assertEqual(val, 0) class Test_negdiff_numpy(Test_negdiff_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) self.limit = 3.0 class Test_step_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, 2.5, 3.5, 1000] self.limit = 3.0 def test_m1000_side1(self): val = soft.step(self.vals[0], self.limit, side=1, scale=0.001) self.assertAlmostEqual(val, 0) def test_25_side1(self): val = soft.step(self.vals[1], self.limit, side=1, scale=0.001) self.assertAlmostEqual(val, 0) def test_35_side1(self): val = soft.step(self.vals[2], self.limit, side=1, scale=0.001) self.assertEqual(val, 1) def test_1000_side1(self): val = soft.step(self.vals[3], self.limit, side=1, scale=0.001) self.assertEqual(val, 1) def test_m1000_sidem1(self): val = soft.step(self.vals[0], self.limit, side=-1, scale=0.001) self.assertEqual(val, 1) def test_25_sidem1(self): val = soft.step(self.vals[1], self.limit, side=-1, scale=0.001) self.assertEqual(val, 1) def test_35_sidem1(self): val = soft.step(self.vals[2], self.limit, side=-1, scale=0.001) self.assertAlmostEqual(val, 0) def test_1000_sidem1(self): val = soft.step(self.vals[3], self.limit, side=-1, scale=0.001) self.assertAlmostEqual(val, 0) class Test_step_numpy(Test_step_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) self.limit = 3.0 class Test_above_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, 2.5, 3.5, 1000] self.limit = 3.0 def test_m1000(self): val = soft.step(self.vals[0], self.limit, scale=0.001) self.assertAlmostEqual(val, 0) def test_25(self): val = soft.step(self.vals[1], self.limit, scale=0.001) self.assertAlmostEqual(val, 0) def test_35(self): val = soft.step(self.vals[2], self.limit, scale=0.001) self.assertEqual(val, 1) def test_1000(self): val = soft.step(self.vals[3], self.limit, scale=0.001) self.assertEqual(val, 1) class Test_above_numpy(Test_above_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) self.limit = 3.0 class Test_below_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, 2.5, 3.5, 1000] self.limit = 3.0 def test_m1000(self): val = soft.below(self.vals[0], self.limit, scale=0.001) self.assertEqual(val, 1) def test_25(self): val = soft.below(self.vals[1], self.limit, scale=0.001) self.assertEqual(val, 1) def test_35(self): val = soft.below(self.vals[2], self.limit, scale=0.001) self.assertAlmostEqual(val, 0) def test_1000(self): val = soft.below(self.vals[3], self.limit, scale=0.001) self.assertAlmostEqual(val, 0) class Test_below_numpy(Test_below_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) self.limit = 3.0 class Test_within_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, -1.0, 2.5, 3.5, 1000] self.lower = 1.5 self.upper = 3.0 def test_m1000(self): val = soft.within(self.vals[0], self.lower, self.upper, scale=0.001) self.assertAlmostEqual(val, 0) def test_m1(self): val = soft.within(self.vals[1], self.lower, self.upper, scale=0.001) self.assertAlmostEqual(val, 0) def test_25(self): val = soft.within(self.vals[2], self.lower, self.upper, scale=0.001) self.assertEqual(val, 1) def test_35(self): val = soft.within(self.vals[3], self.lower, self.upper, scale=0.001) self.assertAlmostEqual(val, 0) def test_1000(self): val = soft.within(self.vals[4], self.lower, self.upper, scale=0.001) self.assertAlmostEqual(val, 0) class Test_within_numpy(Test_within_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) class Test_outside_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, -1.0, 2.5, 3.5, 1000] self.lower = 1.5 self.upper = 3.0 def test_m1000(self): val = soft.outside(self.vals[0], self.lower, self.upper, scale=0.001) self.assertAlmostEqual(val, 1) def test_m1(self): val = soft.outside(self.vals[1], self.lower, self.upper, scale=0.001) self.assertAlmostEqual(val, 1) def test_25(self): val = soft.outside(self.vals[2], self.lower, self.upper, scale=0.001) self.assertAlmostEqual(val, 0) def test_35(self): val = soft.outside(self.vals[3], self.lower, self.upper, scale=0.001) self.assertAlmostEqual(val, 1) def test_1000(self): val = soft.outside(self.vals[4], self.lower, self.upper, scale=0.001) self.assertAlmostEqual(val, 1) class Test_outside_numpy(Test_outside_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) class Test_sign_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, -0.5, 0.5, 1000] self.limit = 3.0 def test_m1000(self): val = soft.sign(self.vals[0], scale=0.001) self.assertAlmostEqual(val, -1) def test_25(self): val = soft.sign(self.vals[1], scale=0.001) self.assertAlmostEqual(val, -1) def test_35(self): val = soft.sign(self.vals[2], scale=0.001) self.assertAlmostEqual(val, 1) def test_1000(self): val = soft.sign(self.vals[3], scale=0.001) self.assertAlmostEqual(val, 1) class Test_sign_numpy(Test_sign_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals) class Test_gaussian_scalar(unittest.TestCase): def setUp(self): self.vals = [-1000, 0.5, 1.5, 2.5, 1000] self.center = 1.5 def test_m1000(self): val = soft.gaussian(self.vals[0], center=self.center, scale=0.5) self.assertAlmostEqual(val, 0) def test_p5(self): val = soft.gaussian(self.vals[1], center=self.center, scale=0.5) self.assertAlmostEqual(val, 0.1353352832366127) def test_1p5(self): val = soft.gaussian(self.vals[2], center=self.center, scale=0.5) self.assertAlmostEqual(val, 1) def test_2p5(self): val = soft.gaussian(self.vals[3], center=self.center, scale=0.5) self.assertAlmostEqual(val, 0.1353352832366127) def test_1000(self): val = soft.gaussian(self.vals[4], center=self.center, scale=0.5) self.assertAlmostEqual(val, 0) class Test_gaussian_numpy(Test_gaussian_scalar): def setUp(self): super().setUp() self.vals = np.array(self.vals)
29.93318
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12,991
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0.100288
0.931355
0.930178
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0.848588
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12,991
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7
11dce02eea74ae584df4f846130af5d226242d7e
162
py
Python
pythonlearn/import_modules.py
kuljotbiring/Python
743c93b91c5e4a4bf5066cf50e72e5a51d98d1ad
[ "MIT" ]
null
null
null
pythonlearn/import_modules.py
kuljotbiring/Python
743c93b91c5e4a4bf5066cf50e72e5a51d98d1ad
[ "MIT" ]
null
null
null
pythonlearn/import_modules.py
kuljotbiring/Python
743c93b91c5e4a4bf5066cf50e72e5a51d98d1ad
[ "MIT" ]
null
null
null
# import module_name # from module_name import function_name # from module_name import function_name as fn # import module_name as mn # from module_name import *
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11edc8647387ca105c4f6c9a7797dd80f49864df
23,079
py
Python
sdk/python/pulumi_signalfx/data_link.py
pulumi/pulumi-signalfx
0b0701eda3b9e4c5c590f3547f8cfc5d1ff8b456
[ "ECL-2.0", "Apache-2.0" ]
2
2020-05-09T17:37:04.000Z
2021-10-08T06:43:07.000Z
sdk/python/pulumi_signalfx/data_link.py
pulumi/pulumi-signalfx
0b0701eda3b9e4c5c590f3547f8cfc5d1ff8b456
[ "ECL-2.0", "Apache-2.0" ]
61
2019-11-25T17:04:45.000Z
2022-03-31T15:44:52.000Z
sdk/python/pulumi_signalfx/data_link.py
pulumi/pulumi-signalfx
0b0701eda3b9e4c5c590f3547f8cfc5d1ff8b456
[ "ECL-2.0", "Apache-2.0" ]
2
2020-05-08T06:44:20.000Z
2020-11-24T12:22:55.000Z
# coding=utf-8 # *** WARNING: this file was generated by the Pulumi Terraform Bridge (tfgen) Tool. *** # *** Do not edit by hand unless you're certain you know what you are doing! *** import warnings import pulumi import pulumi.runtime from typing import Any, Mapping, Optional, Sequence, Union, overload from . import _utilities from . import outputs from ._inputs import * __all__ = ['DataLinkArgs', 'DataLink'] @pulumi.input_type class DataLinkArgs: def __init__(__self__, *, context_dashboard_id: Optional[pulumi.Input[str]] = None, property_name: Optional[pulumi.Input[str]] = None, property_value: Optional[pulumi.Input[str]] = None, target_external_urls: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetExternalUrlArgs']]]] = None, target_signalfx_dashboards: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSignalfxDashboardArgs']]]] = None, target_splunks: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSplunkArgs']]]] = None): """ The set of arguments for constructing a DataLink resource. :param pulumi.Input[str] context_dashboard_id: If provided, scopes this data link to the supplied dashboard id. If omitted then the link will be global. :param pulumi.Input[str] property_name: Name (key) of the metadata that's the trigger of a data link. If you specify `property_value`, you must specify `property_name`. :param pulumi.Input[str] property_value: Value of the metadata that's the trigger of a data link. If you specify this property, you must also specify `property_name`. :param pulumi.Input[Sequence[pulumi.Input['DataLinkTargetExternalUrlArgs']]] target_external_urls: Link to an external URL :param pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSignalfxDashboardArgs']]] target_signalfx_dashboards: Link to a SignalFx dashboard :param pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSplunkArgs']]] target_splunks: Link to an external URL """ if context_dashboard_id is not None: pulumi.set(__self__, "context_dashboard_id", context_dashboard_id) if property_name is not None: pulumi.set(__self__, "property_name", property_name) if property_value is not None: pulumi.set(__self__, "property_value", property_value) if target_external_urls is not None: pulumi.set(__self__, "target_external_urls", target_external_urls) if target_signalfx_dashboards is not None: pulumi.set(__self__, "target_signalfx_dashboards", target_signalfx_dashboards) if target_splunks is not None: pulumi.set(__self__, "target_splunks", target_splunks) @property @pulumi.getter(name="contextDashboardId") def context_dashboard_id(self) -> Optional[pulumi.Input[str]]: """ If provided, scopes this data link to the supplied dashboard id. If omitted then the link will be global. """ return pulumi.get(self, "context_dashboard_id") @context_dashboard_id.setter def context_dashboard_id(self, value: Optional[pulumi.Input[str]]): pulumi.set(self, "context_dashboard_id", value) @property @pulumi.getter(name="propertyName") def property_name(self) -> Optional[pulumi.Input[str]]: """ Name (key) of the metadata that's the trigger of a data link. If you specify `property_value`, you must specify `property_name`. """ return pulumi.get(self, "property_name") @property_name.setter def property_name(self, value: Optional[pulumi.Input[str]]): pulumi.set(self, "property_name", value) @property @pulumi.getter(name="propertyValue") def property_value(self) -> Optional[pulumi.Input[str]]: """ Value of the metadata that's the trigger of a data link. If you specify this property, you must also specify `property_name`. """ return pulumi.get(self, "property_value") @property_value.setter def property_value(self, value: Optional[pulumi.Input[str]]): pulumi.set(self, "property_value", value) @property @pulumi.getter(name="targetExternalUrls") def target_external_urls(self) -> Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetExternalUrlArgs']]]]: """ Link to an external URL """ return pulumi.get(self, "target_external_urls") @target_external_urls.setter def target_external_urls(self, value: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetExternalUrlArgs']]]]): pulumi.set(self, "target_external_urls", value) @property @pulumi.getter(name="targetSignalfxDashboards") def target_signalfx_dashboards(self) -> Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSignalfxDashboardArgs']]]]: """ Link to a SignalFx dashboard """ return pulumi.get(self, "target_signalfx_dashboards") @target_signalfx_dashboards.setter def target_signalfx_dashboards(self, value: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSignalfxDashboardArgs']]]]): pulumi.set(self, "target_signalfx_dashboards", value) @property @pulumi.getter(name="targetSplunks") def target_splunks(self) -> Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSplunkArgs']]]]: """ Link to an external URL """ return pulumi.get(self, "target_splunks") @target_splunks.setter def target_splunks(self, value: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSplunkArgs']]]]): pulumi.set(self, "target_splunks", value) @pulumi.input_type class _DataLinkState: def __init__(__self__, *, context_dashboard_id: Optional[pulumi.Input[str]] = None, property_name: Optional[pulumi.Input[str]] = None, property_value: Optional[pulumi.Input[str]] = None, target_external_urls: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetExternalUrlArgs']]]] = None, target_signalfx_dashboards: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSignalfxDashboardArgs']]]] = None, target_splunks: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSplunkArgs']]]] = None): """ Input properties used for looking up and filtering DataLink resources. :param pulumi.Input[str] context_dashboard_id: If provided, scopes this data link to the supplied dashboard id. If omitted then the link will be global. :param pulumi.Input[str] property_name: Name (key) of the metadata that's the trigger of a data link. If you specify `property_value`, you must specify `property_name`. :param pulumi.Input[str] property_value: Value of the metadata that's the trigger of a data link. If you specify this property, you must also specify `property_name`. :param pulumi.Input[Sequence[pulumi.Input['DataLinkTargetExternalUrlArgs']]] target_external_urls: Link to an external URL :param pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSignalfxDashboardArgs']]] target_signalfx_dashboards: Link to a SignalFx dashboard :param pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSplunkArgs']]] target_splunks: Link to an external URL """ if context_dashboard_id is not None: pulumi.set(__self__, "context_dashboard_id", context_dashboard_id) if property_name is not None: pulumi.set(__self__, "property_name", property_name) if property_value is not None: pulumi.set(__self__, "property_value", property_value) if target_external_urls is not None: pulumi.set(__self__, "target_external_urls", target_external_urls) if target_signalfx_dashboards is not None: pulumi.set(__self__, "target_signalfx_dashboards", target_signalfx_dashboards) if target_splunks is not None: pulumi.set(__self__, "target_splunks", target_splunks) @property @pulumi.getter(name="contextDashboardId") def context_dashboard_id(self) -> Optional[pulumi.Input[str]]: """ If provided, scopes this data link to the supplied dashboard id. If omitted then the link will be global. """ return pulumi.get(self, "context_dashboard_id") @context_dashboard_id.setter def context_dashboard_id(self, value: Optional[pulumi.Input[str]]): pulumi.set(self, "context_dashboard_id", value) @property @pulumi.getter(name="propertyName") def property_name(self) -> Optional[pulumi.Input[str]]: """ Name (key) of the metadata that's the trigger of a data link. If you specify `property_value`, you must specify `property_name`. """ return pulumi.get(self, "property_name") @property_name.setter def property_name(self, value: Optional[pulumi.Input[str]]): pulumi.set(self, "property_name", value) @property @pulumi.getter(name="propertyValue") def property_value(self) -> Optional[pulumi.Input[str]]: """ Value of the metadata that's the trigger of a data link. If you specify this property, you must also specify `property_name`. """ return pulumi.get(self, "property_value") @property_value.setter def property_value(self, value: Optional[pulumi.Input[str]]): pulumi.set(self, "property_value", value) @property @pulumi.getter(name="targetExternalUrls") def target_external_urls(self) -> Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetExternalUrlArgs']]]]: """ Link to an external URL """ return pulumi.get(self, "target_external_urls") @target_external_urls.setter def target_external_urls(self, value: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetExternalUrlArgs']]]]): pulumi.set(self, "target_external_urls", value) @property @pulumi.getter(name="targetSignalfxDashboards") def target_signalfx_dashboards(self) -> Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSignalfxDashboardArgs']]]]: """ Link to a SignalFx dashboard """ return pulumi.get(self, "target_signalfx_dashboards") @target_signalfx_dashboards.setter def target_signalfx_dashboards(self, value: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSignalfxDashboardArgs']]]]): pulumi.set(self, "target_signalfx_dashboards", value) @property @pulumi.getter(name="targetSplunks") def target_splunks(self) -> Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSplunkArgs']]]]: """ Link to an external URL """ return pulumi.get(self, "target_splunks") @target_splunks.setter def target_splunks(self, value: Optional[pulumi.Input[Sequence[pulumi.Input['DataLinkTargetSplunkArgs']]]]): pulumi.set(self, "target_splunks", value) class DataLink(pulumi.CustomResource): @overload def __init__(__self__, resource_name: str, opts: Optional[pulumi.ResourceOptions] = None, context_dashboard_id: Optional[pulumi.Input[str]] = None, property_name: Optional[pulumi.Input[str]] = None, property_value: Optional[pulumi.Input[str]] = None, target_external_urls: Optional[pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetExternalUrlArgs']]]]] = None, target_signalfx_dashboards: Optional[pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetSignalfxDashboardArgs']]]]] = None, target_splunks: Optional[pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetSplunkArgs']]]]] = None, __props__=None): """ Manage SignalFx [Data Links](https://docs.signalfx.com/en/latest/managing/data-links.html). ## Example Usage ```python import pulumi import pulumi_signalfx as signalfx # A global link to SignalFx dashboard. my_data_link = signalfx.DataLink("myDataLink", property_name="pname", property_value="pvalue", target_signalfx_dashboards=[signalfx.DataLinkTargetSignalfxDashboardArgs( is_default=True, name="sfx_dash", dashboard_group_id=signalfx_dashboard_group["mydashboardgroup0"]["id"], dashboard_id=signalfx_dashboard["mydashboard0"]["id"], )]) # A dashboard-specific link to an external URL my_data_link_dash = signalfx.DataLink("myDataLinkDash", context_dashboard_id=signalfx_dashboard["mydashboard0"]["id"], property_name="pname2", property_value="pvalue", target_external_urls=[signalfx.DataLinkTargetExternalUrlArgs( name="ex_url", time_format="ISO8601", url="https://www.example.com", property_key_mapping={ "foo": "bar", }, )]) ``` :param str resource_name: The name of the resource. :param pulumi.ResourceOptions opts: Options for the resource. :param pulumi.Input[str] context_dashboard_id: If provided, scopes this data link to the supplied dashboard id. If omitted then the link will be global. :param pulumi.Input[str] property_name: Name (key) of the metadata that's the trigger of a data link. If you specify `property_value`, you must specify `property_name`. :param pulumi.Input[str] property_value: Value of the metadata that's the trigger of a data link. If you specify this property, you must also specify `property_name`. :param pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetExternalUrlArgs']]]] target_external_urls: Link to an external URL :param pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetSignalfxDashboardArgs']]]] target_signalfx_dashboards: Link to a SignalFx dashboard :param pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetSplunkArgs']]]] target_splunks: Link to an external URL """ ... @overload def __init__(__self__, resource_name: str, args: Optional[DataLinkArgs] = None, opts: Optional[pulumi.ResourceOptions] = None): """ Manage SignalFx [Data Links](https://docs.signalfx.com/en/latest/managing/data-links.html). ## Example Usage ```python import pulumi import pulumi_signalfx as signalfx # A global link to SignalFx dashboard. my_data_link = signalfx.DataLink("myDataLink", property_name="pname", property_value="pvalue", target_signalfx_dashboards=[signalfx.DataLinkTargetSignalfxDashboardArgs( is_default=True, name="sfx_dash", dashboard_group_id=signalfx_dashboard_group["mydashboardgroup0"]["id"], dashboard_id=signalfx_dashboard["mydashboard0"]["id"], )]) # A dashboard-specific link to an external URL my_data_link_dash = signalfx.DataLink("myDataLinkDash", context_dashboard_id=signalfx_dashboard["mydashboard0"]["id"], property_name="pname2", property_value="pvalue", target_external_urls=[signalfx.DataLinkTargetExternalUrlArgs( name="ex_url", time_format="ISO8601", url="https://www.example.com", property_key_mapping={ "foo": "bar", }, )]) ``` :param str resource_name: The name of the resource. :param DataLinkArgs args: The arguments to use to populate this resource's properties. :param pulumi.ResourceOptions opts: Options for the resource. """ ... def __init__(__self__, resource_name: str, *args, **kwargs): resource_args, opts = _utilities.get_resource_args_opts(DataLinkArgs, pulumi.ResourceOptions, *args, **kwargs) if resource_args is not None: __self__._internal_init(resource_name, opts, **resource_args.__dict__) else: __self__._internal_init(resource_name, *args, **kwargs) def _internal_init(__self__, resource_name: str, opts: Optional[pulumi.ResourceOptions] = None, context_dashboard_id: Optional[pulumi.Input[str]] = None, property_name: Optional[pulumi.Input[str]] = None, property_value: Optional[pulumi.Input[str]] = None, target_external_urls: Optional[pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetExternalUrlArgs']]]]] = None, target_signalfx_dashboards: Optional[pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetSignalfxDashboardArgs']]]]] = None, target_splunks: Optional[pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetSplunkArgs']]]]] = None, __props__=None): if opts is None: opts = pulumi.ResourceOptions() if not isinstance(opts, pulumi.ResourceOptions): raise TypeError('Expected resource options to be a ResourceOptions instance') if opts.version is None: opts.version = _utilities.get_version() if opts.id is None: if __props__ is not None: raise TypeError('__props__ is only valid when passed in combination with a valid opts.id to get an existing resource') __props__ = DataLinkArgs.__new__(DataLinkArgs) __props__.__dict__["context_dashboard_id"] = context_dashboard_id __props__.__dict__["property_name"] = property_name __props__.__dict__["property_value"] = property_value __props__.__dict__["target_external_urls"] = target_external_urls __props__.__dict__["target_signalfx_dashboards"] = target_signalfx_dashboards __props__.__dict__["target_splunks"] = target_splunks super(DataLink, __self__).__init__( 'signalfx:index/dataLink:DataLink', resource_name, __props__, opts) @staticmethod def get(resource_name: str, id: pulumi.Input[str], opts: Optional[pulumi.ResourceOptions] = None, context_dashboard_id: Optional[pulumi.Input[str]] = None, property_name: Optional[pulumi.Input[str]] = None, property_value: Optional[pulumi.Input[str]] = None, target_external_urls: Optional[pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetExternalUrlArgs']]]]] = None, target_signalfx_dashboards: Optional[pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetSignalfxDashboardArgs']]]]] = None, target_splunks: Optional[pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetSplunkArgs']]]]] = None) -> 'DataLink': """ Get an existing DataLink resource's state with the given name, id, and optional extra properties used to qualify the lookup. :param str resource_name: The unique name of the resulting resource. :param pulumi.Input[str] id: The unique provider ID of the resource to lookup. :param pulumi.ResourceOptions opts: Options for the resource. :param pulumi.Input[str] context_dashboard_id: If provided, scopes this data link to the supplied dashboard id. If omitted then the link will be global. :param pulumi.Input[str] property_name: Name (key) of the metadata that's the trigger of a data link. If you specify `property_value`, you must specify `property_name`. :param pulumi.Input[str] property_value: Value of the metadata that's the trigger of a data link. If you specify this property, you must also specify `property_name`. :param pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetExternalUrlArgs']]]] target_external_urls: Link to an external URL :param pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetSignalfxDashboardArgs']]]] target_signalfx_dashboards: Link to a SignalFx dashboard :param pulumi.Input[Sequence[pulumi.Input[pulumi.InputType['DataLinkTargetSplunkArgs']]]] target_splunks: Link to an external URL """ opts = pulumi.ResourceOptions.merge(opts, pulumi.ResourceOptions(id=id)) __props__ = _DataLinkState.__new__(_DataLinkState) __props__.__dict__["context_dashboard_id"] = context_dashboard_id __props__.__dict__["property_name"] = property_name __props__.__dict__["property_value"] = property_value __props__.__dict__["target_external_urls"] = target_external_urls __props__.__dict__["target_signalfx_dashboards"] = target_signalfx_dashboards __props__.__dict__["target_splunks"] = target_splunks return DataLink(resource_name, opts=opts, __props__=__props__) @property @pulumi.getter(name="contextDashboardId") def context_dashboard_id(self) -> pulumi.Output[Optional[str]]: """ If provided, scopes this data link to the supplied dashboard id. If omitted then the link will be global. """ return pulumi.get(self, "context_dashboard_id") @property @pulumi.getter(name="propertyName") def property_name(self) -> pulumi.Output[Optional[str]]: """ Name (key) of the metadata that's the trigger of a data link. If you specify `property_value`, you must specify `property_name`. """ return pulumi.get(self, "property_name") @property @pulumi.getter(name="propertyValue") def property_value(self) -> pulumi.Output[Optional[str]]: """ Value of the metadata that's the trigger of a data link. If you specify this property, you must also specify `property_name`. """ return pulumi.get(self, "property_value") @property @pulumi.getter(name="targetExternalUrls") def target_external_urls(self) -> pulumi.Output[Optional[Sequence['outputs.DataLinkTargetExternalUrl']]]: """ Link to an external URL """ return pulumi.get(self, "target_external_urls") @property @pulumi.getter(name="targetSignalfxDashboards") def target_signalfx_dashboards(self) -> pulumi.Output[Optional[Sequence['outputs.DataLinkTargetSignalfxDashboard']]]: """ Link to a SignalFx dashboard """ return pulumi.get(self, "target_signalfx_dashboards") @property @pulumi.getter(name="targetSplunks") def target_splunks(self) -> pulumi.Output[Optional[Sequence['outputs.DataLinkTargetSplunk']]]: """ Link to an external URL """ return pulumi.get(self, "target_splunks")
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eee13123308e1daced49a6e44cd8759d7451e9c1
973,682
py
Python
Linux_64_3/sbol/libsbol.py
aarondadler/pySBOL
97cf161eda1c8e1ccaf0f6cb5f0f53b24f6030b5
[ "Apache-2.0" ]
null
null
null
Linux_64_3/sbol/libsbol.py
aarondadler/pySBOL
97cf161eda1c8e1ccaf0f6cb5f0f53b24f6030b5
[ "Apache-2.0" ]
null
null
null
Linux_64_3/sbol/libsbol.py
aarondadler/pySBOL
97cf161eda1c8e1ccaf0f6cb5f0f53b24f6030b5
[ "Apache-2.0" ]
null
null
null
# This file was automatically generated by SWIG (http://www.swig.org). # Version 3.0.12 # # Do not make changes to this file unless you know what you are doing--modify # the SWIG interface file instead. from __future__ import absolute_import from sys import version_info as _swig_python_version_info if _swig_python_version_info >= (2, 7, 0): def swig_import_helper(): import importlib pkg = __name__.rpartition('.')[0] mname = '.'.join((pkg, '_libsbol')).lstrip('.') try: return importlib.import_module(mname) except ImportError: return importlib.import_module('_libsbol') _libsbol = swig_import_helper() del swig_import_helper elif _swig_python_version_info >= (2, 6, 0): def swig_import_helper(): from os.path import dirname import imp fp = None try: fp, pathname, description = imp.find_module('_libsbol', [dirname(__file__)]) except ImportError: import _libsbol return _libsbol try: _mod = imp.load_module('_libsbol', fp, pathname, description) finally: if fp is not None: fp.close() return _mod _libsbol = swig_import_helper() del swig_import_helper else: import _libsbol del _swig_python_version_info try: _swig_property = property except NameError: pass # Python < 2.2 doesn't have 'property'. try: import builtins as __builtin__ except ImportError: import __builtin__ def _swig_setattr_nondynamic(self, class_type, name, value, static=1): if (name == "thisown"): return self.this.own(value) if (name == "this"): if type(value).__name__ == 'SwigPyObject': self.__dict__[name] = value return method = class_type.__swig_setmethods__.get(name, None) if method: return method(self, value) if (not static): if _newclass: object.__setattr__(self, name, value) else: self.__dict__[name] = value else: raise AttributeError("You cannot add attributes to %s" % self) def _swig_setattr(self, class_type, name, value): return _swig_setattr_nondynamic(self, class_type, name, value, 0) def _swig_getattr(self, class_type, name): if (name == "thisown"): return self.this.own() method = class_type.__swig_getmethods__.get(name, None) if method: return method(self) raise AttributeError("'%s' object has no attribute '%s'" % (class_type.__name__, name)) def _swig_repr(self): try: strthis = "proxy of " + self.this.__repr__() except __builtin__.Exception: strthis = "" return "<%s.%s; %s >" % (self.__class__.__module__, self.__class__.__name__, strthis,) try: _object = object _newclass = 1 except __builtin__.Exception: class _object: pass _newclass = 0 class SwigPyIterator(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SwigPyIterator, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SwigPyIterator, name) def __init__(self, *args, **kwargs): raise AttributeError("No constructor defined - class is abstract") __repr__ = _swig_repr __swig_destroy__ = _libsbol.delete_SwigPyIterator __del__ = lambda self: None def value(self): return _libsbol.SwigPyIterator_value(self) def incr(self, n=1): return _libsbol.SwigPyIterator_incr(self, n) def decr(self, n=1): return _libsbol.SwigPyIterator_decr(self, n) def distance(self, x): return _libsbol.SwigPyIterator_distance(self, x) def equal(self, x): return _libsbol.SwigPyIterator_equal(self, x) def copy(self): return _libsbol.SwigPyIterator_copy(self) def next(self): return _libsbol.SwigPyIterator_next(self) def __next__(self): return _libsbol.SwigPyIterator___next__(self) def previous(self): return _libsbol.SwigPyIterator_previous(self) def advance(self, n): return _libsbol.SwigPyIterator_advance(self, n) def __eq__(self, x): return _libsbol.SwigPyIterator___eq__(self, x) def __ne__(self, x): return _libsbol.SwigPyIterator___ne__(self, x) def __iadd__(self, n): return _libsbol.SwigPyIterator___iadd__(self, n) def __isub__(self, n): return _libsbol.SwigPyIterator___isub__(self, n) def __add__(self, n): return _libsbol.SwigPyIterator___add__(self, n) def __sub__(self, *args): return _libsbol.SwigPyIterator___sub__(self, *args) def __iter__(self): return self SwigPyIterator_swigregister = _libsbol.SwigPyIterator_swigregister SwigPyIterator_swigregister(SwigPyIterator) class _IntVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, _IntVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, _IntVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol._IntVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol._IntVector___nonzero__(self) def __bool__(self): return _libsbol._IntVector___bool__(self) def __len__(self): return _libsbol._IntVector___len__(self) def __getslice__(self, i, j): return _libsbol._IntVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol._IntVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol._IntVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol._IntVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol._IntVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol._IntVector___setitem__(self, *args) def pop(self): return _libsbol._IntVector_pop(self) def append(self, x): return _libsbol._IntVector_append(self, x) def empty(self): return _libsbol._IntVector_empty(self) def size(self): return _libsbol._IntVector_size(self) def swap(self, v): return _libsbol._IntVector_swap(self, v) def begin(self): return _libsbol._IntVector_begin(self) def end(self): return _libsbol._IntVector_end(self) def rbegin(self): return _libsbol._IntVector_rbegin(self) def rend(self): return _libsbol._IntVector_rend(self) def clear(self): return _libsbol._IntVector_clear(self) def get_allocator(self): return _libsbol._IntVector_get_allocator(self) def pop_back(self): return _libsbol._IntVector_pop_back(self) def erase(self, *args): return _libsbol._IntVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new__IntVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol._IntVector_push_back(self, x) def front(self): return _libsbol._IntVector_front(self) def back(self): return _libsbol._IntVector_back(self) def assign(self, n, x): return _libsbol._IntVector_assign(self, n, x) def resize(self, *args): return _libsbol._IntVector_resize(self, *args) def insert(self, *args): return _libsbol._IntVector_insert(self, *args) def reserve(self, n): return _libsbol._IntVector_reserve(self, n) def capacity(self): return _libsbol._IntVector_capacity(self) __swig_destroy__ = _libsbol.delete__IntVector __del__ = lambda self: None _IntVector_swigregister = _libsbol._IntVector_swigregister _IntVector_swigregister(_IntVector) class _StringVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, _StringVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, _StringVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol._StringVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol._StringVector___nonzero__(self) def __bool__(self): return _libsbol._StringVector___bool__(self) def __len__(self): return _libsbol._StringVector___len__(self) def __getslice__(self, i, j): return _libsbol._StringVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol._StringVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol._StringVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol._StringVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol._StringVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol._StringVector___setitem__(self, *args) def pop(self): return _libsbol._StringVector_pop(self) def append(self, x): return _libsbol._StringVector_append(self, x) def empty(self): return _libsbol._StringVector_empty(self) def size(self): return _libsbol._StringVector_size(self) def swap(self, v): return _libsbol._StringVector_swap(self, v) def begin(self): return _libsbol._StringVector_begin(self) def end(self): return _libsbol._StringVector_end(self) def rbegin(self): return _libsbol._StringVector_rbegin(self) def rend(self): return _libsbol._StringVector_rend(self) def clear(self): return _libsbol._StringVector_clear(self) def get_allocator(self): return _libsbol._StringVector_get_allocator(self) def pop_back(self): return _libsbol._StringVector_pop_back(self) def erase(self, *args): return _libsbol._StringVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new__StringVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol._StringVector_push_back(self, x) def front(self): return _libsbol._StringVector_front(self) def back(self): return _libsbol._StringVector_back(self) def assign(self, n, x): return _libsbol._StringVector_assign(self, n, x) def resize(self, *args): return _libsbol._StringVector_resize(self, *args) def insert(self, *args): return _libsbol._StringVector_insert(self, *args) def reserve(self, n): return _libsbol._StringVector_reserve(self, n) def capacity(self): return _libsbol._StringVector_capacity(self) __swig_destroy__ = _libsbol.delete__StringVector __del__ = lambda self: None _StringVector_swigregister = _libsbol._StringVector_swigregister _StringVector_swigregister(_StringVector) class _SBOLObjectVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, _SBOLObjectVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, _SBOLObjectVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol._SBOLObjectVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol._SBOLObjectVector___nonzero__(self) def __bool__(self): return _libsbol._SBOLObjectVector___bool__(self) def __len__(self): return _libsbol._SBOLObjectVector___len__(self) def __getslice__(self, i, j): return _libsbol._SBOLObjectVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol._SBOLObjectVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol._SBOLObjectVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol._SBOLObjectVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol._SBOLObjectVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol._SBOLObjectVector___setitem__(self, *args) def pop(self): return _libsbol._SBOLObjectVector_pop(self) def append(self, x): return _libsbol._SBOLObjectVector_append(self, x) def empty(self): return _libsbol._SBOLObjectVector_empty(self) def size(self): return _libsbol._SBOLObjectVector_size(self) def swap(self, v): return _libsbol._SBOLObjectVector_swap(self, v) def begin(self): return _libsbol._SBOLObjectVector_begin(self) def end(self): return _libsbol._SBOLObjectVector_end(self) def rbegin(self): return _libsbol._SBOLObjectVector_rbegin(self) def rend(self): return _libsbol._SBOLObjectVector_rend(self) def clear(self): return _libsbol._SBOLObjectVector_clear(self) def get_allocator(self): return _libsbol._SBOLObjectVector_get_allocator(self) def pop_back(self): return _libsbol._SBOLObjectVector_pop_back(self) def erase(self, *args): return _libsbol._SBOLObjectVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new__SBOLObjectVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol._SBOLObjectVector_push_back(self, x) def front(self): return _libsbol._SBOLObjectVector_front(self) def back(self): return _libsbol._SBOLObjectVector_back(self) def assign(self, n, x): return _libsbol._SBOLObjectVector_assign(self, n, x) def resize(self, *args): return _libsbol._SBOLObjectVector_resize(self, *args) def insert(self, *args): return _libsbol._SBOLObjectVector_insert(self, *args) def reserve(self, n): return _libsbol._SBOLObjectVector_reserve(self, n) def capacity(self): return _libsbol._SBOLObjectVector_capacity(self) __swig_destroy__ = _libsbol.delete__SBOLObjectVector __del__ = lambda self: None _SBOLObjectVector_swigregister = _libsbol._SBOLObjectVector_swigregister _SBOLObjectVector_swigregister(_SBOLObjectVector) class _MapVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, _MapVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, _MapVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol._MapVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol._MapVector___nonzero__(self) def __bool__(self): return _libsbol._MapVector___bool__(self) def __len__(self): return _libsbol._MapVector___len__(self) def __iter__(self): return self.key_iterator() def iterkeys(self): return self.key_iterator() def itervalues(self): return self.value_iterator() def iteritems(self): return self.iterator() def __getitem__(self, key): return _libsbol._MapVector___getitem__(self, key) def __delitem__(self, key): return _libsbol._MapVector___delitem__(self, key) def has_key(self, key): return _libsbol._MapVector_has_key(self, key) def keys(self): return _libsbol._MapVector_keys(self) def values(self): return _libsbol._MapVector_values(self) def items(self): return _libsbol._MapVector_items(self) def __contains__(self, key): return _libsbol._MapVector___contains__(self, key) def key_iterator(self): return _libsbol._MapVector_key_iterator(self) def value_iterator(self): return _libsbol._MapVector_value_iterator(self) def __setitem__(self, *args): return _libsbol._MapVector___setitem__(self, *args) def asdict(self): return _libsbol._MapVector_asdict(self) def __init__(self, *args): this = _libsbol.new__MapVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def empty(self): return _libsbol._MapVector_empty(self) def size(self): return _libsbol._MapVector_size(self) def swap(self, v): return _libsbol._MapVector_swap(self, v) def begin(self): return _libsbol._MapVector_begin(self) def end(self): return _libsbol._MapVector_end(self) def rbegin(self): return _libsbol._MapVector_rbegin(self) def rend(self): return _libsbol._MapVector_rend(self) def clear(self): return _libsbol._MapVector_clear(self) def get_allocator(self): return _libsbol._MapVector_get_allocator(self) def count(self, x): return _libsbol._MapVector_count(self, x) def erase(self, *args): return _libsbol._MapVector_erase(self, *args) def find(self, x): return _libsbol._MapVector_find(self, x) def lower_bound(self, x): return _libsbol._MapVector_lower_bound(self, x) def upper_bound(self, x): return _libsbol._MapVector_upper_bound(self, x) __swig_destroy__ = _libsbol.delete__MapVector __del__ = lambda self: None _MapVector_swigregister = _libsbol._MapVector_swigregister _MapVector_swigregister(_MapVector) class _MapOfStringVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, _MapOfStringVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, _MapOfStringVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol._MapOfStringVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol._MapOfStringVector___nonzero__(self) def __bool__(self): return _libsbol._MapOfStringVector___bool__(self) def __len__(self): return _libsbol._MapOfStringVector___len__(self) def __iter__(self): return self.key_iterator() def iterkeys(self): return self.key_iterator() def itervalues(self): return self.value_iterator() def iteritems(self): return self.iterator() def __getitem__(self, key): return _libsbol._MapOfStringVector___getitem__(self, key) def __delitem__(self, key): return _libsbol._MapOfStringVector___delitem__(self, key) def has_key(self, key): return _libsbol._MapOfStringVector_has_key(self, key) def keys(self): return _libsbol._MapOfStringVector_keys(self) def values(self): return _libsbol._MapOfStringVector_values(self) def items(self): return _libsbol._MapOfStringVector_items(self) def __contains__(self, key): return _libsbol._MapOfStringVector___contains__(self, key) def key_iterator(self): return _libsbol._MapOfStringVector_key_iterator(self) def value_iterator(self): return _libsbol._MapOfStringVector_value_iterator(self) def __setitem__(self, *args): return _libsbol._MapOfStringVector___setitem__(self, *args) def asdict(self): return _libsbol._MapOfStringVector_asdict(self) def __init__(self, *args): this = _libsbol.new__MapOfStringVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def empty(self): return _libsbol._MapOfStringVector_empty(self) def size(self): return _libsbol._MapOfStringVector_size(self) def swap(self, v): return _libsbol._MapOfStringVector_swap(self, v) def begin(self): return _libsbol._MapOfStringVector_begin(self) def end(self): return _libsbol._MapOfStringVector_end(self) def rbegin(self): return _libsbol._MapOfStringVector_rbegin(self) def rend(self): return _libsbol._MapOfStringVector_rend(self) def clear(self): return _libsbol._MapOfStringVector_clear(self) def get_allocator(self): return _libsbol._MapOfStringVector_get_allocator(self) def count(self, x): return _libsbol._MapOfStringVector_count(self, x) def erase(self, *args): return _libsbol._MapOfStringVector_erase(self, *args) def find(self, x): return _libsbol._MapOfStringVector_find(self, x) def lower_bound(self, x): return _libsbol._MapOfStringVector_lower_bound(self, x) def upper_bound(self, x): return _libsbol._MapOfStringVector_upper_bound(self, x) __swig_destroy__ = _libsbol.delete__MapOfStringVector __del__ = lambda self: None _MapOfStringVector_swigregister = _libsbol._MapOfStringVector_swigregister _MapOfStringVector_swigregister(_MapOfStringVector) class _MapOfSBOLObject(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, _MapOfSBOLObject, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, _MapOfSBOLObject, name) __repr__ = _swig_repr def iterator(self): return _libsbol._MapOfSBOLObject_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol._MapOfSBOLObject___nonzero__(self) def __bool__(self): return _libsbol._MapOfSBOLObject___bool__(self) def __len__(self): return _libsbol._MapOfSBOLObject___len__(self) def __iter__(self): return self.key_iterator() def iterkeys(self): return self.key_iterator() def itervalues(self): return self.value_iterator() def iteritems(self): return self.iterator() def __getitem__(self, key): return _libsbol._MapOfSBOLObject___getitem__(self, key) def __delitem__(self, key): return _libsbol._MapOfSBOLObject___delitem__(self, key) def has_key(self, key): return _libsbol._MapOfSBOLObject_has_key(self, key) def keys(self): return _libsbol._MapOfSBOLObject_keys(self) def values(self): return _libsbol._MapOfSBOLObject_values(self) def items(self): return _libsbol._MapOfSBOLObject_items(self) def __contains__(self, key): return _libsbol._MapOfSBOLObject___contains__(self, key) def key_iterator(self): return _libsbol._MapOfSBOLObject_key_iterator(self) def value_iterator(self): return _libsbol._MapOfSBOLObject_value_iterator(self) def __setitem__(self, *args): return _libsbol._MapOfSBOLObject___setitem__(self, *args) def asdict(self): return _libsbol._MapOfSBOLObject_asdict(self) def __init__(self, *args): this = _libsbol.new__MapOfSBOLObject(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def empty(self): return _libsbol._MapOfSBOLObject_empty(self) def size(self): return _libsbol._MapOfSBOLObject_size(self) def swap(self, v): return _libsbol._MapOfSBOLObject_swap(self, v) def begin(self): return _libsbol._MapOfSBOLObject_begin(self) def end(self): return _libsbol._MapOfSBOLObject_end(self) def rbegin(self): return _libsbol._MapOfSBOLObject_rbegin(self) def rend(self): return _libsbol._MapOfSBOLObject_rend(self) def clear(self): return _libsbol._MapOfSBOLObject_clear(self) def get_allocator(self): return _libsbol._MapOfSBOLObject_get_allocator(self) def count(self, x): return _libsbol._MapOfSBOLObject_count(self, x) def erase(self, *args): return _libsbol._MapOfSBOLObject_erase(self, *args) def find(self, x): return _libsbol._MapOfSBOLObject_find(self, x) def lower_bound(self, x): return _libsbol._MapOfSBOLObject_lower_bound(self, x) def upper_bound(self, x): return _libsbol._MapOfSBOLObject_upper_bound(self, x) __swig_destroy__ = _libsbol.delete__MapOfSBOLObject __del__ = lambda self: None _MapOfSBOLObject_swigregister = _libsbol._MapOfSBOLObject_swigregister _MapOfSBOLObject_swigregister(_MapOfSBOLObject) class Config(_object): """ A class which contains global configuration variables for the libSBOL environment. Intended to be used like a static class, configuration variables are accessed through the `Config' object. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, Config, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, Config, name) __repr__ = _swig_repr def __init__(self): """ """ this = _libsbol.new_Config() try: self.this.append(this) except __builtin__.Exception: self.this = this def setHomespace(self, ns): return _libsbol.Config_setHomespace(self, ns) def getHomespace(self): return _libsbol.Config_getHomespace(self) def hasHomespace(self): return _libsbol.Config_hasHomespace(self) def setFileFormat(self, file_format): return _libsbol.Config_setFileFormat(self, file_format) def getFileFormat(self): return _libsbol.Config_getFileFormat(self) def setOption(*args): """ Configure options for online validation and conversion Option Description Values validate Enable validation and conversion requests through the online validator True or False validatorURL The http request endpoint for validation A valid URL, set to http://www.async.ece.utah.edu/sbol-validator/endpoint.php by default output File format for conversion SBOL2, SBOL1, FASTA, GenBank diff Report differences between two files True or False noncompliantUrisAllowed If set to false, URIs in the file will not be checked for compliance with the SBOL specification True or False incompleteDocumentsAllowed If set to false, not all referenced objects must be described within the given main_file True or False bestPracticesCheck If set to true, the file is checked for the best practice rules set in the SBOL specification True or False failOnFirstError If set to true, the validator will fail at the first error True or False displayFullErrorStackTrace If set to true (and failOnFirstError is true) the validator will provide a stack trace for the first validation error True or False topLevelToConvert uriPrefix Required for conversion from FASTA and GenBank to SBOL1 or SBOL2, used to generate URIs True or False version Adds the version to all URIs and to the document A valid Maven version string wantFileBack Whether or not to return the file contents as a string True or False Parameters ---------- * `option` : The option key * `value` : The option value """ return _libsbol.Config_setOption(*args) setOption = staticmethod(setOption) def getOption(option): """ Get current option value for online validation and conversion. Parameters ---------- * `option` : The option key """ return _libsbol.Config_getOption(option) getOption = staticmethod(getOption) if _newclass: register_extension_class = staticmethod(_libsbol.Config_register_extension_class) else: register_extension_class = _libsbol.Config_register_extension_class __swig_destroy__ = _libsbol.delete_Config __del__ = lambda self: None Config_swigregister = _libsbol.Config_swigregister Config_swigregister(Config) def Config_setOption(*args): """ Configure options for online validation and conversion Option Description Values validate Enable validation and conversion requests through the online validator True or False validatorURL The http request endpoint for validation A valid URL, set to http://www.async.ece.utah.edu/sbol-validator/endpoint.php by default output File format for conversion SBOL2, SBOL1, FASTA, GenBank diff Report differences between two files True or False noncompliantUrisAllowed If set to false, URIs in the file will not be checked for compliance with the SBOL specification True or False incompleteDocumentsAllowed If set to false, not all referenced objects must be described within the given main_file True or False bestPracticesCheck If set to true, the file is checked for the best practice rules set in the SBOL specification True or False failOnFirstError If set to true, the validator will fail at the first error True or False displayFullErrorStackTrace If set to true (and failOnFirstError is true) the validator will provide a stack trace for the first validation error True or False topLevelToConvert uriPrefix Required for conversion from FASTA and GenBank to SBOL1 or SBOL2, used to generate URIs True or False version Adds the version to all URIs and to the document A valid Maven version string wantFileBack Whether or not to return the file contents as a string True or False Parameters ---------- * `option` : The option key * `value` : The option value """ return _libsbol.Config_setOption(*args) def Config_getOption(option): """ Get current option value for online validation and conversion. Parameters ---------- * `option` : The option key """ return _libsbol.Config_getOption(option) def Config_register_extension_class(python_class, extension_name): return _libsbol.Config_register_extension_class(python_class, extension_name) Config_register_extension_class = _libsbol.Config_register_extension_class def setHomespace(ns): """ Sets the default namespace for autocreation of URIs when a new SBOL object is created. Parameters ---------- * `ns`: Homespace """ return _libsbol.setHomespace(ns) def getHomespace(): """ Returns the current default namespace for autocreation of URIs when a new SBOL object is created. """ return _libsbol.getHomespace() def hasHomespace(): """ Checks if a valid default namespace has been defined. """ return _libsbol.hasHomespace() def setFileFormat(file_format): """ Sets file format to use. """ return _libsbol.setFileFormat(file_format) def getFileFormat(): """ Returns currently accepted file format. """ return _libsbol.getFileFormat() def randomIdentifier(): return _libsbol.randomIdentifier() randomIdentifier = _libsbol.randomIdentifier def autoconstructURI(): return _libsbol.autoconstructURI() autoconstructURI = _libsbol.autoconstructURI def constructNonCompliantURI(uri): return _libsbol.constructNonCompliantURI(uri) constructNonCompliantURI = _libsbol.constructNonCompliantURI def constructCompliantURI(*args): return _libsbol.constructCompliantURI(*args) constructCompliantURI = _libsbol.constructCompliantURI def getCompliantURI(uri_prefix, sbol_class_name, display_id, version): return _libsbol.getCompliantURI(uri_prefix, sbol_class_name, display_id, version) getCompliantURI = _libsbol.getCompliantURI def parseClassName(uri): return _libsbol.parseClassName(uri) parseClassName = _libsbol.parseClassName def parsePropertyName(uri): return _libsbol.parsePropertyName(uri) parsePropertyName = _libsbol.parsePropertyName def parseNamespace(uri): return _libsbol.parseNamespace(uri) parseNamespace = _libsbol.parseNamespace def parseURLDomain(url): return _libsbol.parseURLDomain(url) parseURLDomain = _libsbol.parseURLDomain def getTime(): return _libsbol.getTime() getTime = _libsbol.getTime def CurlWrite_CallbackFunc_StdString(contents, size, nmemb, s): return _libsbol.CurlWrite_CallbackFunc_StdString(contents, size, nmemb, s) CurlWrite_CallbackFunc_StdString = _libsbol.CurlWrite_CallbackFunc_StdString def CurlResponseHeader_CallbackFunc(buffer, size, nitems, userdata): return _libsbol.CurlResponseHeader_CallbackFunc(buffer, size, nitems, userdata) CurlResponseHeader_CallbackFunc = _libsbol.CurlResponseHeader_CallbackFunc DEFAULT_NS = _libsbol.DEFAULT_NS SBOL_URI = _libsbol.SBOL_URI RDF_URI = _libsbol.RDF_URI PURL_URI = _libsbol.PURL_URI PROV_URI = _libsbol.PROV_URI PROVO = _libsbol.PROVO SYSBIO_URI = _libsbol.SYSBIO_URI NODENAME_ABOUT = _libsbol.NODENAME_ABOUT NODENAME_RESOURCE = _libsbol.NODENAME_RESOURCE VERSION_STRING = _libsbol.VERSION_STRING SBOL_DOCUMENT = _libsbol.SBOL_DOCUMENT SBOL_IDENTIFIED = _libsbol.SBOL_IDENTIFIED SBOL_DOCUMENTED = _libsbol.SBOL_DOCUMENTED SBOL_TOP_LEVEL = _libsbol.SBOL_TOP_LEVEL SBOL_GENERIC_TOP_LEVEL = _libsbol.SBOL_GENERIC_TOP_LEVEL SBOL_SEQUENCE_ANNOTATION = _libsbol.SBOL_SEQUENCE_ANNOTATION SBOL_COMPONENT = _libsbol.SBOL_COMPONENT SBOL_FUNCTIONAL_COMPONENT = _libsbol.SBOL_FUNCTIONAL_COMPONENT SBOL_COMPONENT_DEFINITION = _libsbol.SBOL_COMPONENT_DEFINITION SBOL_SEQUENCE = _libsbol.SBOL_SEQUENCE SBOL_MODULE_DEFINITION = _libsbol.SBOL_MODULE_DEFINITION SBOL_MODULE = _libsbol.SBOL_MODULE SBOL_MODEL = _libsbol.SBOL_MODEL SBOL_MAPS_TO = _libsbol.SBOL_MAPS_TO SBOL_INTERACTION = _libsbol.SBOL_INTERACTION SBOL_PARTICIPATION = _libsbol.SBOL_PARTICIPATION SBOL_SEQUENCE_CONSTRAINT = _libsbol.SBOL_SEQUENCE_CONSTRAINT SBOL_LOCATION = _libsbol.SBOL_LOCATION SBOL_RANGE = _libsbol.SBOL_RANGE SBOL_CUT = _libsbol.SBOL_CUT SBOL_COLLECTION = _libsbol.SBOL_COLLECTION SBOL_GENERIC_LOCATION = _libsbol.SBOL_GENERIC_LOCATION SBOL_VARIABLE_COMPONENT = _libsbol.SBOL_VARIABLE_COMPONENT SBOL_COMBINATORIAL_DERIVATION = _libsbol.SBOL_COMBINATORIAL_DERIVATION SBOL_ATTACHMENT = _libsbol.SBOL_ATTACHMENT SBOL_IMPLEMENTATION = _libsbol.SBOL_IMPLEMENTATION UNDEFINED = _libsbol.UNDEFINED SBOL_IDENTITY = _libsbol.SBOL_IDENTITY SBOL_PERSISTENT_IDENTITY = _libsbol.SBOL_PERSISTENT_IDENTITY SBOL_VERSION = _libsbol.SBOL_VERSION SBOL_DISPLAY_ID = _libsbol.SBOL_DISPLAY_ID SBOL_NAME = _libsbol.SBOL_NAME SBOL_DESCRIPTION = _libsbol.SBOL_DESCRIPTION SBOL_TYPES = _libsbol.SBOL_TYPES SBOL_START = _libsbol.SBOL_START SBOL_END = _libsbol.SBOL_END SBOL_SEQUENCE_ANNOTATIONS = _libsbol.SBOL_SEQUENCE_ANNOTATIONS SBOL_COMPONENTS = _libsbol.SBOL_COMPONENTS SBOL_COMPONENT_PROPERTY = _libsbol.SBOL_COMPONENT_PROPERTY SBOL_ROLES = _libsbol.SBOL_ROLES SBOL_ELEMENTS = _libsbol.SBOL_ELEMENTS SBOL_ENCODING = _libsbol.SBOL_ENCODING SBOL_SEQUENCE_PROPERTY = _libsbol.SBOL_SEQUENCE_PROPERTY SBOL_WAS_DERIVED_FROM = _libsbol.SBOL_WAS_DERIVED_FROM SBOL_DEFINITION = _libsbol.SBOL_DEFINITION SBOL_ACCESS = _libsbol.SBOL_ACCESS SBOL_DIRECTION = _libsbol.SBOL_DIRECTION SBOL_MODELS = _libsbol.SBOL_MODELS SBOL_MODULES = _libsbol.SBOL_MODULES SBOL_FUNCTIONAL_COMPONENTS = _libsbol.SBOL_FUNCTIONAL_COMPONENTS SBOL_INTERACTIONS = _libsbol.SBOL_INTERACTIONS SBOL_MAPS_TOS = _libsbol.SBOL_MAPS_TOS SBOL_PARTICIPATIONS = _libsbol.SBOL_PARTICIPATIONS SBOL_PARTICIPANT = _libsbol.SBOL_PARTICIPANT SBOL_LOCAL = _libsbol.SBOL_LOCAL SBOL_REMOTE = _libsbol.SBOL_REMOTE SBOL_REFINEMENT = _libsbol.SBOL_REFINEMENT SBOL_SOURCE = _libsbol.SBOL_SOURCE SBOL_LANGUAGE = _libsbol.SBOL_LANGUAGE SBOL_FRAMEWORK = _libsbol.SBOL_FRAMEWORK SBOL_SEQUENCE_CONSTRAINTS = _libsbol.SBOL_SEQUENCE_CONSTRAINTS SBOL_SUBJECT = _libsbol.SBOL_SUBJECT SBOL_OBJECT = _libsbol.SBOL_OBJECT SBOL_RESTRICTION = _libsbol.SBOL_RESTRICTION SBOL_ORIENTATION = _libsbol.SBOL_ORIENTATION SBOL_LOCATIONS = _libsbol.SBOL_LOCATIONS SBOL_ROLE_INTEGRATION = _libsbol.SBOL_ROLE_INTEGRATION SBOL_MEMBERS = _libsbol.SBOL_MEMBERS SBOL_AT = _libsbol.SBOL_AT SBOL_OPERATOR = _libsbol.SBOL_OPERATOR SBOL_VARIABLE_COMPONENTS = _libsbol.SBOL_VARIABLE_COMPONENTS SBOL_VARIABLE = _libsbol.SBOL_VARIABLE SBOL_VARIANTS = _libsbol.SBOL_VARIANTS SBOL_VARIANT_COLLECTIONS = _libsbol.SBOL_VARIANT_COLLECTIONS SBOL_VARIANT_DERIVATIONS = _libsbol.SBOL_VARIANT_DERIVATIONS SBOL_STRATEGY = _libsbol.SBOL_STRATEGY SBOL_TEMPLATE = _libsbol.SBOL_TEMPLATE SBOL_ATTACHMENTS = _libsbol.SBOL_ATTACHMENTS SBOL_ACCESS_PRIVATE = _libsbol.SBOL_ACCESS_PRIVATE SBOL_ACCESS_PUBLIC = _libsbol.SBOL_ACCESS_PUBLIC SBOL_DIRECTION_IN = _libsbol.SBOL_DIRECTION_IN SBOL_DIRECTION_OUT = _libsbol.SBOL_DIRECTION_OUT SBOL_DIRECTION_IN_OUT = _libsbol.SBOL_DIRECTION_IN_OUT SBOL_DIRECTION_NONE = _libsbol.SBOL_DIRECTION_NONE SBOL_RESTRICTION_PRECEDES = _libsbol.SBOL_RESTRICTION_PRECEDES SBOL_RESTRICTION_SAME_ORIENTATION_AS = _libsbol.SBOL_RESTRICTION_SAME_ORIENTATION_AS SBOL_RESTRICTION_OPPOSITE_ORIENTATION_AS = _libsbol.SBOL_RESTRICTION_OPPOSITE_ORIENTATION_AS SBOL_ENCODING_IUPAC = _libsbol.SBOL_ENCODING_IUPAC SBOL_ENCODING_IUPAC_PROTEIN = _libsbol.SBOL_ENCODING_IUPAC_PROTEIN SBOL_ENCODING_SMILES = _libsbol.SBOL_ENCODING_SMILES SBOL_ORIENTATION_INLINE = _libsbol.SBOL_ORIENTATION_INLINE SBOL_ORIENTATION_REVERSE_COMPLEMENT = _libsbol.SBOL_ORIENTATION_REVERSE_COMPLEMENT SBOL_REFINEMENT_USE_REMOTE = _libsbol.SBOL_REFINEMENT_USE_REMOTE SBOL_REFINEMENT_USE_LOCAL = _libsbol.SBOL_REFINEMENT_USE_LOCAL SBOL_REFINEMENT_VERIFY_IDENTICAL = _libsbol.SBOL_REFINEMENT_VERIFY_IDENTICAL SBOL_REFINEMENT_MERGE = _libsbol.SBOL_REFINEMENT_MERGE SBOL_ROLE_INTEGRATION_MERGE = _libsbol.SBOL_ROLE_INTEGRATION_MERGE SBOL_ROLE_INTEGRATION_OVERRIDE = _libsbol.SBOL_ROLE_INTEGRATION_OVERRIDE SBOL_DESIGN = _libsbol.SBOL_DESIGN SBOL_BUILD = _libsbol.SBOL_BUILD SBOL_TEST = _libsbol.SBOL_TEST SBOL_LEARN = _libsbol.SBOL_LEARN PROVO_ACTIVITY = _libsbol.PROVO_ACTIVITY PROVO_USAGE = _libsbol.PROVO_USAGE PROVO_ASSOCIATION = _libsbol.PROVO_ASSOCIATION PROVO_AGENT = _libsbol.PROVO_AGENT PROVO_PLAN = _libsbol.PROVO_PLAN PROVO_WAS_GENERATED_BY = _libsbol.PROVO_WAS_GENERATED_BY PROVO_STARTED_AT_TIME = _libsbol.PROVO_STARTED_AT_TIME PROVO_ENDED_AT_TIME = _libsbol.PROVO_ENDED_AT_TIME PROVO_QUALIFIED_ASSOCIATION = _libsbol.PROVO_QUALIFIED_ASSOCIATION PROVO_QUALIFIED_USAGE = _libsbol.PROVO_QUALIFIED_USAGE PROVO_WAS_INFORMED_BY = _libsbol.PROVO_WAS_INFORMED_BY PROVO_HAD_PLAN = _libsbol.PROVO_HAD_PLAN PROVO_HAD_ROLE = _libsbol.PROVO_HAD_ROLE PROVO_AGENT_PROPERTY = _libsbol.PROVO_AGENT_PROPERTY PROVO_ENTITY = _libsbol.PROVO_ENTITY SBO = _libsbol.SBO SBO_INTERACTION = _libsbol.SBO_INTERACTION SBO_INHIBITION = _libsbol.SBO_INHIBITION SBO_GENETIC_PRODUCTION = _libsbol.SBO_GENETIC_PRODUCTION SBO_NONCOVALENT_BINDING = _libsbol.SBO_NONCOVALENT_BINDING SBO_STIMULATION = _libsbol.SBO_STIMULATION SBO_DEGRADATION = _libsbol.SBO_DEGRADATION SBO_CONTROL = _libsbol.SBO_CONTROL SBO_BIOCHEMICAL_REACTION = _libsbol.SBO_BIOCHEMICAL_REACTION SBO_STIMULATED = _libsbol.SBO_STIMULATED SBO_CONVERSION = _libsbol.SBO_CONVERSION SBO_PROMOTER = _libsbol.SBO_PROMOTER SBO_GENE = _libsbol.SBO_GENE SBO_INHIBITOR = _libsbol.SBO_INHIBITOR SBO_INHIBITED = _libsbol.SBO_INHIBITED SBO_STIMULATOR = _libsbol.SBO_STIMULATOR SBO_REACTANT = _libsbol.SBO_REACTANT SBO_PRODUCT = _libsbol.SBO_PRODUCT SBO_LIGAND = _libsbol.SBO_LIGAND SBO_NONCOVALENT_COMPLEX = _libsbol.SBO_NONCOVALENT_COMPLEX SBO_BINDING_SITE = _libsbol.SBO_BINDING_SITE SBO_SUBSTRATE = _libsbol.SBO_SUBSTRATE SBO_COFACTOR = _libsbol.SBO_COFACTOR SBO_SIDEPRODUCT = _libsbol.SBO_SIDEPRODUCT SBO_ENZYME = _libsbol.SBO_ENZYME SO = _libsbol.SO SO_MISC = _libsbol.SO_MISC SO_GENE = _libsbol.SO_GENE SO_PROMOTER = _libsbol.SO_PROMOTER SO_CDS = _libsbol.SO_CDS SO_RBS = _libsbol.SO_RBS SO_TERMINATOR = _libsbol.SO_TERMINATOR SO_SGRNA = _libsbol.SO_SGRNA SO_LINEAR = _libsbol.SO_LINEAR SO_CIRCULAR = _libsbol.SO_CIRCULAR SO_PLASMID = _libsbol.SO_PLASMID BIOPAX_DNA = _libsbol.BIOPAX_DNA BIOPAX_RNA = _libsbol.BIOPAX_RNA BIOPAX_PROTEIN = _libsbol.BIOPAX_PROTEIN BIOPAX_SMALL_MOLECULE = _libsbol.BIOPAX_SMALL_MOLECULE BIOPAX_COMPLEX = _libsbol.BIOPAX_COMPLEX EDAM_SBML = _libsbol.EDAM_SBML EDAM_CELLML = _libsbol.EDAM_CELLML EDAM_BIOPAX = _libsbol.EDAM_BIOPAX SBO_CONTINUOUS = _libsbol.SBO_CONTINUOUS SBO_DISCRETE = _libsbol.SBO_DISCRETE SYSBIO_DESIGN = _libsbol.SYSBIO_DESIGN SYSBIO_BUILD = _libsbol.SYSBIO_BUILD SYSBIO_TEST = _libsbol.SYSBIO_TEST SYSBIO_ANALYSIS = _libsbol.SYSBIO_ANALYSIS SYSBIO_SAMPLE_ROSTER = _libsbol.SYSBIO_SAMPLE_ROSTER IGEM_URI = _libsbol.IGEM_URI IGEM_STANDARD_ASSEMBLY = _libsbol.IGEM_STANDARD_ASSEMBLY def sbolRule10101(sbol_obj, arg): return _libsbol.sbolRule10101(sbol_obj, arg) sbolRule10101 = _libsbol.sbolRule10101 def sbolRule10102(sbol_obj, arg): return _libsbol.sbolRule10102(sbol_obj, arg) sbolRule10102 = _libsbol.sbolRule10102 def sbol_rule_10202(sbol_obj, arg): return _libsbol.sbol_rule_10202(sbol_obj, arg) sbol_rule_10202 = _libsbol.sbol_rule_10202 def sbol_rule_10204(sbol_obj, arg): return _libsbol.sbol_rule_10204(sbol_obj, arg) sbol_rule_10204 = _libsbol.sbol_rule_10204 def libsbol_rule_1(sbol_obj, arg): return _libsbol.libsbol_rule_1(sbol_obj, arg) libsbol_rule_1 = _libsbol.libsbol_rule_1 def libsbol_rule_2(sbol_obj, arg): return _libsbol.libsbol_rule_2(sbol_obj, arg) libsbol_rule_2 = _libsbol.libsbol_rule_2 def libsbol_rule_3(sbol_obj, arg): return _libsbol.libsbol_rule_3(sbol_obj, arg) libsbol_rule_3 = _libsbol.libsbol_rule_3 def libsbol_rule_4(sbol_obj, arg): return _libsbol.libsbol_rule_4(sbol_obj, arg) libsbol_rule_4 = _libsbol.libsbol_rule_4 def libsbol_rule_5(sbol_obj, arg): return _libsbol.libsbol_rule_5(sbol_obj, arg) libsbol_rule_5 = _libsbol.libsbol_rule_5 def libsbol_rule_6(sbol_obj, arg): return _libsbol.libsbol_rule_6(sbol_obj, arg) libsbol_rule_6 = _libsbol.libsbol_rule_6 def libsbol_rule_7(sbol_obj, arg): return _libsbol.libsbol_rule_7(sbol_obj, arg) libsbol_rule_7 = _libsbol.libsbol_rule_7 def libsbol_rule_8(sbol_obj, arg): return _libsbol.libsbol_rule_8(sbol_obj, arg) libsbol_rule_8 = _libsbol.libsbol_rule_8 def libsbol_rule_9(sbol_obj, arg): return _libsbol.libsbol_rule_9(sbol_obj, arg) libsbol_rule_9 = _libsbol.libsbol_rule_9 def libsbol_rule_10(sbol_obj, arg): return _libsbol.libsbol_rule_10(sbol_obj, arg) libsbol_rule_10 = _libsbol.libsbol_rule_10 def libsbol_rule_11(sbol_obj, arg): return _libsbol.libsbol_rule_11(sbol_obj, arg) libsbol_rule_11 = _libsbol.libsbol_rule_11 def libsbol_rule_12(sbol_obj, arg): return _libsbol.libsbol_rule_12(sbol_obj, arg) libsbol_rule_12 = _libsbol.libsbol_rule_12 def libsbol_rule_13(sbol_obj, arg): return _libsbol.libsbol_rule_13(sbol_obj, arg) libsbol_rule_13 = _libsbol.libsbol_rule_13 def libsbol_rule_14(sbol_obj, arg): return _libsbol.libsbol_rule_14(sbol_obj, arg) libsbol_rule_14 = _libsbol.libsbol_rule_14 def libsbol_rule_15(sbol_obj, arg): return _libsbol.libsbol_rule_15(sbol_obj, arg) libsbol_rule_15 = _libsbol.libsbol_rule_15 def libsbol_rule_16(sbol_obj, arg): return _libsbol.libsbol_rule_16(sbol_obj, arg) libsbol_rule_16 = _libsbol.libsbol_rule_16 def libsbol_rule_17(sbol_obj, arg): return _libsbol.libsbol_rule_17(sbol_obj, arg) libsbol_rule_17 = _libsbol.libsbol_rule_17 def libsbol_rule_18(sbol_obj, arg): return _libsbol.libsbol_rule_18(sbol_obj, arg) libsbol_rule_18 = _libsbol.libsbol_rule_18 def libsbol_rule_19(sbol_obj, arg): return _libsbol.libsbol_rule_19(sbol_obj, arg) libsbol_rule_19 = _libsbol.libsbol_rule_19 def libsbol_rule_20(sbol_obj, arg): return _libsbol.libsbol_rule_20(sbol_obj, arg) libsbol_rule_20 = _libsbol.libsbol_rule_20 def libsbol_rule_21(sbol_obj, arg): return _libsbol.libsbol_rule_21(sbol_obj, arg) libsbol_rule_21 = _libsbol.libsbol_rule_21 def libsbol_rule_22(sbol_obj, arg): return _libsbol.libsbol_rule_22(sbol_obj, arg) libsbol_rule_22 = _libsbol.libsbol_rule_22 def libsbol_rule_24(sbol_obj, arg): return _libsbol.libsbol_rule_24(sbol_obj, arg) libsbol_rule_24 = _libsbol.libsbol_rule_24 def is_alphanumeric_or_underscore(c): return _libsbol.is_alphanumeric_or_underscore(c) is_alphanumeric_or_underscore = _libsbol.is_alphanumeric_or_underscore def is_not_alphanumeric_or_underscore(c): return _libsbol.is_not_alphanumeric_or_underscore(c) is_not_alphanumeric_or_underscore = _libsbol.is_not_alphanumeric_or_underscore class _StringProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, _StringProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, _StringProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new__StringProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete__StringProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol._StringProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol._StringProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ return _libsbol._StringProperty_set(self, *args) def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ return _libsbol._StringProperty_add(self, new_value) def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol._StringProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol._StringProperty_clear(self) def write(self): """ """ return _libsbol._StringProperty_write(self) def find(self, query): return _libsbol._StringProperty_find(self, query) def getLowerBound(self): return _libsbol._StringProperty_getLowerBound(self) def getUpperBound(self): return _libsbol._StringProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol._StringProperty_validate(self, arg) def copy(self, target_property): return _libsbol._StringProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol._StringProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol._StringProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol._StringProperty_python_iter_get, _libsbol._StringProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol._StringProperty_addValidationRule(self, *args) _StringProperty_swigregister = _libsbol._StringProperty_swigregister _StringProperty_swigregister(_StringProperty) class _IntProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, _IntProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, _IntProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new__IntProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete__IntProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol._IntProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol._IntProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ return _libsbol._IntProperty_set(self, *args) def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ return _libsbol._IntProperty_add(self, new_value) def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol._IntProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol._IntProperty_clear(self) def write(self): """ """ return _libsbol._IntProperty_write(self) def find(self, query): return _libsbol._IntProperty_find(self, query) def getLowerBound(self): return _libsbol._IntProperty_getLowerBound(self) def getUpperBound(self): return _libsbol._IntProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol._IntProperty_validate(self, arg) def copy(self, target_property): return _libsbol._IntProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol._IntProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol._IntProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol._IntProperty_python_iter_get, _libsbol._IntProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol._IntProperty_addValidationRule(self, *args) _IntProperty_swigregister = _libsbol._IntProperty_swigregister _IntProperty_swigregister(_IntProperty) class _FloatProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, _FloatProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, _FloatProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new__FloatProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete__FloatProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol._FloatProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol._FloatProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ return _libsbol._FloatProperty_set(self, *args) def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ return _libsbol._FloatProperty_add(self, new_value) def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol._FloatProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol._FloatProperty_clear(self) def write(self): """ """ return _libsbol._FloatProperty_write(self) def find(self, query): return _libsbol._FloatProperty_find(self, query) def getLowerBound(self): return _libsbol._FloatProperty_getLowerBound(self) def getUpperBound(self): return _libsbol._FloatProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol._FloatProperty_validate(self, arg) def copy(self, target_property): return _libsbol._FloatProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol._FloatProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol._FloatProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol._FloatProperty_python_iter_get, _libsbol._FloatProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol._FloatProperty_addValidationRule(self, *args) _FloatProperty_swigregister = _libsbol._FloatProperty_swigregister _FloatProperty_swigregister(_FloatProperty) class URIProperty(_StringProperty): """ A URIProperty may contain a restricted type of string that conforms to the specification for a Uniform Resource Identifier (URI), typically consisting of a namespace authority followed by an identifier. A URIProperty often contains a reference to an SBOL object or may contain an ontology term. """ __swig_setmethods__ = {} for _s in [_StringProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, URIProperty, name, value) __swig_getmethods__ = {} for _s in [_StringProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, URIProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_URIProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def get(self): """ Basic getter for all SBOL literal properties. Returns ------- A string of characters used to identify a resource """ return _libsbol.URIProperty_get(self) def getAll(self): """ Retrieve a vector of objects from the URIProperty. """ val = _libsbol.URIProperty_getAll(self) val = list(val) return val def __getitem__(self, nIndex): return _libsbol.URIProperty___getitem__(self, nIndex) def __iter__(self): return _libsbol.URIProperty___iter__(self) def next(self): return _libsbol.URIProperty_next(self) def __next__(self): return _libsbol.URIProperty___next__(self) def __len__(self): return _libsbol.URIProperty___len__(self) __swig_destroy__ = _libsbol.delete_URIProperty __del__ = lambda self: None URIProperty_swigregister = _libsbol.URIProperty_swigregister URIProperty_swigregister(URIProperty) class TextProperty(_StringProperty): """ TextProperty objects are used to contain string literals. They can be used as member objects inside custom SBOL Extension classes. """ __swig_setmethods__ = {} for _s in [_StringProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, TextProperty, name, value) __swig_getmethods__ = {} for _s in [_StringProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, TextProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_TextProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def get(self): """ Basic getter for all SBOL literal properties. Returns ------- A string literal """ return _libsbol.TextProperty_get(self) def getAll(self): """ Retrieve a vector of objects from the TextProperty. """ val = _libsbol.TextProperty_getAll(self) val = list(val) return val def __getitem__(self, nIndex): return _libsbol.TextProperty___getitem__(self, nIndex) def __iter__(self): return _libsbol.TextProperty___iter__(self) def next(self): return _libsbol.TextProperty_next(self) def __next__(self): return _libsbol.TextProperty___next__(self) def __len__(self): return _libsbol.TextProperty___len__(self) __swig_destroy__ = _libsbol.delete_TextProperty __del__ = lambda self: None TextProperty_swigregister = _libsbol.TextProperty_swigregister TextProperty_swigregister(TextProperty) class IntProperty(_IntProperty): """ IntProperty objects are used to contain integers. They can be used as member objects inside custom SBOL Extension classes. """ __swig_setmethods__ = {} for _s in [_IntProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, IntProperty, name, value) __swig_getmethods__ = {} for _s in [_IntProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, IntProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_IntProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def get(self): """ Basic getter for all SBOL literal properties. Returns ------- An integer """ return _libsbol.IntProperty_get(self) def getAll(self): """ Retrieve a vector of objects from the IntProperty. """ val = _libsbol.IntProperty_getAll(self) val = list(val) return val def __getitem__(self, nIndex): return _libsbol.IntProperty___getitem__(self, nIndex) def __iter__(self): return _libsbol.IntProperty___iter__(self) def next(self): return _libsbol.IntProperty_next(self) def __next__(self): return _libsbol.IntProperty___next__(self) def __len__(self): return _libsbol.IntProperty___len__(self) __swig_destroy__ = _libsbol.delete_IntProperty __del__ = lambda self: None IntProperty_swigregister = _libsbol.IntProperty_swigregister IntProperty_swigregister(IntProperty) class FloatProperty(_FloatProperty): __swig_setmethods__ = {} for _s in [_FloatProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, FloatProperty, name, value) __swig_getmethods__ = {} for _s in [_FloatProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, FloatProperty, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_FloatProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def get(self): return _libsbol.FloatProperty_get(self) def getAll(self): val = _libsbol.FloatProperty_getAll(self) val = list(val) return val def __getitem__(self, nIndex): return _libsbol.FloatProperty___getitem__(self, nIndex) def __iter__(self): return _libsbol.FloatProperty___iter__(self) def next(self): return _libsbol.FloatProperty_next(self) def __next__(self): return _libsbol.FloatProperty___next__(self) def __len__(self): return _libsbol.FloatProperty___len__(self) __swig_destroy__ = _libsbol.delete_FloatProperty __del__ = lambda self: None FloatProperty_swigregister = _libsbol.FloatProperty_swigregister FloatProperty_swigregister(FloatProperty) class VersionProperty(TextProperty): """ Contains a version number for an SBOL object. The VersionProperty follows Maven versioning semantics and includes a major, minor, and patch version number. Specifically, libSBOL currently only supports using '.' as a delimiter (e.g.: v2.0.1). If the user does not want to follow Maven versioning, they can specify an arbitrary version string using the set() method. """ __swig_setmethods__ = {} for _s in [TextProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, VersionProperty, name, value) __swig_getmethods__ = {} for _s in [TextProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, VersionProperty, name) __repr__ = _swig_repr def split(self): return _libsbol.VersionProperty_split(self) def incrementMajor(self): """ Increment major version. """ return _libsbol.VersionProperty_incrementMajor(self) def incrementMinor(self): """ Increment minor version. """ return _libsbol.VersionProperty_incrementMinor(self) def incrementPatch(self): """ Increment patch version. """ return _libsbol.VersionProperty_incrementPatch(self) def decrementMinor(self): """ Decrement major version. """ return _libsbol.VersionProperty_decrementMinor(self) def decrementMajor(self): """ Decrement major version. """ return _libsbol.VersionProperty_decrementMajor(self) def decrementPatch(self): """ Decrement major version. """ return _libsbol.VersionProperty_decrementPatch(self) def major(self): """ Get major version. Returns ------- The major version as an integer Splits the version string by a delimiter and returns the major version number """ return _libsbol.VersionProperty_major(self) def minor(self): """ Get minor version. Returns ------- The minor version as an integer Splits the version string by a delimiter and returns the minor version number """ return _libsbol.VersionProperty_minor(self) def patch(self): """ Get patch version. Returns ------- The patch version as an integer Splits the version string by a delimiter and returns the patch version """ return _libsbol.VersionProperty_patch(self) def __init__(self, property_owner, type_uri, lower_bound, upper_bound, initial_value): """ """ this = _libsbol.new_VersionProperty(property_owner, type_uri, lower_bound, upper_bound, initial_value) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_VersionProperty __del__ = lambda self: None VersionProperty_swigregister = _libsbol.VersionProperty_swigregister VersionProperty_swigregister(VersionProperty) class DateTimeProperty(TextProperty): __swig_setmethods__ = {} for _s in [TextProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, DateTimeProperty, name, value) __swig_getmethods__ = {} for _s in [TextProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, DateTimeProperty, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_DateTimeProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def stampTime(self): return _libsbol.DateTimeProperty_stampTime(self) __swig_destroy__ = _libsbol.delete_DateTimeProperty __del__ = lambda self: None DateTimeProperty_swigregister = _libsbol.DateTimeProperty_swigregister DateTimeProperty_swigregister(DateTimeProperty) class SBOLObject(_object): """ An SBOLObject converts a class data structure into an RDF triple store and contains methods for serializing and parsing RDF triples. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SBOLObject, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SBOLObject, name) __repr__ = _swig_repr __swig_setmethods__["doc"] = _libsbol.SBOLObject_doc_set __swig_getmethods__["doc"] = _libsbol.SBOLObject_doc_get if _newclass: doc = _swig_property(_libsbol.SBOLObject_doc_get, _libsbol.SBOLObject_doc_set) __swig_setmethods__["type"] = _libsbol.SBOLObject_type_set __swig_getmethods__["type"] = _libsbol.SBOLObject_type_get if _newclass: type = _swig_property(_libsbol.SBOLObject_type_get, _libsbol.SBOLObject_type_set) __swig_setmethods__["parent"] = _libsbol.SBOLObject_parent_set __swig_getmethods__["parent"] = _libsbol.SBOLObject_parent_get if _newclass: parent = _swig_property(_libsbol.SBOLObject_parent_get, _libsbol.SBOLObject_parent_set) __swig_setmethods__["identity"] = _libsbol.SBOLObject_identity_set __swig_getmethods__["identity"] = _libsbol.SBOLObject_identity_get if _newclass: identity = _swig_property(_libsbol.SBOLObject_identity_get, _libsbol.SBOLObject_identity_set) def __init__(self, *args): """ """ this = _libsbol.new_SBOLObject(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_SBOLObject __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.SBOLObject_getTypeURI(self) def getClassName(self, type): """ Returns ------- Parses a local class name from the RDF-type of this SBOL Object """ return _libsbol.SBOLObject_getClassName(self, type) def find(self, uri): """ Search this object recursively to see if an object with the URI already exists. Parameters ---------- * `uri` : The URI to search for. Returns ------- A pointer to theobject with this URI if it exists, NULL otherwise """ return _libsbol.SBOLObject_find(self, uri) def find_property(self, uri): """ Search this object recursively to see if it contains a member property with the given RDF type. Parameters ---------- * `uri` : The RDF type of the property to search for. Returns ------- A pointer to the object that contains a member property with the specified RDF type, NULL otherwise """ return _libsbol.SBOLObject_find_property(self, uri) def find_property_value(self, *args): return _libsbol.SBOLObject_find_property_value(self, *args) def find_reference(self, uri): return _libsbol.SBOLObject_find_reference(self, uri) def compare(self, comparand): """ Compare two SBOL objects or Documents. The behavior is currently undefined for objects with custom annotations or extension classes. Parameters ---------- * `comparand` : A pointer to the object being compared to this one. Returns ------- 1 if the objects are identical, 0 if they are different """ return _libsbol.SBOLObject_compare(self, comparand) def getPropertyValue(self, property_uri): """ Get the value of a custom annotation property by its URI. Parameters ---------- * `property_uri` : The URI for the property Returns ------- The value of the property or SBOL_ERROR_NOT_FOUND """ return _libsbol.SBOLObject_getPropertyValue(self, property_uri) def getPropertyValues(self, property_uri): """ Get all values of a custom annotation property by its URI. Parameters ---------- * `property_uri` : The URI for the property Returns ------- A vector of property values or SBOL_ERROR_NOT_FOUND """ return _libsbol.SBOLObject_getPropertyValues(self, property_uri) def getProperties(self): """ Gets URIs for all properties contained by this object. This includes SBOL core properties as well as custom annotations. Use this to find custom extension data in an SBOL file. Returns ------- A vector of URIs that identify the properties contained in this object """ return _libsbol.SBOLObject_getProperties(self) def setPropertyValue(self, property_uri, val): return _libsbol.SBOLObject_setPropertyValue(self, property_uri, val) def addPropertyValue(self, property_uri, val): return _libsbol.SBOLObject_addPropertyValue(self, property_uri, val) def setAnnotation(self, property_uri, val): return _libsbol.SBOLObject_setAnnotation(self, property_uri, val) def getAnnotation(self, property_uri): return _libsbol.SBOLObject_getAnnotation(self, property_uri) def apply(self, callback_fn, user_data): return _libsbol.SBOLObject_apply(self, callback_fn, user_data) def update_uri(self): return _libsbol.SBOLObject_update_uri(self) __swig_setmethods__["PythonObjects"] = _libsbol.SBOLObject_PythonObjects_set __swig_getmethods__["PythonObjects"] = _libsbol.SBOLObject_PythonObjects_get if _newclass: PythonObjects = _swig_property(_libsbol.SBOLObject_PythonObjects_get, _libsbol.SBOLObject_PythonObjects_set) def register_extension_class(self, python_class, extension_name): return _libsbol.SBOLObject_register_extension_class(self, python_class, extension_name) def cast(self, python_class): return _libsbol.SBOLObject_cast(self, python_class) def __str__(self): return _libsbol.SBOLObject___str__(self) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ SBOLObject_swigregister = _libsbol.SBOLObject_swigregister SBOLObject_swigregister(SBOLObject) class ReferencedObject(URIProperty): """ A reference to another SBOL object Contains a Uniform Resource Identifier (URI) that refers to an an associated object. The object it points to may be another resource in this Document or an external reference, for example to an object in an external repository. In the SBOL specification, association by reference is indicated in class diagrams by arrows with open (white) diamonds. """ __swig_setmethods__ = {} for _s in [URIProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, ReferencedObject, name, value) __swig_getmethods__ = {} for _s in [URIProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, ReferencedObject, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_ReferencedObject(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def create(self, uri): """ Creates another SBOL object derived from TopLevel and adds it to the Document. Parameters ---------- * `uri` : In "open world" mode, this is a full URI and the same as the returned URI. If the default namespace for libSBOL has been configured, then this argument should simply be a local identifier. If SBOL-compliance is enabled, this argument should be the intended displayId of the new object. A full URI is automatically generated and returned. Returns ------- The full URI of the created object. """ val = _libsbol.ReferencedObject_create(self, uri) val.thisown = False return val def set(self, *args): """ Basic setter for SBOL ReferencedObject. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.ReferencedObject_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, *args): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.ReferencedObject_add(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def addReference(self, uri): """ """ return _libsbol.ReferencedObject_addReference(self, uri) def setReference(self, uri): """ """ return _libsbol.ReferencedObject_setReference(self, uri) def __getitem__(self, nIndex): return _libsbol.ReferencedObject___getitem__(self, nIndex) def __iter__(self): return _libsbol.ReferencedObject___iter__(self) def next(self): return _libsbol.ReferencedObject_next(self) def __next__(self): return _libsbol.ReferencedObject___next__(self) def __len__(self): return _libsbol.ReferencedObject___len__(self) __swig_destroy__ = _libsbol.delete_ReferencedObject __del__ = lambda self: None ReferencedObject_swigregister = _libsbol.ReferencedObject_swigregister ReferencedObject_swigregister(ReferencedObject) def __ne__(a, b): return _libsbol.__ne__(a, b) __ne__ = _libsbol.__ne__ class Identified(SBOLObject): """ All SBOL-defined classes are directly or indirectly derived from the Identified abstract class. An Identified object is identified using a Uniform Resource Identifier (URI), a unique string that identifies and refers to a specific object in an SBOL document or in an online resource such as a DNA repository. """ __swig_setmethods__ = {} for _s in [SBOLObject]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Identified, name, value) __swig_getmethods__ = {} for _s in [SBOLObject]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Identified, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Identified(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["persistentIdentity"] = _libsbol.Identified_persistentIdentity_set __swig_getmethods__["persistentIdentity"] = _libsbol.Identified_persistentIdentity_get if _newclass: persistentIdentity = _swig_property(_libsbol.Identified_persistentIdentity_get, _libsbol.Identified_persistentIdentity_set) __swig_setmethods__["displayId"] = _libsbol.Identified_displayId_set __swig_getmethods__["displayId"] = _libsbol.Identified_displayId_get if _newclass: displayId = _swig_property(_libsbol.Identified_displayId_get, _libsbol.Identified_displayId_set) __swig_setmethods__["version"] = _libsbol.Identified_version_set __swig_getmethods__["version"] = _libsbol.Identified_version_get if _newclass: version = _swig_property(_libsbol.Identified_version_get, _libsbol.Identified_version_set) __swig_setmethods__["wasDerivedFrom"] = _libsbol.Identified_wasDerivedFrom_set __swig_getmethods__["wasDerivedFrom"] = _libsbol.Identified_wasDerivedFrom_get if _newclass: wasDerivedFrom = _swig_property(_libsbol.Identified_wasDerivedFrom_get, _libsbol.Identified_wasDerivedFrom_set) __swig_setmethods__["wasGeneratedBy"] = _libsbol.Identified_wasGeneratedBy_set __swig_getmethods__["wasGeneratedBy"] = _libsbol.Identified_wasGeneratedBy_get if _newclass: wasGeneratedBy = _swig_property(_libsbol.Identified_wasGeneratedBy_get, _libsbol.Identified_wasGeneratedBy_set) __swig_setmethods__["name"] = _libsbol.Identified_name_set __swig_getmethods__["name"] = _libsbol.Identified_name_get if _newclass: name = _swig_property(_libsbol.Identified_name_get, _libsbol.Identified_name_set) __swig_setmethods__["description"] = _libsbol.Identified_description_set __swig_getmethods__["description"] = _libsbol.Identified_description_get if _newclass: description = _swig_property(_libsbol.Identified_description_get, _libsbol.Identified_description_set) __swig_destroy__ = _libsbol.delete_Identified __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Identified_swigregister = _libsbol.Identified_swigregister Identified_swigregister(Identified) class TopLevel(Identified): """ All SBOL classes derived from TopLevel appear as top level nodes in the RDF/XML document tree and SBOL files. An abstract class. """ __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, TopLevel, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, TopLevel, name) __repr__ = _swig_repr __swig_setmethods__["attachments"] = _libsbol.TopLevel_attachments_set __swig_getmethods__["attachments"] = _libsbol.TopLevel_attachments_get if _newclass: attachments = _swig_property(_libsbol.TopLevel_attachments_get, _libsbol.TopLevel_attachments_set) def __init__(self, *args): """ """ this = _libsbol.new_TopLevel(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_TopLevel __del__ = lambda self: None def initialize(self, uri): return _libsbol.TopLevel_initialize(self, uri) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ TopLevel_swigregister = _libsbol.TopLevel_swigregister TopLevel_swigregister(TopLevel) class Location(Identified): """ The Location class specifies the strand orientation of a Component and can be further extended by the Range, Cut, and GenericLocation classes. """ __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Location, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Location, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_Location(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["orientation"] = _libsbol.Location_orientation_set __swig_getmethods__["orientation"] = _libsbol.Location_orientation_get if _newclass: orientation = _swig_property(_libsbol.Location_orientation_get, _libsbol.Location_orientation_set) __swig_destroy__ = _libsbol.delete_Location __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Location_swigregister = _libsbol.Location_swigregister Location_swigregister(Location) class Range(Location): """ A Range object specifies a region via discrete, inclusive start and end positions that correspond to indices for characters in the elements String of a Sequence. Note that the index of the first location is 1, as is typical practice in biology, rather than 0, as is typical practice in computer science. """ __swig_setmethods__ = {} for _s in [Location]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Range, name, value) __swig_getmethods__ = {} for _s in [Location]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Range, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct a Range. If operating in SBOL-compliant mode, use SequenceAnnotation.locations.create instead. Parameters ---------- * `uri` : If operating in open-world mode, this should be a full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `start` : An integer of 1 or greater * `end` : An integer equal to or greater than the start """ this = _libsbol.new_Range(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["start"] = _libsbol.Range_start_set __swig_getmethods__["start"] = _libsbol.Range_start_get if _newclass: start = _swig_property(_libsbol.Range_start_get, _libsbol.Range_start_set) __swig_setmethods__["end"] = _libsbol.Range_end_set __swig_getmethods__["end"] = _libsbol.Range_end_get if _newclass: end = _swig_property(_libsbol.Range_end_get, _libsbol.Range_end_set) def precedes(self, comparand): return _libsbol.Range_precedes(self, comparand) def follows(self, comparand): return _libsbol.Range_follows(self, comparand) def contains(self, comparand): return _libsbol.Range_contains(self, comparand) def overlaps(self, comparand): return _libsbol.Range_overlaps(self, comparand) def length(self): return _libsbol.Range_length(self) def adjoins(self, comparand): return _libsbol.Range_adjoins(self, comparand) __swig_destroy__ = _libsbol.delete_Range __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Range_swigregister = _libsbol.Range_swigregister Range_swigregister(Range) class Cut(Location): """ The Cut class specifies a location between two coordinates of a Sequence's elements. """ __swig_setmethods__ = {} for _s in [Location]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Cut, name, value) __swig_getmethods__ = {} for _s in [Location]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Cut, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct a Cut. If operating in SBOL-compliant mode, use SequenceAnnotation.locations.create instead. Parameters ---------- * `uri` : If operating in open-world mode, this should be a full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `at` : An integer of 0 or greater """ this = _libsbol.new_Cut(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["at"] = _libsbol.Cut_at_set __swig_getmethods__["at"] = _libsbol.Cut_at_get if _newclass: at = _swig_property(_libsbol.Cut_at_get, _libsbol.Cut_at_set) __swig_destroy__ = _libsbol.delete_Cut __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Cut_swigregister = _libsbol.Cut_swigregister Cut_swigregister(Cut) class GenericLocation(Location): """ the GenericLocation class is included as a starting point for specifying regions on Sequence objects with encoding properties other than IUPAC and potentially nonlinear structure. This class can also be used to set the orientation of a SequenceAnnotation and any associated Component when their parent ComponentDefinition is a partial design that lacks a Sequence. """ __swig_setmethods__ = {} for _s in [Location]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, GenericLocation, name, value) __swig_getmethods__ = {} for _s in [Location]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, GenericLocation, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct a GenericLocation. If operating in SBOL-compliant mode, use SequenceAnnotation.locations.create instead. Parameters ---------- * `uri` : If operating in open-world mode, this should be a full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. """ this = _libsbol.new_GenericLocation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_GenericLocation __del__ = lambda self: None GenericLocation_swigregister = _libsbol.GenericLocation_swigregister GenericLocation_swigregister(GenericLocation) class SequenceAnnotation(Identified): """ The SequenceAnnotation class describes one or more regions of interest on the Sequence objects referred to by its parent ComponentDefinition. In addition, SequenceAnnotation objects can describe the substructure of their parent ComponentDefinition through association with the Component objects contained by this ComponentDefinition. """ __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, SequenceAnnotation, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, SequenceAnnotation, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct a ComponentDefinition. Parameters ---------- * `uri` : A full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `version` : An arbitrary version string. If SBOLCompliance is enabled, this should be a Maven version string of the form "major.minor.patch". """ this = _libsbol.new_SequenceAnnotation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["component"] = _libsbol.SequenceAnnotation_component_set __swig_getmethods__["component"] = _libsbol.SequenceAnnotation_component_get if _newclass: component = _swig_property(_libsbol.SequenceAnnotation_component_get, _libsbol.SequenceAnnotation_component_set) __swig_setmethods__["locations"] = _libsbol.SequenceAnnotation_locations_set __swig_getmethods__["locations"] = _libsbol.SequenceAnnotation_locations_get if _newclass: locations = _swig_property(_libsbol.SequenceAnnotation_locations_get, _libsbol.SequenceAnnotation_locations_set) __swig_setmethods__["roles"] = _libsbol.SequenceAnnotation_roles_set __swig_getmethods__["roles"] = _libsbol.SequenceAnnotation_roles_get if _newclass: roles = _swig_property(_libsbol.SequenceAnnotation_roles_get, _libsbol.SequenceAnnotation_roles_set) def precedes(self, *args): return _libsbol.SequenceAnnotation_precedes(self, *args) def follows(self, *args): return _libsbol.SequenceAnnotation_follows(self, *args) def contains(self, *args): return _libsbol.SequenceAnnotation_contains(self, *args) def overlaps(self, *args): return _libsbol.SequenceAnnotation_overlaps(self, *args) def extract(self, start_reference=1): return _libsbol.SequenceAnnotation_extract(self, start_reference) def length(self): return _libsbol.SequenceAnnotation_length(self) __swig_destroy__ = _libsbol.delete_SequenceAnnotation __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ SequenceAnnotation_swigregister = _libsbol.SequenceAnnotation_swigregister SequenceAnnotation_swigregister(SequenceAnnotation) class MapsTo(Identified): """ The purpose of the MapsTo class is to make identity relationships between different ComponentInstances in functional and structural hierarchies more clear. For example, a MapsTo object may be used to connect outputs and inputs between different low-level ModuleDefinitions contained in a higher level Module Definition. A MapsTo object may also be used to override a generic Component in a low-level ModuleDefinition with an explicit Component in a high-level ModuleDefinition, for example mapping a generic gene to an explicit component with a name and sequence. """ __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, MapsTo, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, MapsTo, name) __repr__ = _swig_repr __swig_setmethods__["refinement"] = _libsbol.MapsTo_refinement_set __swig_getmethods__["refinement"] = _libsbol.MapsTo_refinement_get if _newclass: refinement = _swig_property(_libsbol.MapsTo_refinement_get, _libsbol.MapsTo_refinement_set) __swig_setmethods__["local"] = _libsbol.MapsTo_local_set __swig_getmethods__["local"] = _libsbol.MapsTo_local_get if _newclass: local = _swig_property(_libsbol.MapsTo_local_get, _libsbol.MapsTo_local_set) __swig_setmethods__["remote"] = _libsbol.MapsTo_remote_set __swig_getmethods__["remote"] = _libsbol.MapsTo_remote_get if _newclass: remote = _swig_property(_libsbol.MapsTo_remote_get, _libsbol.MapsTo_remote_set) def __init__(self, *args): """ Construct a MapsTo. If operating in SBOL-compliant mode, use ModuleDefinition::mapsTos::create instead. Parameters ---------- * `uri` : If operating in open-world mode, this should be a full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `local` : The identity of the lower level ComponentInstance * `remote` : The identity of the higher level ComponentInstance * `restriction` : Flag indicating the relationship between high- and low-level ComponentInstances. By default, this is set to SBOL_REFINEMENT_VERIFY_IDENTICAL """ this = _libsbol.new_MapsTo(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_MapsTo __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ MapsTo_swigregister = _libsbol.MapsTo_swigregister MapsTo_swigregister(MapsTo) class ComponentInstance(Identified): """ """ __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, ComponentInstance, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, ComponentInstance, name) def __init__(self, *args, **kwargs): raise AttributeError("No constructor defined") __repr__ = _swig_repr __swig_setmethods__["definition"] = _libsbol.ComponentInstance_definition_set __swig_getmethods__["definition"] = _libsbol.ComponentInstance_definition_get if _newclass: definition = _swig_property(_libsbol.ComponentInstance_definition_get, _libsbol.ComponentInstance_definition_set) __swig_setmethods__["access"] = _libsbol.ComponentInstance_access_set __swig_getmethods__["access"] = _libsbol.ComponentInstance_access_get if _newclass: access = _swig_property(_libsbol.ComponentInstance_access_get, _libsbol.ComponentInstance_access_set) __swig_setmethods__["mapsTos"] = _libsbol.ComponentInstance_mapsTos_set __swig_getmethods__["mapsTos"] = _libsbol.ComponentInstance_mapsTos_get if _newclass: mapsTos = _swig_property(_libsbol.ComponentInstance_mapsTos_get, _libsbol.ComponentInstance_mapsTos_set) __swig_destroy__ = _libsbol.delete_ComponentInstance __del__ = lambda self: None ComponentInstance_swigregister = _libsbol.ComponentInstance_swigregister ComponentInstance_swigregister(ComponentInstance) class Component(ComponentInstance): """ The Component class is used to compose ComponentDefinition objects into a structural hierarchy. For example, the ComponentDefinition of a gene could contain four Component objects: a promoter, RBS, CDS, and terminator. In turn, the ComponentDefinition of the promoter Component could contain Component objects defined as various operator sites. """ __swig_setmethods__ = {} for _s in [ComponentInstance]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Component, name, value) __swig_getmethods__ = {} for _s in [ComponentInstance]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Component, name) __repr__ = _swig_repr __swig_setmethods__["roles"] = _libsbol.Component_roles_set __swig_getmethods__["roles"] = _libsbol.Component_roles_get if _newclass: roles = _swig_property(_libsbol.Component_roles_get, _libsbol.Component_roles_set) __swig_setmethods__["roleIntegration"] = _libsbol.Component_roleIntegration_set __swig_getmethods__["roleIntegration"] = _libsbol.Component_roleIntegration_get if _newclass: roleIntegration = _swig_property(_libsbol.Component_roleIntegration_get, _libsbol.Component_roleIntegration_set) def __init__(self, *args): """ Construct a Component. If operating in SBOL-compliant mode, use ComponentDefinition::components::create instead. Parameters ---------- * `A` : full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `definition` : A URI referring to the ComponentDefinition that defines this instance * `access` : Flag indicating whether the Component can be referred to remotely by a MapsTo * `version` : An arbitrary version string. If SBOLCompliance is enabled, this should be a Maven version string of the form "major.minor.patch". """ this = _libsbol.new_Component(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_Component __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Component_swigregister = _libsbol.Component_swigregister Component_swigregister(Component) class FunctionalComponent(ComponentInstance): """ The FunctionalComponent class is used to specify the functional usage of a ComponentDefinition inside a ModuleDefinition. The ModuleDefinition describes how the that describes how the FunctionalComponent interacts with others and summarizes their aggregate function. """ __swig_setmethods__ = {} for _s in [ComponentInstance]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, FunctionalComponent, name, value) __swig_getmethods__ = {} for _s in [ComponentInstance]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, FunctionalComponent, name) __repr__ = _swig_repr __swig_setmethods__["direction"] = _libsbol.FunctionalComponent_direction_set __swig_getmethods__["direction"] = _libsbol.FunctionalComponent_direction_get if _newclass: direction = _swig_property(_libsbol.FunctionalComponent_direction_get, _libsbol.FunctionalComponent_direction_set) def __init__(self, *args): """ Construct a FunctionalComponent. If operating in SBOL-compliant mode, use ModuleDefinition::functionalComponents::create instead. Parameters ---------- * `A` : full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `definition` : A URI referring to the ComponentDefinition that defines this instance * `access` : Flag indicating whether the FunctionalComponent can be referred to remotely by a MapsTo * `direction` : The direction property specifies whether a FunctionalComponent serves as an input, output, both, or neither for its parent ModuleDefinition object * `version` : An arbitrary version string. If SBOLCompliance is enabled, this should be a Maven version string of the form "major.minor.patch". """ this = _libsbol.new_FunctionalComponent(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def connect(self, interface_component): """ This method connects module inputs and outputs. This convenience method auto-constructs a MapsTo object. See Biosystem Design for an example Parameters ---------- * `interface_component` : An input or output component from another ModuleDefinition that corresponds with this component. """ return _libsbol.FunctionalComponent_connect(self, interface_component) def mask(self, masked_component): """ This method is used to state that FunctionalComponents in separate ModuleDefinitions are functionally equivalent. Using this method will override the FunctionalComponent in the argument with the FunctionalComponent calling the method. This is useful for overriding a generic, template component with an explicitly defined component. This convenience method auto-constructs a MapsTo object. See Biosystem Design for an example Parameters ---------- * `masked_component` : The FunctionalComponent that is being masked (over-ridden) """ return _libsbol.FunctionalComponent_mask(self, masked_component) def override(self, masked_component): return _libsbol.FunctionalComponent_override(self, masked_component) def isMasked(self): """ Used to tell if a FunctionalComponent is linked to an equivalent FunctionalComponent in another ModuleDefinition. Returns ------- 1 if the FunctionalComponent has been over-rided by another FunctionalComponent, 0 if it hasn't. """ return _libsbol.FunctionalComponent_isMasked(self) __swig_destroy__ = _libsbol.delete_FunctionalComponent __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ FunctionalComponent_swigregister = _libsbol.FunctionalComponent_swigregister FunctionalComponent_swigregister(FunctionalComponent) class SequenceConstraint(Identified): """ The SequenceConstraint class can be used to assert restrictions on the relative, sequence-based positions of pairs of Component objects contained by the same parent ComponentDefinition. The primary purpose of this class is to enable the specification of partially designed ComponentDefinition objects, for which the precise positions or orientations of their contained Component objects are not yet fully determined. """ __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, SequenceConstraint, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, SequenceConstraint, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct a SequenceConstraint. If operating in SBOL-compliant mode, use ComponentDefinition::sequenceConstraints::create instead. Parameters ---------- * `uri` : If operating in open-world mode, this should be a full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `subject` : Identity of the Component with this structural constraint * `object` : Identity of the other Component with this structural constraint * `restriction` : Flag indicating the type of structual constraint between the subject and object Components. By default, this is set to SBOL_RESTRICTION_PRECEDES """ this = _libsbol.new_SequenceConstraint(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["subject"] = _libsbol.SequenceConstraint_subject_set __swig_getmethods__["subject"] = _libsbol.SequenceConstraint_subject_get if _newclass: subject = _swig_property(_libsbol.SequenceConstraint_subject_get, _libsbol.SequenceConstraint_subject_set) __swig_setmethods__["object"] = _libsbol.SequenceConstraint_object_set __swig_getmethods__["object"] = _libsbol.SequenceConstraint_object_get if _newclass: object = _swig_property(_libsbol.SequenceConstraint_object_get, _libsbol.SequenceConstraint_object_set) __swig_setmethods__["restriction"] = _libsbol.SequenceConstraint_restriction_set __swig_getmethods__["restriction"] = _libsbol.SequenceConstraint_restriction_get if _newclass: restriction = _swig_property(_libsbol.SequenceConstraint_restriction_get, _libsbol.SequenceConstraint_restriction_set) __swig_destroy__ = _libsbol.delete_SequenceConstraint __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ SequenceConstraint_swigregister = _libsbol.SequenceConstraint_swigregister SequenceConstraint_swigregister(SequenceConstraint) class ComponentDefinition(TopLevel): """ The ComponentDefinition class represents the structural entities of a biological design. The primary usage of this class is to represent structural entities with designed sequences, such as DNA, RNA, and proteins, but it can also be used to represent any other entity that is part of a design, such as small molecules, proteins, and complexes """ __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, ComponentDefinition, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, ComponentDefinition, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct a ComponentDefinition. Parameters ---------- * `uri` : A full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `type` : A BioPAX ontology term that indicates whether the ComponentDefinition is DNA, RNA, protein, or some other molecule type. * `version` : An arbitrary version string. If SBOLCompliance is enabled, this should be a Maven version string of the form "major.minor.patch". """ this = _libsbol.new_ComponentDefinition(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["types"] = _libsbol.ComponentDefinition_types_set __swig_getmethods__["types"] = _libsbol.ComponentDefinition_types_get if _newclass: types = _swig_property(_libsbol.ComponentDefinition_types_get, _libsbol.ComponentDefinition_types_set) __swig_setmethods__["roles"] = _libsbol.ComponentDefinition_roles_set __swig_getmethods__["roles"] = _libsbol.ComponentDefinition_roles_get if _newclass: roles = _swig_property(_libsbol.ComponentDefinition_roles_get, _libsbol.ComponentDefinition_roles_set) __swig_setmethods__["components"] = _libsbol.ComponentDefinition_components_set __swig_getmethods__["components"] = _libsbol.ComponentDefinition_components_get if _newclass: components = _swig_property(_libsbol.ComponentDefinition_components_get, _libsbol.ComponentDefinition_components_set) __swig_setmethods__["sequences"] = _libsbol.ComponentDefinition_sequences_set __swig_getmethods__["sequences"] = _libsbol.ComponentDefinition_sequences_get if _newclass: sequences = _swig_property(_libsbol.ComponentDefinition_sequences_get, _libsbol.ComponentDefinition_sequences_set) __swig_setmethods__["sequence"] = _libsbol.ComponentDefinition_sequence_set __swig_getmethods__["sequence"] = _libsbol.ComponentDefinition_sequence_get if _newclass: sequence = _swig_property(_libsbol.ComponentDefinition_sequence_get, _libsbol.ComponentDefinition_sequence_set) __swig_setmethods__["sequenceAnnotations"] = _libsbol.ComponentDefinition_sequenceAnnotations_set __swig_getmethods__["sequenceAnnotations"] = _libsbol.ComponentDefinition_sequenceAnnotations_get if _newclass: sequenceAnnotations = _swig_property(_libsbol.ComponentDefinition_sequenceAnnotations_get, _libsbol.ComponentDefinition_sequenceAnnotations_set) __swig_setmethods__["sequenceConstraints"] = _libsbol.ComponentDefinition_sequenceConstraints_set __swig_getmethods__["sequenceConstraints"] = _libsbol.ComponentDefinition_sequenceConstraints_get if _newclass: sequenceConstraints = _swig_property(_libsbol.ComponentDefinition_sequenceConstraints_get, _libsbol.ComponentDefinition_sequenceConstraints_set) def compile(self): return _libsbol.ComponentDefinition_compile(self) def updateSequence(self, *args): """ Assemble a parent ComponentDefinition's Sequence from its subcomponent Sequences. Parameters ---------- * `composite_sequence` : A recursive parameter, use default value Returns ------- The assembled parent sequence """ return _libsbol.ComponentDefinition_updateSequence(self, *args) def getInSequentialOrder(self): """ Orders this ComponentDefinition's member Components into a linear arrangement based on Sequence Constraints. Returns ------- Primary sequence structure """ return _libsbol.ComponentDefinition_getInSequentialOrder(self) def hasUpstreamComponent(self, current_component): """ Checks if the specified Component has a Component upstream in linear arrangement on the DNA strand. Checks that the appropriate SequenceConstraint exists. Parameters ---------- * `current_component` : A Component in this ComponentDefinition Returns ------- 1 if found, 0 if not """ return _libsbol.ComponentDefinition_hasUpstreamComponent(self, current_component) def getUpstreamComponent(self, current_component): """ Get the upstream Component. Returns ------- The upstream component """ return _libsbol.ComponentDefinition_getUpstreamComponent(self, current_component) def hasDownstreamComponent(self, current_component): """ Checks if the specified Component has a Component downstream in linear arrangement on the DNA strand. Checks that the appropriate SequenceConstraint exists. Parameters ---------- * `current_component` : A Component in this ComponentDefinition Returns ------- 1 if found, 0 if not """ return _libsbol.ComponentDefinition_hasDownstreamComponent(self, current_component) def getDownstreamComponent(self, current_component): """ Get the downstream Component. Returns ------- The downstream component """ return _libsbol.ComponentDefinition_getDownstreamComponent(self, current_component) def getFirstComponent(self): """ Gets the first Component in a linear sequence. Returns ------- The first component in sequential order """ return _libsbol.ComponentDefinition_getFirstComponent(self) def getLastComponent(self): """ Gets the last Component in a linear sequence. Returns ------- The last component in sequential order """ return _libsbol.ComponentDefinition_getLastComponent(self) def applyToComponentHierarchy(self, callback_fn=None, user_data=None): return _libsbol.ComponentDefinition_applyToComponentHierarchy(self, callback_fn, user_data) def getPrimaryStructure(self): return _libsbol.ComponentDefinition_getPrimaryStructure(self) def insertDownstream(self, target, insert): return _libsbol.ComponentDefinition_insertDownstream(self, target, insert) def insertUpstream(self, target, insert): return _libsbol.ComponentDefinition_insertUpstream(self, target, insert) def addUpstreamFlank(self, target, elements): return _libsbol.ComponentDefinition_addUpstreamFlank(self, target, elements) def addDownstreamFlank(self, target, elements): return _libsbol.ComponentDefinition_addDownstreamFlank(self, target, elements) def isComplete(self, *args): return _libsbol.ComponentDefinition_isComplete(self, *args) def disassemble(self, range_start=1): return _libsbol.ComponentDefinition_disassemble(self, range_start) def build(self): return _libsbol.ComponentDefinition_build(self) def participate(self, species): """ A convenience method that assigns a component to participate in a biochemical reaction. Behind the scenes, it auto-constructs a FunctionalComponent for this ComponentDefinition and assigns it to a Participation Parameters ---------- * `species` : A Participation object (ie, participant species in a biochemical Interaction). """ return _libsbol.ComponentDefinition_participate(self, species) __swig_destroy__ = _libsbol.delete_ComponentDefinition __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.ComponentDefinition_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ def assemble(self, *args): """ Assembles the provided vector of Components into a structural hierarchy. update SequenceAnnotation starts and ends Autoconstructs the required Components and SequenceConstraints. The resulting data structure is a partial design, still lacking a specific DNA (or other) sequence. To fully realize a design, use Sequence::assemble(). Parameters ---------- * `list_of_components` : A list of subcomponents that will compose this ComponentDefinition """ return _libsbol.ComponentDefinition_assemble(self, *args) def assemblePrimaryStructure(self, *args): return _libsbol.ComponentDefinition_assemblePrimaryStructure(self, *args) def linearize(self, *args): return _libsbol.ComponentDefinition_linearize(self, *args) def isRegular(self, *args): return _libsbol.ComponentDefinition_isRegular(self, *args) ComponentDefinition_swigregister = _libsbol.ComponentDefinition_swigregister ComponentDefinition_swigregister(ComponentDefinition) class Sequence(TopLevel): """ The primary structure (eg, nucleotide or amino acid sequence) of a ComponentDefinition object. """ __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Sequence, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Sequence, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct a ComponentDefinition. Parameters ---------- * `uri` : A full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `elements` : A string representation of the primary structure of DNA, RNA, protein, or a SMILES string for small molecules. * `encoding` : A URI that describes the representation format used for the elements property. Set to SBOL_ENCODING_IUPAC by default * `version` : An arbitrary version string. If SBOLCompliance is enabled, this should be a Maven version string. """ this = _libsbol.new_Sequence(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["elements"] = _libsbol.Sequence_elements_set __swig_getmethods__["elements"] = _libsbol.Sequence_elements_get if _newclass: elements = _swig_property(_libsbol.Sequence_elements_get, _libsbol.Sequence_elements_set) __swig_setmethods__["encoding"] = _libsbol.Sequence_encoding_set __swig_getmethods__["encoding"] = _libsbol.Sequence_encoding_get if _newclass: encoding = _swig_property(_libsbol.Sequence_encoding_get, _libsbol.Sequence_encoding_set) def assemble(self, *args): """ Calculates the complete sequence of a high-level Component from the sequence of its subcomponents. {rior to assembling the the complete sequence, you must assemble a template design by calling ComponentDefinition::assemble for the ComponentDefinition that references this Sequence. Parameters ---------- * `composite_sequence` : Typically no value for the composite sequence should be specified by the user. This parameter is used to hold the composite sequence as it is passed to function calls at a higher-level of the recursion stack. """ return _libsbol.Sequence_assemble(self, *args) def compile(self): return _libsbol.Sequence_compile(self) def length(self): return _libsbol.Sequence_length(self) def synthesize(self, clone_id): return _libsbol.Sequence_synthesize(self, clone_id) __swig_destroy__ = _libsbol.delete_Sequence __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Sequence_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Sequence_swigregister = _libsbol.Sequence_swigregister Sequence_swigregister(Sequence) class Participation(Identified): """ Each Participation represents how a particular FunctionalComponent behaves in its parent Interaction. """ __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Participation, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Participation, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_Participation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["roles"] = _libsbol.Participation_roles_set __swig_getmethods__["roles"] = _libsbol.Participation_roles_get if _newclass: roles = _swig_property(_libsbol.Participation_roles_get, _libsbol.Participation_roles_set) __swig_setmethods__["participant"] = _libsbol.Participation_participant_set __swig_getmethods__["participant"] = _libsbol.Participation_participant_get if _newclass: participant = _swig_property(_libsbol.Participation_participant_get, _libsbol.Participation_participant_set) def define(self, *args): return _libsbol.Participation_define(self, *args) __swig_destroy__ = _libsbol.delete_Participation __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Participation_swigregister = _libsbol.Participation_swigregister Participation_swigregister(Participation) class Interaction(Identified): """ The Interaction class provides more detailed descriptionof how the FunctionalComponents are intended to work together. For example, this class can be used to represent different forms of genetic regulation (e.g., transcriptional activation or repression), processes from the central dogma of biology (e.g. transcription and translation), and other basic molecular interactions (e.g., non-covalent binding or enzymatic phosphorylation). """ __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Interaction, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Interaction, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct an Interaction. Parameters ---------- * `uri` : A full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `interaction_type` : A Systems Biology Ontology term that describes a biochemical interaction """ this = _libsbol.new_Interaction(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["types"] = _libsbol.Interaction_types_set __swig_getmethods__["types"] = _libsbol.Interaction_types_get if _newclass: types = _swig_property(_libsbol.Interaction_types_get, _libsbol.Interaction_types_set) __swig_setmethods__["participations"] = _libsbol.Interaction_participations_set __swig_getmethods__["participations"] = _libsbol.Interaction_participations_get if _newclass: participations = _swig_property(_libsbol.Interaction_participations_get, _libsbol.Interaction_participations_set) __swig_setmethods__["functionalComponents"] = _libsbol.Interaction_functionalComponents_set __swig_getmethods__["functionalComponents"] = _libsbol.Interaction_functionalComponents_get if _newclass: functionalComponents = _swig_property(_libsbol.Interaction_functionalComponents_get, _libsbol.Interaction_functionalComponents_set) __swig_destroy__ = _libsbol.delete_Interaction __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Interaction_swigregister = _libsbol.Interaction_swigregister Interaction_swigregister(Interaction) class Module(Identified): """ The Module class represents a submodule of a ModuleDefinition within a hierarchical design. """ __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Module, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Module, name) __repr__ = _swig_repr __swig_setmethods__["definition"] = _libsbol.Module_definition_set __swig_getmethods__["definition"] = _libsbol.Module_definition_get if _newclass: definition = _swig_property(_libsbol.Module_definition_get, _libsbol.Module_definition_set) __swig_setmethods__["mapsTos"] = _libsbol.Module_mapsTos_set __swig_getmethods__["mapsTos"] = _libsbol.Module_mapsTos_get if _newclass: mapsTos = _swig_property(_libsbol.Module_mapsTos_get, _libsbol.Module_mapsTos_set) def __init__(self, *args): """ Construct a Module. If operating in SBOL-compliant mode, use ModuleDefinition::modules::create instead. Parameters ---------- * `uri` : If operating in open-world mode, this should be a full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `definition` : The identity of the Component with this structural constraint * `version` : An arbitrary version string. If SBOLCompliance is enabled, this should be a Maven version string of the form "major.minor.patch". """ this = _libsbol.new_Module(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_Module __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Module_swigregister = _libsbol.Module_swigregister Module_swigregister(Module) class Model(TopLevel): """ The purpose of the Model class is to serve as a placeholder for an external computational model and provide additional meta-data to enable better reasoning about the contents of this model. In this way, there is minimal duplication of standardization efforts and users of SBOL can formalize the function of a ModuleDefinition in the language of their choice. """ __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Model, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Model, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_Model(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["source"] = _libsbol.Model_source_set __swig_getmethods__["source"] = _libsbol.Model_source_get if _newclass: source = _swig_property(_libsbol.Model_source_get, _libsbol.Model_source_set) __swig_setmethods__["language"] = _libsbol.Model_language_set __swig_getmethods__["language"] = _libsbol.Model_language_get if _newclass: language = _swig_property(_libsbol.Model_language_get, _libsbol.Model_language_set) __swig_setmethods__["framework"] = _libsbol.Model_framework_set __swig_getmethods__["framework"] = _libsbol.Model_framework_get if _newclass: framework = _swig_property(_libsbol.Model_framework_get, _libsbol.Model_framework_set) __swig_destroy__ = _libsbol.delete_Model __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Model_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Model_swigregister = _libsbol.Model_swigregister Model_swigregister(Model) class Collection(TopLevel): """ The Collection class is a class that groups together a set of TopLevel objects that have something in common. Some examples of Collection objects: . Results of a query to find all ComponentDefinition objects in a repository that function as promoters . A set of ModuleDefinition objects representing a library of genetic logic gates. . A ModuleDefinition for a complexdesign, and all of the ModuleDefinition, ComponentDefinition, Sequence, and Model objects used to provide its full specification. """ __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Collection, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Collection, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct a Collection. Parameters ---------- * `uri` : If operating in open-world mode, this should be a full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. """ this = _libsbol.new_Collection(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["members"] = _libsbol.Collection_members_set __swig_getmethods__["members"] = _libsbol.Collection_members_get if _newclass: members = _swig_property(_libsbol.Collection_members_get, _libsbol.Collection_members_set) __swig_destroy__ = _libsbol.delete_Collection __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Collection_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Collection_swigregister = _libsbol.Collection_swigregister Collection_swigregister(Collection) class ModuleDefinition(TopLevel): """ The ModuleDefinition class represents a grouping of structural and functional entities in a biological design. The primary usage of this class is to assert the molecular interactions and abstract function of its child entities. """ __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, ModuleDefinition, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, ModuleDefinition, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct a ModuleDefinition. Parameters ---------- * `uri` : A full URI including a scheme, namespace, and identifier. If SBOLCompliance configuration is enabled, then this argument is simply the displayId for the new object and a full URI will automatically be constructed. * `version` : An arbitrary version string. If SBOLCompliance is enabled, this should be a valid Maven version string. """ this = _libsbol.new_ModuleDefinition(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["roles"] = _libsbol.ModuleDefinition_roles_set __swig_getmethods__["roles"] = _libsbol.ModuleDefinition_roles_get if _newclass: roles = _swig_property(_libsbol.ModuleDefinition_roles_get, _libsbol.ModuleDefinition_roles_set) __swig_setmethods__["modules"] = _libsbol.ModuleDefinition_modules_set __swig_getmethods__["modules"] = _libsbol.ModuleDefinition_modules_get if _newclass: modules = _swig_property(_libsbol.ModuleDefinition_modules_get, _libsbol.ModuleDefinition_modules_set) __swig_setmethods__["interactions"] = _libsbol.ModuleDefinition_interactions_set __swig_getmethods__["interactions"] = _libsbol.ModuleDefinition_interactions_get if _newclass: interactions = _swig_property(_libsbol.ModuleDefinition_interactions_get, _libsbol.ModuleDefinition_interactions_set) __swig_setmethods__["functionalComponents"] = _libsbol.ModuleDefinition_functionalComponents_set __swig_getmethods__["functionalComponents"] = _libsbol.ModuleDefinition_functionalComponents_get if _newclass: functionalComponents = _swig_property(_libsbol.ModuleDefinition_functionalComponents_get, _libsbol.ModuleDefinition_functionalComponents_set) __swig_setmethods__["models"] = _libsbol.ModuleDefinition_models_set __swig_getmethods__["models"] = _libsbol.ModuleDefinition_models_get if _newclass: models = _swig_property(_libsbol.ModuleDefinition_models_get, _libsbol.ModuleDefinition_models_set) def setOutput(self, *args): """ Defines an output for a system module. Parameters ---------- * `output` : A ComponentDefinition that defines the output Returns ------- A FunctionalComponent that is derived from the argument ComponentDefinition and configured as this ModuleDefinition's output (it's direction property is set to SBOL_DIRECTION_OUT) """ return _libsbol.ModuleDefinition_setOutput(self, *args) def setInput(self, *args): """ Defines an input for a system module. Parameters ---------- * `input` : A ComponentDefinition that defines the input Returns ------- A FunctionalComponent that is derived from the argument ComponentDefinition and configured as this ModuleDefinition's input (it's direction property is set to SBOL_DIRECTION_IN) """ return _libsbol.ModuleDefinition_setInput(self, *args) def connect(self, output, input): return _libsbol.ModuleDefinition_connect(self, output, input) def override(self, highlevel, lowlevel): return _libsbol.ModuleDefinition_override(self, highlevel, lowlevel) __swig_destroy__ = _libsbol.delete_ModuleDefinition __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.ModuleDefinition_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ def assemble(self, *args): """ Assemble a high-level ModuleDefinition from lower-level submodules. Autoconstructs Module objects in the process. Parameters ---------- * `list_of_modules` : A list of pointers to the submodule ModuleDefinitions """ return _libsbol.ModuleDefinition_assemble(self, *args) ModuleDefinition_swigregister = _libsbol.ModuleDefinition_swigregister ModuleDefinition_swigregister(ModuleDefinition) class Association(Identified): __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Association, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Association, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Association(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["agent"] = _libsbol.Association_agent_set __swig_getmethods__["agent"] = _libsbol.Association_agent_get if _newclass: agent = _swig_property(_libsbol.Association_agent_get, _libsbol.Association_agent_set) __swig_setmethods__["roles"] = _libsbol.Association_roles_set __swig_getmethods__["roles"] = _libsbol.Association_roles_get if _newclass: roles = _swig_property(_libsbol.Association_roles_get, _libsbol.Association_roles_set) __swig_setmethods__["plan"] = _libsbol.Association_plan_set __swig_getmethods__["plan"] = _libsbol.Association_plan_get if _newclass: plan = _swig_property(_libsbol.Association_plan_get, _libsbol.Association_plan_set) __swig_destroy__ = _libsbol.delete_Association __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Association_swigregister = _libsbol.Association_swigregister Association_swigregister(Association) class Usage(Identified): __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Usage, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Usage, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Usage(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["entity"] = _libsbol.Usage_entity_set __swig_getmethods__["entity"] = _libsbol.Usage_entity_get if _newclass: entity = _swig_property(_libsbol.Usage_entity_get, _libsbol.Usage_entity_set) __swig_setmethods__["roles"] = _libsbol.Usage_roles_set __swig_getmethods__["roles"] = _libsbol.Usage_roles_get if _newclass: roles = _swig_property(_libsbol.Usage_roles_get, _libsbol.Usage_roles_set) __swig_destroy__ = _libsbol.delete_Usage __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Usage_swigregister = _libsbol.Usage_swigregister Usage_swigregister(Usage) class Agent(TopLevel): __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Agent, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Agent, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Agent(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_Agent __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Agent_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Agent_swigregister = _libsbol.Agent_swigregister Agent_swigregister(Agent) class Plan(TopLevel): __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Plan, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Plan, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Plan(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_Plan __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Plan_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Plan_swigregister = _libsbol.Plan_swigregister Plan_swigregister(Plan) class Activity(TopLevel): __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Activity, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Activity, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Activity(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["startedAtTime"] = _libsbol.Activity_startedAtTime_set __swig_getmethods__["startedAtTime"] = _libsbol.Activity_startedAtTime_get if _newclass: startedAtTime = _swig_property(_libsbol.Activity_startedAtTime_get, _libsbol.Activity_startedAtTime_set) __swig_setmethods__["endedAtTime"] = _libsbol.Activity_endedAtTime_set __swig_getmethods__["endedAtTime"] = _libsbol.Activity_endedAtTime_get if _newclass: endedAtTime = _swig_property(_libsbol.Activity_endedAtTime_get, _libsbol.Activity_endedAtTime_set) __swig_setmethods__["wasInformedBy"] = _libsbol.Activity_wasInformedBy_set __swig_getmethods__["wasInformedBy"] = _libsbol.Activity_wasInformedBy_get if _newclass: wasInformedBy = _swig_property(_libsbol.Activity_wasInformedBy_get, _libsbol.Activity_wasInformedBy_set) __swig_setmethods__["associations"] = _libsbol.Activity_associations_set __swig_getmethods__["associations"] = _libsbol.Activity_associations_get if _newclass: associations = _swig_property(_libsbol.Activity_associations_get, _libsbol.Activity_associations_set) __swig_setmethods__["usages"] = _libsbol.Activity_usages_set __swig_getmethods__["usages"] = _libsbol.Activity_usages_get if _newclass: usages = _swig_property(_libsbol.Activity_usages_get, _libsbol.Activity_usages_set) __swig_setmethods__["agent"] = _libsbol.Activity_agent_set __swig_getmethods__["agent"] = _libsbol.Activity_agent_get if _newclass: agent = _swig_property(_libsbol.Activity_agent_get, _libsbol.Activity_agent_set) __swig_setmethods__["plan"] = _libsbol.Activity_plan_set __swig_getmethods__["plan"] = _libsbol.Activity_plan_get if _newclass: plan = _swig_property(_libsbol.Activity_plan_get, _libsbol.Activity_plan_set) __swig_destroy__ = _libsbol.delete_Activity __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Activity_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ def generateDesign(self, uris, analysis_usages, design_usages = None): """ Generate one or more Design objects Parameters ---------- * `uris` : One or more identifiers for the new Design object(s). If the `sbol_compliant_uris` option configuration is enabled, then the user should specify simple identifiers for the objects. Otherwise the user must provide full URIs each consisting of a scheme, namespace, and identifier. * `analysis_usages` : A singleton Analysis object, list of Analysis objects, or None. Analysis usages represent a prediction or forward-specification of the new Design's intended structure or function. * `design_usages` : A singleton Design object, list of Design objects, or None. Design usages may represent previous Designs that are being tranformed or composed into the new Design. Returns ------- A singleton Design or list of Designs depending on whether the user specifies a single URI or list of URIs. """ self.__validate_activity__(SBOL_DESIGN) if type(uris) != list: uris = [ uris ] for uri in uris: if type(uri) != str: raise TypeError('Cannot generate Design. The first argument must be a string or list of strings') if len(uris) != len(set(uris)): raise ValueError('Cannot generate Design. The first argument cannot contain duplicate values') try: analysis_usages = self.__validate_usages__(analysis_usages, Analysis) except TypeError: raise TypeError('Cannot generate Design. The second argument must be an Analysis or list of Analyses') try: design_usages = self.__validate_usages__(design_usages, Design) except TypeError: raise TypeError('Cannot generate Design. The third argument must be a Design or list of Designs') if not len(analysis_usages) and not len(design_usages): raise ValueError('Cannot generate Design. User must specify usages of either Analysis or Design type') new_designs = [] for uri in uris: new_design = self.doc.designs.create(uri) new_design.wasGeneratedBy = self.identity if len(analysis_usages): new_design.specification = analysis_usages[0] new_designs.append(new_design) self.__create_usages__(analysis_usages) self.__create_usages__(design_usages) if len(new_designs) > 1: return new_designs else: return new_designs[0] def generateBuild(self, uris, design_usages, build_usages = None): """ Generate one or more Build objects Parameters ---------- * `uris` : One or more identifiers for the new Build object(s). If the `sbol_compliant_uris` option configuration is enabled, then the user should specify simple identifiers for the objects. Otherwise the user must provide full URIs each consisting of a scheme, namespace, and identifier. * `design_usages` : A singleton Design object, list of Design objects, or None. Design usages represent the engineer's intent or "blueprint" for the Build target. * `build_usages` : A singleton Build object, list of Build objects, or None. Build usages represent physical components, such as laboratory samples, that are assembled into the target Build. Returns ------- A singleton Build or list of Builds depending on whether the user specifies a single URI or list of URIs. """ self.__validate_activity__(SBOL_BUILD) if type(uris) != list: uris = [ uris ] for uri in uris: if type(uri) != str: raise TypeError('Cannot generate Build. The first argument must be a string or list of strings') if len(uris) != len(set(uris)): raise ValueError('Cannot generate Build. The first argument cannot contain duplicate values') try: design_usages = self.__validate_usages__(design_usages, Design) except TypeError: raise TypeError('Cannot generate Build. The second argument must be a Design or list of Designs') try: build_usages = self.__validate_usages__(build_usages, Build) except TypeError: raise TypeError('Cannot generate Build. The third argument must be a Design or list of Designs') if not len(design_usages) and not len(build_usages): raise ValueError('Cannot generate Build. User must specify usages of either Design or Build type') new_builds = [] for uri in uris: new_build = self.doc.builds.create(uri) new_build.wasGeneratedBy = self.identity if len(design_usages): new_build.design = design_usages[0] new_builds.append(new_build) self.__create_usages__(design_usages) self.__create_usages__(build_usages) if len(new_builds) > 1: return new_builds else: return new_builds[0] def generateTest(self, uris, build_usages, test_usages = None): """ Generate one or more Test objects Parameters ---------- * `uris` : One or more identifiers for the new Test object(s). If the `sbol_compliant_uris` option configuration is enabled, then the user should specify simple identifiers for the objects. Otherwise the user must provide full URIs each consisting of a scheme, namespace, and identifier. * `build_usages` : A singleton Build object, list of Build objects, or None. Build usages represent samples or analytes used in an experimental measurement. * `test_usages` : A singleton Test object, list of Test objects, or None. Test usages represent other measurements or raw data that the user wants to integrate into a single data set. Returns ------- A singleton Test or list of Tests depending on whether the user specifies a single URI or list of URIs. """ self.__validate_activity__(SBOL_TEST) if type(uris) != list: uris = [ uris ] for uri in uris: if type(uri) != str: raise TypeError('Cannot generate Test. The first argument must be a string or list of strings') if len(uris) != len(set(uris)): raise ValueError('Cannot generate Test. The first argument cannot contain duplicate values') if type(build_usages) == SampleRoster: build_usages = [ build_usages ] else: try: build_usages = self.__validate_usages__(build_usages, Build) except TypeError: raise TypeError('Cannot generate Build. The second argument must be a Design or list of Designs') try: test_usages = self.__validate_usages__(test_usages, Test) except TypeError: raise TypeError('Cannot generate Build. The third argument must be a Design or list of Designs') if not len(build_usages) and not len(test_usages): raise ValueError('Cannot generate Build. User must specify usages of either Design or Build type') new_tests = [] for uri in uris: new_test = self.doc.tests.create(uri) new_test.wasGeneratedBy = self.identity if len(build_usages): new_test.samples = build_usages new_tests.append(new_test) self.__create_usages__(build_usages) self.__create_usages__(test_usages) if len(new_tests) > 1: return new_tests else: return new_tests[0] def generateAnalysis(self, uris, test_usages, analysis_usages = None): """ Generate one or more Analysis objects. Parameters ---------- * `uris` : One or more identifiers for the new Analysis object(s). If the `sbol_compliant_uris` option configuration is enabled, then the user should specify simple identifiers for the objects. Otherwise the user must provide full URIs each consisting of a scheme, namespace, and identifier. * `test_usages` : A singleton Test object, list of Test objects, or None. Test usages represent raw experimental data used to generate an Analysis. * `analysis_usages` : A singleton Analysis object, list of Analysis objects, or None. Analysis usages represent other analyses that the user wants to integrate into a single data set or data sheet. Returns ------- A singleton Analysis or list of Analyses depending on whether the user specifies a single URI or list of URIs. """ self.__validate_activity__(SBOL_TEST) if type(uris) != list: uris = [ uris ] for uri in uris: if type(uri) != str: raise TypeError('Cannot generate Analysis. The first argument must be a string or list of strings') if len(uris) != len(set(uris)): raise ValueError('Cannot generate Analysis. The first argument cannot contain duplicate values') try: test_usages = self.__validate_usages__(test_usages, Test) except TypeError: raise TypeError('Cannot generate Build. The second argument must be a Design or list of Designs') try: analysis_usages = self.__validate_usages__(analysis_usages, Analysis) except TypeError: raise TypeError('Cannot generate Build. The third argument must be a Design or list of Designs') if not len(test_usages) and not len(analysis_usages): raise ValueError('Cannot generate Build. User must specify usages of either Design or Build type') new_analyses = [] for uri in uris: new_analysis = self.doc.analyses.create(uri) new_analysis.wasGeneratedBy = self.identity if len(test_usages): new_analysis.rawData = test_usages[0] new_analyses.append(new_analysis) self.__create_usages__(test_usages) self.__create_usages__(analysis_usages) if len(new_analyses) > 1: return new_analyses else: return new_analyses[0] def __validate_activity__(self, activity_type): if not self.doc : raise ValueError('Failed to generate. This Activity must first be added to a Document') if len(self.associations): for a in self.associations: if not a.agent: raise ValueError('Failed to generate. This Activity does not specify an Agent') if not a.plan: raise ValueError('Failed to generate. This Activity does not specify a Plan') for a in self.associations: a.roles = activity_type else: raise ValueError('Failed to generate. This Activity does not specify an Agent or Plan') def __validate_usages__(self, usage_list, UsageType): if usage_list == None: usage_list = [] elif type(usage_list) != list: usage_list = [ usage_list ] for u in usage_list: if not type(u) == UsageType: raise TypeError() return usage_list def __create_usages__(self, usage_list): usage_map = \ { Design : SBOL_URI + "#design", Build : SBOL_URI + "#build", Test : SBOL_URI + "#test", Analysis : SBOL_URI + "#learn", SampleRoster : SBOL_URI + "#build" } for u in usage_list: if not u.doc: if type(u == Design): self.doc.addDesign(u) if type(u == Build): self.doc.addBuild(u) elif type(u == Test): self.doc.addTest(u) elif type(u == Analysis): self.doc.addAnalsis(u) elif type(u == SampleRoster): self.doc.addTest(u) if Config.getOption('sbol_compliant_uris') == 'True': id = u.displayId else: id = u.identity U = self.usages.create(id + '_usage'); U.entity = u.identity U.roles = usage_map[type(u)] Activity_swigregister = _libsbol.Activity_swigregister Activity_swigregister(Activity) class VariableComponent(Identified): __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, VariableComponent, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, VariableComponent, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_VariableComponent(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["variable"] = _libsbol.VariableComponent_variable_set __swig_getmethods__["variable"] = _libsbol.VariableComponent_variable_get if _newclass: variable = _swig_property(_libsbol.VariableComponent_variable_get, _libsbol.VariableComponent_variable_set) __swig_setmethods__["repeat"] = _libsbol.VariableComponent_repeat_set __swig_getmethods__["repeat"] = _libsbol.VariableComponent_repeat_get if _newclass: repeat = _swig_property(_libsbol.VariableComponent_repeat_get, _libsbol.VariableComponent_repeat_set) __swig_setmethods__["variants"] = _libsbol.VariableComponent_variants_set __swig_getmethods__["variants"] = _libsbol.VariableComponent_variants_get if _newclass: variants = _swig_property(_libsbol.VariableComponent_variants_get, _libsbol.VariableComponent_variants_set) __swig_setmethods__["variantCollections"] = _libsbol.VariableComponent_variantCollections_set __swig_getmethods__["variantCollections"] = _libsbol.VariableComponent_variantCollections_get if _newclass: variantCollections = _swig_property(_libsbol.VariableComponent_variantCollections_get, _libsbol.VariableComponent_variantCollections_set) __swig_setmethods__["variantDerivations"] = _libsbol.VariableComponent_variantDerivations_set __swig_getmethods__["variantDerivations"] = _libsbol.VariableComponent_variantDerivations_get if _newclass: variantDerivations = _swig_property(_libsbol.VariableComponent_variantDerivations_get, _libsbol.VariableComponent_variantDerivations_set) __swig_destroy__ = _libsbol.delete_VariableComponent __del__ = lambda self: None VariableComponent_swigregister = _libsbol.VariableComponent_swigregister VariableComponent_swigregister(VariableComponent) class CombinatorialDerivation(TopLevel): __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, CombinatorialDerivation, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, CombinatorialDerivation, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_CombinatorialDerivation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["strategy"] = _libsbol.CombinatorialDerivation_strategy_set __swig_getmethods__["strategy"] = _libsbol.CombinatorialDerivation_strategy_get if _newclass: strategy = _swig_property(_libsbol.CombinatorialDerivation_strategy_get, _libsbol.CombinatorialDerivation_strategy_set) __swig_setmethods__["masterTemplate"] = _libsbol.CombinatorialDerivation_masterTemplate_set __swig_getmethods__["masterTemplate"] = _libsbol.CombinatorialDerivation_masterTemplate_get if _newclass: masterTemplate = _swig_property(_libsbol.CombinatorialDerivation_masterTemplate_get, _libsbol.CombinatorialDerivation_masterTemplate_set) __swig_setmethods__["variableComponents"] = _libsbol.CombinatorialDerivation_variableComponents_set __swig_getmethods__["variableComponents"] = _libsbol.CombinatorialDerivation_variableComponents_get if _newclass: variableComponents = _swig_property(_libsbol.CombinatorialDerivation_variableComponents_get, _libsbol.CombinatorialDerivation_variableComponents_set) def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.CombinatorialDerivation_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ __swig_destroy__ = _libsbol.delete_CombinatorialDerivation __del__ = lambda self: None CombinatorialDerivation_swigregister = _libsbol.CombinatorialDerivation_swigregister CombinatorialDerivation_swigregister(CombinatorialDerivation) class Attachment(TopLevel): __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Attachment, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Attachment, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Attachment(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["source"] = _libsbol.Attachment_source_set __swig_getmethods__["source"] = _libsbol.Attachment_source_get if _newclass: source = _swig_property(_libsbol.Attachment_source_get, _libsbol.Attachment_source_set) __swig_setmethods__["format"] = _libsbol.Attachment_format_set __swig_getmethods__["format"] = _libsbol.Attachment_format_get if _newclass: format = _swig_property(_libsbol.Attachment_format_get, _libsbol.Attachment_format_set) __swig_setmethods__["hash"] = _libsbol.Attachment_hash_set __swig_getmethods__["hash"] = _libsbol.Attachment_hash_get if _newclass: hash = _swig_property(_libsbol.Attachment_hash_get, _libsbol.Attachment_hash_set) __swig_destroy__ = _libsbol.delete_Attachment __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Attachment_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Attachment_swigregister = _libsbol.Attachment_swigregister Attachment_swigregister(Attachment) class Implementation(TopLevel): __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Implementation, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Implementation, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Implementation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["built"] = _libsbol.Implementation_built_set __swig_getmethods__["built"] = _libsbol.Implementation_built_get if _newclass: built = _swig_property(_libsbol.Implementation_built_get, _libsbol.Implementation_built_set) __swig_destroy__ = _libsbol.delete_Implementation __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Implementation_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Implementation_swigregister = _libsbol.Implementation_swigregister Implementation_swigregister(Implementation) class Design(TopLevel): __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Design, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Design, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Design(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["structure"] = _libsbol.Design_structure_set __swig_getmethods__["structure"] = _libsbol.Design_structure_get if _newclass: structure = _swig_property(_libsbol.Design_structure_get, _libsbol.Design_structure_set) __swig_setmethods__["function"] = _libsbol.Design_function_set __swig_getmethods__["function"] = _libsbol.Design_function_get if _newclass: function = _swig_property(_libsbol.Design_function_get, _libsbol.Design_function_set) __swig_setmethods__["characterization"] = _libsbol.Design_characterization_set __swig_getmethods__["characterization"] = _libsbol.Design_characterization_get if _newclass: characterization = _swig_property(_libsbol.Design_characterization_get, _libsbol.Design_characterization_set) __swig_destroy__ = _libsbol.delete_Design __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Design_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Design_swigregister = _libsbol.Design_swigregister Design_swigregister(Design) class Build(Implementation): __swig_setmethods__ = {} for _s in [Implementation]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Build, name, value) __swig_getmethods__ = {} for _s in [Implementation]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Build, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Build(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["design"] = _libsbol.Build_design_set __swig_getmethods__["design"] = _libsbol.Build_design_get if _newclass: design = _swig_property(_libsbol.Build_design_get, _libsbol.Build_design_set) __swig_setmethods__["structure"] = _libsbol.Build_structure_set __swig_getmethods__["structure"] = _libsbol.Build_structure_get if _newclass: structure = _swig_property(_libsbol.Build_structure_get, _libsbol.Build_structure_set) __swig_setmethods__["behavior"] = _libsbol.Build_behavior_set __swig_getmethods__["behavior"] = _libsbol.Build_behavior_get if _newclass: behavior = _swig_property(_libsbol.Build_behavior_get, _libsbol.Build_behavior_set) __swig_destroy__ = _libsbol.delete_Build __del__ = lambda self: None __swig_setmethods__["sysbio_type"] = _libsbol.Build_sysbio_type_set __swig_getmethods__["sysbio_type"] = _libsbol.Build_sysbio_type_get if _newclass: sysbio_type = _swig_property(_libsbol.Build_sysbio_type_get, _libsbol.Build_sysbio_type_set) __swig_setmethods__["_structure"] = _libsbol.Build__structure_set __swig_getmethods__["_structure"] = _libsbol.Build__structure_get if _newclass: _structure = _swig_property(_libsbol.Build__structure_get, _libsbol.Build__structure_set) __swig_setmethods__["_behavior"] = _libsbol.Build__behavior_set __swig_getmethods__["_behavior"] = _libsbol.Build__behavior_get if _newclass: _behavior = _swig_property(_libsbol.Build__behavior_get, _libsbol.Build__behavior_set) def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Build_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Build_swigregister = _libsbol.Build_swigregister Build_swigregister(Build) class Test(Collection): __swig_setmethods__ = {} for _s in [Collection]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Test, name, value) __swig_getmethods__ = {} for _s in [Collection]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Test, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Test(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["samples"] = _libsbol.Test_samples_set __swig_getmethods__["samples"] = _libsbol.Test_samples_get if _newclass: samples = _swig_property(_libsbol.Test_samples_get, _libsbol.Test_samples_set) __swig_setmethods__["dataFiles"] = _libsbol.Test_dataFiles_set __swig_getmethods__["dataFiles"] = _libsbol.Test_dataFiles_get if _newclass: dataFiles = _swig_property(_libsbol.Test_dataFiles_get, _libsbol.Test_dataFiles_set) __swig_destroy__ = _libsbol.delete_Test __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Test_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Test_swigregister = _libsbol.Test_swigregister Test_swigregister(Test) class Analysis(TopLevel): __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Analysis, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Analysis, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_Analysis(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["rawData"] = _libsbol.Analysis_rawData_set __swig_getmethods__["rawData"] = _libsbol.Analysis_rawData_get if _newclass: rawData = _swig_property(_libsbol.Analysis_rawData_get, _libsbol.Analysis_rawData_set) __swig_setmethods__["dataFiles"] = _libsbol.Analysis_dataFiles_set __swig_getmethods__["dataFiles"] = _libsbol.Analysis_dataFiles_get if _newclass: dataFiles = _swig_property(_libsbol.Analysis_dataFiles_get, _libsbol.Analysis_dataFiles_set) __swig_setmethods__["dataSheet"] = _libsbol.Analysis_dataSheet_set __swig_getmethods__["dataSheet"] = _libsbol.Analysis_dataSheet_get if _newclass: dataSheet = _swig_property(_libsbol.Analysis_dataSheet_get, _libsbol.Analysis_dataSheet_set) __swig_setmethods__["consensusSequence"] = _libsbol.Analysis_consensusSequence_set __swig_getmethods__["consensusSequence"] = _libsbol.Analysis_consensusSequence_get if _newclass: consensusSequence = _swig_property(_libsbol.Analysis_consensusSequence_get, _libsbol.Analysis_consensusSequence_set) __swig_setmethods__["fittedModel"] = _libsbol.Analysis_fittedModel_set __swig_getmethods__["fittedModel"] = _libsbol.Analysis_fittedModel_get if _newclass: fittedModel = _swig_property(_libsbol.Analysis_fittedModel_get, _libsbol.Analysis_fittedModel_set) def verifyTarget(self, consensus_sequence): val = _libsbol.Analysis_verifyTarget(self, consensus_sequence) consensus_sequence.thisown = False return val def reportIdentity(self): return _libsbol.Analysis_reportIdentity(self) def reportError(self): return _libsbol.Analysis_reportError(self) def reportCoverage(self): return _libsbol.Analysis_reportCoverage(self) def reportAmbiguity(self): return _libsbol.Analysis_reportAmbiguity(self) __swig_destroy__ = _libsbol.delete_Analysis __del__ = lambda self: None def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.Analysis_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ Analysis_swigregister = _libsbol.Analysis_swigregister Analysis_swigregister(Analysis) class SampleRoster(Collection): __swig_setmethods__ = {} for _s in [Collection]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, SampleRoster, name, value) __swig_getmethods__ = {} for _s in [Collection]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, SampleRoster, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_SampleRoster(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["samples"] = _libsbol.SampleRoster_samples_set __swig_getmethods__["samples"] = _libsbol.SampleRoster_samples_get if _newclass: samples = _swig_property(_libsbol.SampleRoster_samples_get, _libsbol.SampleRoster_samples_set) def copy(self, *args): """ Copy an object and automatically increment its version. If the optional version argument is specified, it will be used instead of incrementing the copied object's version. An object may also be copied into a new document and a new namespace, assuming compliant URIs. templateparam ------------- * `SBOLClass` : The type of SBOL object being copied Parameters ---------- * `new_doc` : The new copies will be attached to this Document. NULL by default. * `ns` : This namespace will be substituted for the current namespace (as configured by setHomespace) in all SBOL-compliat URIs. * `version` : A new version Returns ------- The full URI of the created object. """ return _libsbol.SampleRoster_copy(self, *args) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ __swig_destroy__ = _libsbol.delete_SampleRoster __del__ = lambda self: None SampleRoster_swigregister = _libsbol.SampleRoster_swigregister SampleRoster_swigregister(SampleRoster) class TranscriptionalRepressionInteraction(Interaction): __swig_setmethods__ = {} for _s in [Interaction]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, TranscriptionalRepressionInteraction, name, value) __swig_getmethods__ = {} for _s in [Interaction]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, TranscriptionalRepressionInteraction, name) __repr__ = _swig_repr def __init__(self, uri, repressor, target_promoter): this = _libsbol.new_TranscriptionalRepressionInteraction(uri, repressor, target_promoter) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["repressor"] = _libsbol.TranscriptionalRepressionInteraction_repressor_set __swig_getmethods__["repressor"] = _libsbol.TranscriptionalRepressionInteraction_repressor_get if _newclass: repressor = _swig_property(_libsbol.TranscriptionalRepressionInteraction_repressor_get, _libsbol.TranscriptionalRepressionInteraction_repressor_set) __swig_setmethods__["targetPromoter"] = _libsbol.TranscriptionalRepressionInteraction_targetPromoter_set __swig_getmethods__["targetPromoter"] = _libsbol.TranscriptionalRepressionInteraction_targetPromoter_get if _newclass: targetPromoter = _swig_property(_libsbol.TranscriptionalRepressionInteraction_targetPromoter_get, _libsbol.TranscriptionalRepressionInteraction_targetPromoter_set) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ __swig_destroy__ = _libsbol.delete_TranscriptionalRepressionInteraction __del__ = lambda self: None TranscriptionalRepressionInteraction_swigregister = _libsbol.TranscriptionalRepressionInteraction_swigregister TranscriptionalRepressionInteraction_swigregister(TranscriptionalRepressionInteraction) class SmallMoleculeInhibitionInteraction(Interaction): __swig_setmethods__ = {} for _s in [Interaction]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, SmallMoleculeInhibitionInteraction, name, value) __swig_getmethods__ = {} for _s in [Interaction]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, SmallMoleculeInhibitionInteraction, name) __repr__ = _swig_repr def __init__(self, uri, ligand, transcription_factor): this = _libsbol.new_SmallMoleculeInhibitionInteraction(uri, ligand, transcription_factor) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["ligand"] = _libsbol.SmallMoleculeInhibitionInteraction_ligand_set __swig_getmethods__["ligand"] = _libsbol.SmallMoleculeInhibitionInteraction_ligand_get if _newclass: ligand = _swig_property(_libsbol.SmallMoleculeInhibitionInteraction_ligand_get, _libsbol.SmallMoleculeInhibitionInteraction_ligand_set) __swig_setmethods__["transcriptionFactor"] = _libsbol.SmallMoleculeInhibitionInteraction_transcriptionFactor_set __swig_getmethods__["transcriptionFactor"] = _libsbol.SmallMoleculeInhibitionInteraction_transcriptionFactor_get if _newclass: transcriptionFactor = _swig_property(_libsbol.SmallMoleculeInhibitionInteraction_transcriptionFactor_get, _libsbol.SmallMoleculeInhibitionInteraction_transcriptionFactor_set) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ __swig_destroy__ = _libsbol.delete_SmallMoleculeInhibitionInteraction __del__ = lambda self: None SmallMoleculeInhibitionInteraction_swigregister = _libsbol.SmallMoleculeInhibitionInteraction_swigregister SmallMoleculeInhibitionInteraction_swigregister(SmallMoleculeInhibitionInteraction) class GeneProductionInteraction(Interaction): __swig_setmethods__ = {} for _s in [Interaction]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, GeneProductionInteraction, name, value) __swig_getmethods__ = {} for _s in [Interaction]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, GeneProductionInteraction, name) __repr__ = _swig_repr def __init__(self, uri, gene, product): this = _libsbol.new_GeneProductionInteraction(uri, gene, product) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["gene"] = _libsbol.GeneProductionInteraction_gene_set __swig_getmethods__["gene"] = _libsbol.GeneProductionInteraction_gene_get if _newclass: gene = _swig_property(_libsbol.GeneProductionInteraction_gene_get, _libsbol.GeneProductionInteraction_gene_set) __swig_setmethods__["product"] = _libsbol.GeneProductionInteraction_product_set __swig_getmethods__["product"] = _libsbol.GeneProductionInteraction_product_get if _newclass: product = _swig_property(_libsbol.GeneProductionInteraction_product_get, _libsbol.GeneProductionInteraction_product_set) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ __swig_destroy__ = _libsbol.delete_GeneProductionInteraction __del__ = lambda self: None GeneProductionInteraction_swigregister = _libsbol.GeneProductionInteraction_swigregister GeneProductionInteraction_swigregister(GeneProductionInteraction) class TranscriptionalActivationInteraction(Interaction): __swig_setmethods__ = {} for _s in [Interaction]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, TranscriptionalActivationInteraction, name, value) __swig_getmethods__ = {} for _s in [Interaction]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, TranscriptionalActivationInteraction, name) __repr__ = _swig_repr def __init__(self, uri, activator, target_promoter): this = _libsbol.new_TranscriptionalActivationInteraction(uri, activator, target_promoter) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["activator"] = _libsbol.TranscriptionalActivationInteraction_activator_set __swig_getmethods__["activator"] = _libsbol.TranscriptionalActivationInteraction_activator_get if _newclass: activator = _swig_property(_libsbol.TranscriptionalActivationInteraction_activator_get, _libsbol.TranscriptionalActivationInteraction_activator_set) __swig_setmethods__["targetPromoter"] = _libsbol.TranscriptionalActivationInteraction_targetPromoter_set __swig_getmethods__["targetPromoter"] = _libsbol.TranscriptionalActivationInteraction_targetPromoter_get if _newclass: targetPromoter = _swig_property(_libsbol.TranscriptionalActivationInteraction_targetPromoter_get, _libsbol.TranscriptionalActivationInteraction_targetPromoter_set) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ __swig_destroy__ = _libsbol.delete_TranscriptionalActivationInteraction __del__ = lambda self: None TranscriptionalActivationInteraction_swigregister = _libsbol.TranscriptionalActivationInteraction_swigregister TranscriptionalActivationInteraction_swigregister(TranscriptionalActivationInteraction) class SmallMoleculeActivationInteraction(Interaction): __swig_setmethods__ = {} for _s in [Interaction]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, SmallMoleculeActivationInteraction, name, value) __swig_getmethods__ = {} for _s in [Interaction]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, SmallMoleculeActivationInteraction, name) __repr__ = _swig_repr def __init__(self, uri, ligand, transcription_factor): this = _libsbol.new_SmallMoleculeActivationInteraction(uri, ligand, transcription_factor) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["ligand"] = _libsbol.SmallMoleculeActivationInteraction_ligand_set __swig_getmethods__["ligand"] = _libsbol.SmallMoleculeActivationInteraction_ligand_get if _newclass: ligand = _swig_property(_libsbol.SmallMoleculeActivationInteraction_ligand_get, _libsbol.SmallMoleculeActivationInteraction_ligand_set) __swig_setmethods__["transcriptionFactor"] = _libsbol.SmallMoleculeActivationInteraction_transcriptionFactor_set __swig_getmethods__["transcriptionFactor"] = _libsbol.SmallMoleculeActivationInteraction_transcriptionFactor_get if _newclass: transcriptionFactor = _swig_property(_libsbol.SmallMoleculeActivationInteraction_transcriptionFactor_get, _libsbol.SmallMoleculeActivationInteraction_transcriptionFactor_set) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ __swig_destroy__ = _libsbol.delete_SmallMoleculeActivationInteraction __del__ = lambda self: None SmallMoleculeActivationInteraction_swigregister = _libsbol.SmallMoleculeActivationInteraction_swigregister SmallMoleculeActivationInteraction_swigregister(SmallMoleculeActivationInteraction) class EnzymeCatalysisInteraction(Interaction): __swig_setmethods__ = {} for _s in [Interaction]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, EnzymeCatalysisInteraction, name, value) __swig_getmethods__ = {} for _s in [Interaction]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, EnzymeCatalysisInteraction, name) __repr__ = _swig_repr __swig_setmethods__["enzyme"] = _libsbol.EnzymeCatalysisInteraction_enzyme_set __swig_getmethods__["enzyme"] = _libsbol.EnzymeCatalysisInteraction_enzyme_get if _newclass: enzyme = _swig_property(_libsbol.EnzymeCatalysisInteraction_enzyme_get, _libsbol.EnzymeCatalysisInteraction_enzyme_set) __swig_setmethods__["substrates"] = _libsbol.EnzymeCatalysisInteraction_substrates_set __swig_getmethods__["substrates"] = _libsbol.EnzymeCatalysisInteraction_substrates_get if _newclass: substrates = _swig_property(_libsbol.EnzymeCatalysisInteraction_substrates_get, _libsbol.EnzymeCatalysisInteraction_substrates_set) __swig_setmethods__["products"] = _libsbol.EnzymeCatalysisInteraction_products_set __swig_getmethods__["products"] = _libsbol.EnzymeCatalysisInteraction_products_get if _newclass: products = _swig_property(_libsbol.EnzymeCatalysisInteraction_products_get, _libsbol.EnzymeCatalysisInteraction_products_set) __swig_setmethods__["cofactors"] = _libsbol.EnzymeCatalysisInteraction_cofactors_set __swig_getmethods__["cofactors"] = _libsbol.EnzymeCatalysisInteraction_cofactors_get if _newclass: cofactors = _swig_property(_libsbol.EnzymeCatalysisInteraction_cofactors_get, _libsbol.EnzymeCatalysisInteraction_cofactors_set) __swig_setmethods__["sideproducts"] = _libsbol.EnzymeCatalysisInteraction_sideproducts_set __swig_getmethods__["sideproducts"] = _libsbol.EnzymeCatalysisInteraction_sideproducts_get if _newclass: sideproducts = _swig_property(_libsbol.EnzymeCatalysisInteraction_sideproducts_get, _libsbol.EnzymeCatalysisInteraction_sideproducts_set) def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ def __init__(self, *args): this = _libsbol.new_EnzymeCatalysisInteraction(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_EnzymeCatalysisInteraction __del__ = lambda self: None EnzymeCatalysisInteraction_swigregister = _libsbol.EnzymeCatalysisInteraction_swigregister EnzymeCatalysisInteraction_swigregister(EnzymeCatalysisInteraction) class SearchQuery(TopLevel): __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, SearchQuery, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, SearchQuery, name) __repr__ = _swig_repr def __init__(self, *args): this = _libsbol.new_SearchQuery(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_setmethods__["objectType"] = _libsbol.SearchQuery_objectType_set __swig_getmethods__["objectType"] = _libsbol.SearchQuery_objectType_get if _newclass: objectType = _swig_property(_libsbol.SearchQuery_objectType_get, _libsbol.SearchQuery_objectType_set) __swig_setmethods__["limit"] = _libsbol.SearchQuery_limit_set __swig_getmethods__["limit"] = _libsbol.SearchQuery_limit_get if _newclass: limit = _swig_property(_libsbol.SearchQuery_limit_get, _libsbol.SearchQuery_limit_set) __swig_setmethods__["offset"] = _libsbol.SearchQuery_offset_set __swig_getmethods__["offset"] = _libsbol.SearchQuery_offset_get if _newclass: offset = _swig_property(_libsbol.SearchQuery_offset_get, _libsbol.SearchQuery_offset_set) __swig_destroy__ = _libsbol.delete_SearchQuery __del__ = lambda self: None def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ def __getitem__(self, uri): return _libsbol.SearchQuery___getitem__(self, uri) SearchQuery_swigregister = _libsbol.SearchQuery_swigregister SearchQuery_swigregister(SearchQuery) class SearchResponse(TopLevel): __swig_setmethods__ = {} for _s in [TopLevel]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, SearchResponse, name, value) __swig_getmethods__ = {} for _s in [TopLevel]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, SearchResponse, name) __repr__ = _swig_repr __swig_setmethods__["records"] = _libsbol.SearchResponse_records_set __swig_getmethods__["records"] = _libsbol.SearchResponse_records_get if _newclass: records = _swig_property(_libsbol.SearchResponse_records_get, _libsbol.SearchResponse_records_set) def extend(self, response): return _libsbol.SearchResponse_extend(self, response) def __init__(self): this = _libsbol.new_SearchResponse() try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_SearchResponse __del__ = lambda self: None def end(self): return _libsbol.SearchResponse_end(self) __swig_setmethods__["python_iter"] = _libsbol.SearchResponse_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.SearchResponse_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.SearchResponse_python_iter_get, _libsbol.SearchResponse_python_iter_set) def __getitem__(self, i): return _libsbol.SearchResponse___getitem__(self, i) def __len__(self): return _libsbol.SearchResponse___len__(self) def __iter__(self): return _libsbol.SearchResponse___iter__(self) def next(self): return _libsbol.SearchResponse_next(self) def __next__(self): return _libsbol.SearchResponse___next__(self) SearchResponse_swigregister = _libsbol.SearchResponse_swigregister SearchResponse_swigregister(SearchResponse) class PartShop(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, PartShop, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, PartShop, name) __repr__ = _swig_repr def __init__(self, url): this = _libsbol.new_PartShop(url) try: self.this.append(this) except __builtin__.Exception: self.this = this def pull(self, *args): """ Retrieve an object from an online resource Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve * `doc` : The Document to which SBOL data will be added """ return _libsbol.PartShop_pull(self, *args) def searchRootCollections(self): val = _libsbol.PartShop_searchRootCollections(self) true = True false = False exec('val = ' + val) return val return val def searchSubCollections(self, uri): val = _libsbol.PartShop_searchSubCollections(self, uri) true = True false = False exec('val = ' + val) return val return val def search(self, *args): """ An advanced search that allows the user to specify an arbitrary number of search criteria as key/value pairs. Metadata is return as a list of object metadata in dictionary format. Parameters ---------- * `q` : A SearchQuery object populated with search fields and values specified as key/value pairs """ val = _libsbol.PartShop_search(self, *args) if val[0] == '[' : exec('val = ' + val) return val else : return val return val def searchCount(self, *args): return _libsbol.PartShop_searchCount(self, *args) def submit(self, *args): """ Submit your SBOL data to a SynBioHub instance. In order to submit to a PartShop, you must login first. Register on [SynBioHub](http://synbiohub.org) to obtain account credentials. * `doc` : The Document to submit * `overwrite` : An integer code: 0(default) - do not overwrite, 1 - overwrite, 2 - merge """ val = _libsbol.PartShop_submit(self, *args) if val[0] == '[' : exec('val = ' + val) return val else : return val return val def login(self, *args): """ In order to submit to a PartShop, you must login first. Register on [SynBioHub](http://synbiohub.org) to obtain account credentials. Parameters ---------- * `email` : The email associated with the user's SynBioHub account * `password` : The user's password """ return _libsbol.PartShop_login(self, *args) def getURL(self): return _libsbol.PartShop_getURL(self) def attachFile(self, topleveluri, filename): return _libsbol.PartShop_attachFile(self, topleveluri, filename) def downloadAttachment(self, *args): return _libsbol.PartShop_downloadAttachment(self, *args) def addSynBioHubAnnotations(self, doc): return _libsbol.PartShop_addSynBioHubAnnotations(self, doc) def pullComponentDefinition(self, uri, doc, recursive=True): """ Retrieve an object from an online resource Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve * `doc` : The Document to which SBOL data will be added """ return _libsbol.PartShop_pullComponentDefinition(self, uri, doc, recursive) def pullCollection(self, uri, doc, recursive=True): """ Retrieve an object from an online resource Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve * `doc` : The Document to which SBOL data will be added """ return _libsbol.PartShop_pullCollection(self, uri, doc, recursive) def pullSequence(self, uri, doc, recursive=True): """ Retrieve an object from an online resource Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve * `doc` : The Document to which SBOL data will be added """ return _libsbol.PartShop_pullSequence(self, uri, doc, recursive) def countComponentDefinition(self): """ Return the count of objects contained in a PartShop """ return _libsbol.PartShop_countComponentDefinition(self) def countCollection(self): """ Return the count of objects contained in a PartShop """ return _libsbol.PartShop_countCollection(self) __swig_destroy__ = _libsbol.delete_PartShop __del__ = lambda self: None PartShop_swigregister = _libsbol.PartShop_swigregister PartShop_swigregister(PartShop) class Document(Identified): """ Read and write SBOL using a Document class. The Document is a container for Components, Modules, and all other SBOLObjects. """ __swig_setmethods__ = {} for _s in [Identified]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, Document, name, value) __swig_getmethods__ = {} for _s in [Identified]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, Document, name) __repr__ = _swig_repr def __init__(self, *args): """ Construct a Document. The Document is a container for Components, Modules, and all other SBOLObjects. """ this = _libsbol.new_Document(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_Document __del__ = lambda self: None __swig_setmethods__["SBOLObjects"] = _libsbol.Document_SBOLObjects_set __swig_getmethods__["SBOLObjects"] = _libsbol.Document_SBOLObjects_get if _newclass: SBOLObjects = _swig_property(_libsbol.Document_SBOLObjects_get, _libsbol.Document_SBOLObjects_set) def getTopLevel(self, arg2): return _libsbol.Document_getTopLevel(self, arg2) def getWorld(self): return _libsbol.Document_getWorld(self) __swig_setmethods__["designs"] = _libsbol.Document_designs_set __swig_getmethods__["designs"] = _libsbol.Document_designs_get if _newclass: designs = _swig_property(_libsbol.Document_designs_get, _libsbol.Document_designs_set) __swig_setmethods__["builds"] = _libsbol.Document_builds_set __swig_getmethods__["builds"] = _libsbol.Document_builds_get if _newclass: builds = _swig_property(_libsbol.Document_builds_get, _libsbol.Document_builds_set) __swig_setmethods__["tests"] = _libsbol.Document_tests_set __swig_getmethods__["tests"] = _libsbol.Document_tests_get if _newclass: tests = _swig_property(_libsbol.Document_tests_get, _libsbol.Document_tests_set) __swig_setmethods__["analyses"] = _libsbol.Document_analyses_set __swig_getmethods__["analyses"] = _libsbol.Document_analyses_get if _newclass: analyses = _swig_property(_libsbol.Document_analyses_get, _libsbol.Document_analyses_set) __swig_setmethods__["componentDefinitions"] = _libsbol.Document_componentDefinitions_set __swig_getmethods__["componentDefinitions"] = _libsbol.Document_componentDefinitions_get if _newclass: componentDefinitions = _swig_property(_libsbol.Document_componentDefinitions_get, _libsbol.Document_componentDefinitions_set) __swig_setmethods__["moduleDefinitions"] = _libsbol.Document_moduleDefinitions_set __swig_getmethods__["moduleDefinitions"] = _libsbol.Document_moduleDefinitions_get if _newclass: moduleDefinitions = _swig_property(_libsbol.Document_moduleDefinitions_get, _libsbol.Document_moduleDefinitions_set) __swig_setmethods__["models"] = _libsbol.Document_models_set __swig_getmethods__["models"] = _libsbol.Document_models_get if _newclass: models = _swig_property(_libsbol.Document_models_get, _libsbol.Document_models_set) __swig_setmethods__["sequences"] = _libsbol.Document_sequences_set __swig_getmethods__["sequences"] = _libsbol.Document_sequences_get if _newclass: sequences = _swig_property(_libsbol.Document_sequences_get, _libsbol.Document_sequences_set) __swig_setmethods__["collections"] = _libsbol.Document_collections_set __swig_getmethods__["collections"] = _libsbol.Document_collections_get if _newclass: collections = _swig_property(_libsbol.Document_collections_get, _libsbol.Document_collections_set) __swig_setmethods__["activities"] = _libsbol.Document_activities_set __swig_getmethods__["activities"] = _libsbol.Document_activities_get if _newclass: activities = _swig_property(_libsbol.Document_activities_get, _libsbol.Document_activities_set) __swig_setmethods__["plans"] = _libsbol.Document_plans_set __swig_getmethods__["plans"] = _libsbol.Document_plans_get if _newclass: plans = _swig_property(_libsbol.Document_plans_get, _libsbol.Document_plans_set) __swig_setmethods__["agents"] = _libsbol.Document_agents_set __swig_getmethods__["agents"] = _libsbol.Document_agents_get if _newclass: agents = _swig_property(_libsbol.Document_agents_get, _libsbol.Document_agents_set) __swig_setmethods__["attachments"] = _libsbol.Document_attachments_set __swig_getmethods__["attachments"] = _libsbol.Document_attachments_get if _newclass: attachments = _swig_property(_libsbol.Document_attachments_get, _libsbol.Document_attachments_set) __swig_setmethods__["combinatorialderivations"] = _libsbol.Document_combinatorialderivations_set __swig_getmethods__["combinatorialderivations"] = _libsbol.Document_combinatorialderivations_get if _newclass: combinatorialderivations = _swig_property(_libsbol.Document_combinatorialderivations_get, _libsbol.Document_combinatorialderivations_set) __swig_setmethods__["implementations"] = _libsbol.Document_implementations_set __swig_getmethods__["implementations"] = _libsbol.Document_implementations_get if _newclass: implementations = _swig_property(_libsbol.Document_implementations_get, _libsbol.Document_implementations_set) __swig_setmethods__["sampleRosters"] = _libsbol.Document_sampleRosters_set __swig_getmethods__["sampleRosters"] = _libsbol.Document_sampleRosters_get if _newclass: sampleRosters = _swig_property(_libsbol.Document_sampleRosters_get, _libsbol.Document_sampleRosters_set) __swig_setmethods__["citations"] = _libsbol.Document_citations_set __swig_getmethods__["citations"] = _libsbol.Document_citations_get if _newclass: citations = _swig_property(_libsbol.Document_citations_get, _libsbol.Document_citations_set) __swig_setmethods__["keywords"] = _libsbol.Document_keywords_set __swig_getmethods__["keywords"] = _libsbol.Document_keywords_get if _newclass: keywords = _swig_property(_libsbol.Document_keywords_get, _libsbol.Document_keywords_set) def write(self, filename): """ Serialize all objects in this Document to an RDF/XML file. Parameters ---------- * `filename` : The full name of the file you want to write (including file extension) Returns ------- A string with the validation results, or empty string if validation is disabled """ return _libsbol.Document_write(self, filename) def read(self, filename): """ Read an RDF/XML file and attach the SBOL objects to this Document. Existing contents of the Document will be wiped. Parameters ---------- * `filename` : The full name of the file you want to read (including file extension) """ return _libsbol.Document_read(self, filename) def writeString(self): return _libsbol.Document_writeString(self) def append(self, filename): """ Read an RDF/XML file and attach the SBOL objects to this Document. New objects will be added to the existing contents of the Document Parameters ---------- * `filename` : The full name of the file you want to read (including file extension) """ return _libsbol.Document_append(self, filename) def request_validation(self, sbol): """ Submit this Document to the online validator. Returns ------- The validation results """ return _libsbol.Document_request_validation(self, sbol) def request_comparison(self, diff_file): return _libsbol.Document_request_comparison(self, diff_file) def query_repository(self, command): return _libsbol.Document_query_repository(self, command) def search_metadata(self, role, type, name, collection): return _libsbol.Document_search_metadata(self, role, type, name, collection) def generate(self, world, sbol_serializer, sbol_buffer, sbol_buffer_len, ios, base_uri): return _libsbol.Document_generate(self, world, sbol_serializer, sbol_buffer, sbol_buffer_len, ios, base_uri) def validate(self): """ Run validation on this Document. Returns ------- The validation results """ return _libsbol.Document_validate(self) def copy(self, *args): """ """ return _libsbol.Document_copy(self, *args) def __len__(self): return _libsbol.Document___len__(self) def __str__(self): return _libsbol.Document___str__(self) def summary(self): return _libsbol.Document_summary(self) def end(self): return _libsbol.Document_end(self) __swig_setmethods__["python_iter"] = _libsbol.Document_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.Document_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.Document_python_iter_get, _libsbol.Document_python_iter_set) def find(self, uri): """ Search recursively for an SBOLObject in this Document that matches the uri. Parameters ---------- * `uri` : The identity of the object to search for Returns ------- A pointer to the SBOLObject, or NULL if an object with this identity doesn't exist """ return _libsbol.Document_find(self, uri) if _newclass: count_triples = staticmethod(_libsbol.Document_count_triples) else: count_triples = _libsbol.Document_count_triples def parse_annotation_objects(self): return _libsbol.Document_parse_annotation_objects(self) def dress_document(self): return _libsbol.Document_dress_document(self) def find_property(self, uri): """ Search this object recursively to see if it contains a member property with the given RDF type. Parameters ---------- * `uri` : The RDF type of the property to search for. Returns ------- A pointer to the object that contains a member property with the specified RDF type, NULL otherwise """ return _libsbol.Document_find_property(self, uri) def find_reference(self, uri): return _libsbol.Document_find_reference(self, uri) def countTriples(self): return _libsbol.Document_countTriples(self) def getNamespaces(self): """ Returns ------- A vector of namespaces Get namespaces contained in this Document """ return _libsbol.Document_getNamespaces(self) def addNamespace(self, *args): """ Add a new namespace to this Document. Parameters ---------- * `ns` : The namespace, eg. http://sbols.org/v2# * `prefix` : The namespace prefix, eg. sbol """ return _libsbol.Document_addNamespace(self, *args) def getComponentDefinition(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getComponentDefinition(self, uri) def addComponentDefinition(self, *args): """ Adds a component definition or a list of component definitions to a sbol::Document object. Parameters ---------- * `componentDefinition` : ComponentDefinition object or a list of ComponentDefinition objects """ val = _libsbol.Document_addComponentDefinition(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getModuleDefinition(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getModuleDefinition(self, uri) def addModuleDefinition(self, *args): """ Adds a module definition or a list of module definitions to a sbol::Document object. Parameters ---------- * `moduleDefinition` : ModuleDefinition object or a list of ModuleDefinition objects """ val = _libsbol.Document_addModuleDefinition(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getSequence(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getSequence(self, uri) def addSequence(self, *args): """ Adds a sequence or a list of sequences to a sbol::Document object. Parameters ---------- * `sequence` : Sequence object or a list of Sequence objects """ val = _libsbol.Document_addSequence(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getModel(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getModel(self, uri) def addModel(self, *args): val = _libsbol.Document_addModel(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getCollection(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getCollection(self, uri) def addCollection(self, *args): val = _libsbol.Document_addCollection(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getActivity(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getActivity(self, uri) def addActivity(self, *args): val = _libsbol.Document_addActivity(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getPlan(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getPlan(self, uri) def addPlan(self, *args): val = _libsbol.Document_addPlan(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getAgent(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getAgent(self, uri) def addAgent(self, *args): val = _libsbol.Document_addAgent(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getAttachment(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getAttachment(self, uri) def addAttachment(self, *args): val = _libsbol.Document_addAttachment(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getImplementation(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getImplementation(self, uri) def addImplementation(self, *args): val = _libsbol.Document_addImplementation(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getCombinatorialDerivation(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getCombinatorialDerivation(self, uri) def addCombinatorialDerivation(self, *args): val = _libsbol.Document_addCombinatorialDerivation(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getDesign(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getDesign(self, uri) def addDesign(self, *args): val = _libsbol.Document_addDesign(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getBuild(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getBuild(self, uri) def addBuild(self, *args): val = _libsbol.Document_addBuild(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getTest(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getTest(self, uri) def addTest(self, *args): val = _libsbol.Document_addTest(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getAnalysis(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getAnalysis(self, uri) def addAnalysis(self, *args): val = _libsbol.Document_addAnalysis(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def getSampleRoster(self, uri): """ Retrieve an object from the Document. Parameters ---------- * `uri` : The identity of the SBOL object you want to retrieve templateparam ------------- * `SBOLClass` : The type of SBOL object """ return _libsbol.Document_getSampleRoster(self, uri) def addSampleRoster(self, *args): val = _libsbol.Document_addSampleRoster(self, *args) if type(args[0]) is list: for obj in args[0]: obj.thisown = False else: args[0].thisown = False return val def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) __setattribute__ = __setattr__ def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ def getExtensionObject(self, id): return _libsbol.Document_getExtensionObject(self, id) def addExtensionObject(self, py_obj): return _libsbol.Document_addExtensionObject(self, py_obj) def __iter__(self): return _libsbol.Document___iter__(self) def next(self): return _libsbol.Document_next(self) def __next__(self): return _libsbol.Document___next__(self) def readString(self, *args): return _libsbol.Document_readString(self, *args) Document_swigregister = _libsbol.Document_swigregister Document_swigregister(Document) cvar = _libsbol.cvar def Document_count_triples(user_data, triple): return _libsbol.Document_count_triples(user_data, triple) Document_count_triples = _libsbol.Document_count_triples def raptor_error_handler(user_data, message): return _libsbol.raptor_error_handler(user_data, message) raptor_error_handler = _libsbol.raptor_error_handler def convert_ntriples_encoding_to_ascii(s): return _libsbol.convert_ntriples_encoding_to_ascii(s) convert_ntriples_encoding_to_ascii = _libsbol.convert_ntriples_encoding_to_ascii def cut_sbol_resource(xml_string, resource_id): return _libsbol.cut_sbol_resource(xml_string, resource_id) cut_sbol_resource = _libsbol.cut_sbol_resource def replace_reference_to_resource(xml_string, property_name, resource_id, replacement_text): return _libsbol.replace_reference_to_resource(xml_string, property_name, resource_id, replacement_text) replace_reference_to_resource = _libsbol.replace_reference_to_resource def seek_element(xml_buffer, uri): return _libsbol.seek_element(xml_buffer, uri) seek_element = _libsbol.seek_element def seek_property_element(xml_buffer, property_name): return _libsbol.seek_property_element(xml_buffer, property_name) seek_property_element = _libsbol.seek_property_element def seek_next_element(xml_buffer): return _libsbol.seek_next_element(xml_buffer) seek_next_element = _libsbol.seek_next_element def seek_new_line(xml_buffer): return _libsbol.seek_new_line(xml_buffer) seek_new_line = _libsbol.seek_new_line def seek_end_of_line(xml_buffer): return _libsbol.seek_end_of_line(xml_buffer) seek_end_of_line = _libsbol.seek_end_of_line def seek_end_of_element(xml_buffer): return _libsbol.seek_end_of_element(xml_buffer) seek_end_of_element = _libsbol.seek_end_of_element def seek_end_of_node(xml_buffer, uri): return _libsbol.seek_end_of_node(xml_buffer, uri) seek_end_of_node = _libsbol.seek_end_of_node def seek_resource(xml_buffer, qname, resource_uri): return _libsbol.seek_resource(xml_buffer, qname, resource_uri) seek_resource = _libsbol.seek_resource def is_open_node(xml_buffer): return _libsbol.is_open_node(xml_buffer) is_open_node = _libsbol.is_open_node def indent(text, indentation): return _libsbol.indent(text, indentation) indent = _libsbol.indent def get_qname(xml_buffer): return _libsbol.get_qname(xml_buffer) get_qname = _libsbol.get_qname def get_local_part(qname): return _libsbol.get_local_part(qname) get_local_part = _libsbol.get_local_part def get_prefix(qname): return _libsbol.get_prefix(qname) get_prefix = _libsbol.get_prefix def parse_element(xml_buffer): return _libsbol.parse_element(xml_buffer) parse_element = _libsbol.parse_element class OwnedPythonObject(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedPythonObject, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, OwnedPythonObject, name) __repr__ = _swig_repr def __init__(self, sbol_owner, sbol_uri, constructor, lower_bound, upper_bound, first_obj=None): this = _libsbol.new_OwnedPythonObject(sbol_owner, sbol_uri, constructor, lower_bound, upper_bound, first_obj) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, py_obj): val = _libsbol.OwnedPythonObject_set(self, py_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, py_obj): val = _libsbol.OwnedPythonObject_add(self, py_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, uri): return _libsbol.OwnedPythonObject_get(self, uri) def create(self, uri): val = _libsbol.OwnedPythonObject_create(self, uri) val.thisown = False return val def __getitem__(self, *args): return _libsbol.OwnedPythonObject___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedPythonObject___setitem__(self, uri, py_obj) def __iter__(self): return _libsbol.OwnedPythonObject___iter__(self) def next(self): return _libsbol.OwnedPythonObject_next(self) def __next__(self): return _libsbol.OwnedPythonObject___next__(self) def __len__(self): return _libsbol.OwnedPythonObject___len__(self) __swig_destroy__ = _libsbol.delete_OwnedPythonObject __del__ = lambda self: None OwnedPythonObject_swigregister = _libsbol.OwnedPythonObject_swigregister OwnedPythonObject_swigregister(OwnedPythonObject) class LocationVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, LocationVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, LocationVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.LocationVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.LocationVector___nonzero__(self) def __bool__(self): return _libsbol.LocationVector___bool__(self) def __len__(self): return _libsbol.LocationVector___len__(self) def __getslice__(self, i, j): return _libsbol.LocationVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.LocationVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.LocationVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.LocationVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.LocationVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.LocationVector___setitem__(self, *args) def pop(self): return _libsbol.LocationVector_pop(self) def append(self, x): return _libsbol.LocationVector_append(self, x) def empty(self): return _libsbol.LocationVector_empty(self) def size(self): return _libsbol.LocationVector_size(self) def swap(self, v): return _libsbol.LocationVector_swap(self, v) def begin(self): return _libsbol.LocationVector_begin(self) def end(self): return _libsbol.LocationVector_end(self) def rbegin(self): return _libsbol.LocationVector_rbegin(self) def rend(self): return _libsbol.LocationVector_rend(self) def clear(self): return _libsbol.LocationVector_clear(self) def get_allocator(self): return _libsbol.LocationVector_get_allocator(self) def pop_back(self): return _libsbol.LocationVector_pop_back(self) def erase(self, *args): return _libsbol.LocationVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_LocationVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.LocationVector_push_back(self, x) def front(self): return _libsbol.LocationVector_front(self) def back(self): return _libsbol.LocationVector_back(self) def assign(self, n, x): return _libsbol.LocationVector_assign(self, n, x) def resize(self, *args): return _libsbol.LocationVector_resize(self, *args) def insert(self, *args): return _libsbol.LocationVector_insert(self, *args) def reserve(self, n): return _libsbol.LocationVector_reserve(self, n) def capacity(self): return _libsbol.LocationVector_capacity(self) __swig_destroy__ = _libsbol.delete_LocationVector __del__ = lambda self: None LocationVector_swigregister = _libsbol.LocationVector_swigregister LocationVector_swigregister(LocationVector) class LocationProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, LocationProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, LocationProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_LocationProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_LocationProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.LocationProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.LocationProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.LocationProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.LocationProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.LocationProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.LocationProperty_clear(self) def write(self): """ """ return _libsbol.LocationProperty_write(self) def find(self, query): return _libsbol.LocationProperty_find(self, query) def getLowerBound(self): return _libsbol.LocationProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.LocationProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.LocationProperty_validate(self, arg) def copy(self, target_property): return _libsbol.LocationProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.LocationProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.LocationProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.LocationProperty_python_iter_get, _libsbol.LocationProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.LocationProperty_addValidationRule(self, *args) LocationProperty_swigregister = _libsbol.LocationProperty_swigregister LocationProperty_swigregister(LocationProperty) class OwnedLocation(LocationProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [LocationProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedLocation, name, value) __swig_getmethods__ = {} for _s in [LocationProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedLocation, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedLocation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedLocation_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedLocation_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedLocation_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedLocation_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedLocation_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedLocation_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedLocation_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedLocation_define(self, definition_object) def find(self, uri): return _libsbol.OwnedLocation_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedLocation_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedLocation_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedLocation_python_iter_get, _libsbol.OwnedLocation_python_iter_set) def __iter__(self): return _libsbol.OwnedLocation___iter__(self) def next(self): return _libsbol.OwnedLocation_next(self) def __next__(self): return _libsbol.OwnedLocation___next__(self) def __len__(self): return _libsbol.OwnedLocation___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedLocation_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedLocation_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedLocation_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedLocation_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedLocation_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedLocation_getGenericLocation(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedLocation___setitem__(self, uri, py_obj) def __getitem__(self, *args): return _libsbol.OwnedLocation___getitem__(self, *args) __swig_destroy__ = _libsbol.delete_OwnedLocation __del__ = lambda self: None OwnedLocation_swigregister = _libsbol.OwnedLocation_swigregister OwnedLocation_swigregister(OwnedLocation) class MapsToVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, MapsToVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, MapsToVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.MapsToVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.MapsToVector___nonzero__(self) def __bool__(self): return _libsbol.MapsToVector___bool__(self) def __len__(self): return _libsbol.MapsToVector___len__(self) def __getslice__(self, i, j): return _libsbol.MapsToVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.MapsToVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.MapsToVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.MapsToVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.MapsToVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.MapsToVector___setitem__(self, *args) def pop(self): return _libsbol.MapsToVector_pop(self) def append(self, x): return _libsbol.MapsToVector_append(self, x) def empty(self): return _libsbol.MapsToVector_empty(self) def size(self): return _libsbol.MapsToVector_size(self) def swap(self, v): return _libsbol.MapsToVector_swap(self, v) def begin(self): return _libsbol.MapsToVector_begin(self) def end(self): return _libsbol.MapsToVector_end(self) def rbegin(self): return _libsbol.MapsToVector_rbegin(self) def rend(self): return _libsbol.MapsToVector_rend(self) def clear(self): return _libsbol.MapsToVector_clear(self) def get_allocator(self): return _libsbol.MapsToVector_get_allocator(self) def pop_back(self): return _libsbol.MapsToVector_pop_back(self) def erase(self, *args): return _libsbol.MapsToVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_MapsToVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.MapsToVector_push_back(self, x) def front(self): return _libsbol.MapsToVector_front(self) def back(self): return _libsbol.MapsToVector_back(self) def assign(self, n, x): return _libsbol.MapsToVector_assign(self, n, x) def resize(self, *args): return _libsbol.MapsToVector_resize(self, *args) def insert(self, *args): return _libsbol.MapsToVector_insert(self, *args) def reserve(self, n): return _libsbol.MapsToVector_reserve(self, n) def capacity(self): return _libsbol.MapsToVector_capacity(self) __swig_destroy__ = _libsbol.delete_MapsToVector __del__ = lambda self: None MapsToVector_swigregister = _libsbol.MapsToVector_swigregister MapsToVector_swigregister(MapsToVector) class MapsToProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, MapsToProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, MapsToProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_MapsToProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_MapsToProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.MapsToProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.MapsToProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.MapsToProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.MapsToProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.MapsToProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.MapsToProperty_clear(self) def write(self): """ """ return _libsbol.MapsToProperty_write(self) def find(self, query): return _libsbol.MapsToProperty_find(self, query) def getLowerBound(self): return _libsbol.MapsToProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.MapsToProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.MapsToProperty_validate(self, arg) def copy(self, target_property): return _libsbol.MapsToProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.MapsToProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.MapsToProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.MapsToProperty_python_iter_get, _libsbol.MapsToProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.MapsToProperty_addValidationRule(self, *args) MapsToProperty_swigregister = _libsbol.MapsToProperty_swigregister MapsToProperty_swigregister(MapsToProperty) class OwnedMapsTo(MapsToProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [MapsToProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedMapsTo, name, value) __swig_getmethods__ = {} for _s in [MapsToProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedMapsTo, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedMapsTo(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedMapsTo_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedMapsTo_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedMapsTo_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedMapsTo_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedMapsTo_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedMapsTo_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedMapsTo_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedMapsTo_define(self, definition_object) def find(self, uri): return _libsbol.OwnedMapsTo_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedMapsTo_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedMapsTo_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedMapsTo_python_iter_get, _libsbol.OwnedMapsTo_python_iter_set) def __iter__(self): return _libsbol.OwnedMapsTo___iter__(self) def next(self): return _libsbol.OwnedMapsTo_next(self) def __next__(self): return _libsbol.OwnedMapsTo___next__(self) def __len__(self): return _libsbol.OwnedMapsTo___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedMapsTo_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedMapsTo_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedMapsTo_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedMapsTo_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedMapsTo_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedMapsTo_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedMapsTo___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedMapsTo___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedMapsTo __del__ = lambda self: None OwnedMapsTo_swigregister = _libsbol.OwnedMapsTo_swigregister OwnedMapsTo_swigregister(OwnedMapsTo) class SequenceConstraintVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SequenceConstraintVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SequenceConstraintVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.SequenceConstraintVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.SequenceConstraintVector___nonzero__(self) def __bool__(self): return _libsbol.SequenceConstraintVector___bool__(self) def __len__(self): return _libsbol.SequenceConstraintVector___len__(self) def __getslice__(self, i, j): return _libsbol.SequenceConstraintVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.SequenceConstraintVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.SequenceConstraintVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.SequenceConstraintVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.SequenceConstraintVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.SequenceConstraintVector___setitem__(self, *args) def pop(self): return _libsbol.SequenceConstraintVector_pop(self) def append(self, x): return _libsbol.SequenceConstraintVector_append(self, x) def empty(self): return _libsbol.SequenceConstraintVector_empty(self) def size(self): return _libsbol.SequenceConstraintVector_size(self) def swap(self, v): return _libsbol.SequenceConstraintVector_swap(self, v) def begin(self): return _libsbol.SequenceConstraintVector_begin(self) def end(self): return _libsbol.SequenceConstraintVector_end(self) def rbegin(self): return _libsbol.SequenceConstraintVector_rbegin(self) def rend(self): return _libsbol.SequenceConstraintVector_rend(self) def clear(self): return _libsbol.SequenceConstraintVector_clear(self) def get_allocator(self): return _libsbol.SequenceConstraintVector_get_allocator(self) def pop_back(self): return _libsbol.SequenceConstraintVector_pop_back(self) def erase(self, *args): return _libsbol.SequenceConstraintVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_SequenceConstraintVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.SequenceConstraintVector_push_back(self, x) def front(self): return _libsbol.SequenceConstraintVector_front(self) def back(self): return _libsbol.SequenceConstraintVector_back(self) def assign(self, n, x): return _libsbol.SequenceConstraintVector_assign(self, n, x) def resize(self, *args): return _libsbol.SequenceConstraintVector_resize(self, *args) def insert(self, *args): return _libsbol.SequenceConstraintVector_insert(self, *args) def reserve(self, n): return _libsbol.SequenceConstraintVector_reserve(self, n) def capacity(self): return _libsbol.SequenceConstraintVector_capacity(self) __swig_destroy__ = _libsbol.delete_SequenceConstraintVector __del__ = lambda self: None SequenceConstraintVector_swigregister = _libsbol.SequenceConstraintVector_swigregister SequenceConstraintVector_swigregister(SequenceConstraintVector) class SequenceConstraintProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SequenceConstraintProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SequenceConstraintProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_SequenceConstraintProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_SequenceConstraintProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.SequenceConstraintProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.SequenceConstraintProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.SequenceConstraintProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.SequenceConstraintProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.SequenceConstraintProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.SequenceConstraintProperty_clear(self) def write(self): """ """ return _libsbol.SequenceConstraintProperty_write(self) def find(self, query): return _libsbol.SequenceConstraintProperty_find(self, query) def getLowerBound(self): return _libsbol.SequenceConstraintProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.SequenceConstraintProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.SequenceConstraintProperty_validate(self, arg) def copy(self, target_property): return _libsbol.SequenceConstraintProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.SequenceConstraintProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.SequenceConstraintProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.SequenceConstraintProperty_python_iter_get, _libsbol.SequenceConstraintProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.SequenceConstraintProperty_addValidationRule(self, *args) SequenceConstraintProperty_swigregister = _libsbol.SequenceConstraintProperty_swigregister SequenceConstraintProperty_swigregister(SequenceConstraintProperty) class OwnedSequenceConstraint(SequenceConstraintProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [SequenceConstraintProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedSequenceConstraint, name, value) __swig_getmethods__ = {} for _s in [SequenceConstraintProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedSequenceConstraint, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedSequenceConstraint(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedSequenceConstraint_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedSequenceConstraint_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequenceConstraint_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedSequenceConstraint_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedSequenceConstraint_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedSequenceConstraint_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequenceConstraint_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedSequenceConstraint_define(self, definition_object) def find(self, uri): return _libsbol.OwnedSequenceConstraint_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedSequenceConstraint_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedSequenceConstraint_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedSequenceConstraint_python_iter_get, _libsbol.OwnedSequenceConstraint_python_iter_set) def __iter__(self): return _libsbol.OwnedSequenceConstraint___iter__(self) def next(self): return _libsbol.OwnedSequenceConstraint_next(self) def __next__(self): return _libsbol.OwnedSequenceConstraint___next__(self) def __len__(self): return _libsbol.OwnedSequenceConstraint___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequenceConstraint_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequenceConstraint_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequenceConstraint_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequenceConstraint_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequenceConstraint_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequenceConstraint_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedSequenceConstraint___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedSequenceConstraint___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedSequenceConstraint __del__ = lambda self: None OwnedSequenceConstraint_swigregister = _libsbol.OwnedSequenceConstraint_swigregister OwnedSequenceConstraint_swigregister(OwnedSequenceConstraint) class SequenceAnnotationVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SequenceAnnotationVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SequenceAnnotationVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.SequenceAnnotationVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.SequenceAnnotationVector___nonzero__(self) def __bool__(self): return _libsbol.SequenceAnnotationVector___bool__(self) def __len__(self): return _libsbol.SequenceAnnotationVector___len__(self) def __getslice__(self, i, j): return _libsbol.SequenceAnnotationVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.SequenceAnnotationVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.SequenceAnnotationVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.SequenceAnnotationVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.SequenceAnnotationVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.SequenceAnnotationVector___setitem__(self, *args) def pop(self): return _libsbol.SequenceAnnotationVector_pop(self) def append(self, x): return _libsbol.SequenceAnnotationVector_append(self, x) def empty(self): return _libsbol.SequenceAnnotationVector_empty(self) def size(self): return _libsbol.SequenceAnnotationVector_size(self) def swap(self, v): return _libsbol.SequenceAnnotationVector_swap(self, v) def begin(self): return _libsbol.SequenceAnnotationVector_begin(self) def end(self): return _libsbol.SequenceAnnotationVector_end(self) def rbegin(self): return _libsbol.SequenceAnnotationVector_rbegin(self) def rend(self): return _libsbol.SequenceAnnotationVector_rend(self) def clear(self): return _libsbol.SequenceAnnotationVector_clear(self) def get_allocator(self): return _libsbol.SequenceAnnotationVector_get_allocator(self) def pop_back(self): return _libsbol.SequenceAnnotationVector_pop_back(self) def erase(self, *args): return _libsbol.SequenceAnnotationVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_SequenceAnnotationVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.SequenceAnnotationVector_push_back(self, x) def front(self): return _libsbol.SequenceAnnotationVector_front(self) def back(self): return _libsbol.SequenceAnnotationVector_back(self) def assign(self, n, x): return _libsbol.SequenceAnnotationVector_assign(self, n, x) def resize(self, *args): return _libsbol.SequenceAnnotationVector_resize(self, *args) def insert(self, *args): return _libsbol.SequenceAnnotationVector_insert(self, *args) def reserve(self, n): return _libsbol.SequenceAnnotationVector_reserve(self, n) def capacity(self): return _libsbol.SequenceAnnotationVector_capacity(self) __swig_destroy__ = _libsbol.delete_SequenceAnnotationVector __del__ = lambda self: None SequenceAnnotationVector_swigregister = _libsbol.SequenceAnnotationVector_swigregister SequenceAnnotationVector_swigregister(SequenceAnnotationVector) class SequenceAnnotationProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SequenceAnnotationProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SequenceAnnotationProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_SequenceAnnotationProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_SequenceAnnotationProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.SequenceAnnotationProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.SequenceAnnotationProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.SequenceAnnotationProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.SequenceAnnotationProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.SequenceAnnotationProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.SequenceAnnotationProperty_clear(self) def write(self): """ """ return _libsbol.SequenceAnnotationProperty_write(self) def find(self, query): return _libsbol.SequenceAnnotationProperty_find(self, query) def getLowerBound(self): return _libsbol.SequenceAnnotationProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.SequenceAnnotationProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.SequenceAnnotationProperty_validate(self, arg) def copy(self, target_property): return _libsbol.SequenceAnnotationProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.SequenceAnnotationProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.SequenceAnnotationProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.SequenceAnnotationProperty_python_iter_get, _libsbol.SequenceAnnotationProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.SequenceAnnotationProperty_addValidationRule(self, *args) SequenceAnnotationProperty_swigregister = _libsbol.SequenceAnnotationProperty_swigregister SequenceAnnotationProperty_swigregister(SequenceAnnotationProperty) class OwnedSequenceAnnotation(SequenceAnnotationProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [SequenceAnnotationProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedSequenceAnnotation, name, value) __swig_getmethods__ = {} for _s in [SequenceAnnotationProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedSequenceAnnotation, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedSequenceAnnotation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedSequenceAnnotation_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedSequenceAnnotation_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequenceAnnotation_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedSequenceAnnotation_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedSequenceAnnotation_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedSequenceAnnotation_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequenceAnnotation_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedSequenceAnnotation_define(self, definition_object) def find(self, uri): return _libsbol.OwnedSequenceAnnotation_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedSequenceAnnotation_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedSequenceAnnotation_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedSequenceAnnotation_python_iter_get, _libsbol.OwnedSequenceAnnotation_python_iter_set) def __iter__(self): return _libsbol.OwnedSequenceAnnotation___iter__(self) def next(self): return _libsbol.OwnedSequenceAnnotation_next(self) def __next__(self): return _libsbol.OwnedSequenceAnnotation___next__(self) def __len__(self): return _libsbol.OwnedSequenceAnnotation___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequenceAnnotation_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequenceAnnotation_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequenceAnnotation_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequenceAnnotation_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequenceAnnotation_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequenceAnnotation_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedSequenceAnnotation___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedSequenceAnnotation___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedSequenceAnnotation __del__ = lambda self: None OwnedSequenceAnnotation_swigregister = _libsbol.OwnedSequenceAnnotation_swigregister OwnedSequenceAnnotation_swigregister(OwnedSequenceAnnotation) class ComponentVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ComponentVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ComponentVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.ComponentVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.ComponentVector___nonzero__(self) def __bool__(self): return _libsbol.ComponentVector___bool__(self) def __len__(self): return _libsbol.ComponentVector___len__(self) def __getslice__(self, i, j): return _libsbol.ComponentVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.ComponentVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.ComponentVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.ComponentVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.ComponentVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.ComponentVector___setitem__(self, *args) def pop(self): return _libsbol.ComponentVector_pop(self) def append(self, x): return _libsbol.ComponentVector_append(self, x) def empty(self): return _libsbol.ComponentVector_empty(self) def size(self): return _libsbol.ComponentVector_size(self) def swap(self, v): return _libsbol.ComponentVector_swap(self, v) def begin(self): return _libsbol.ComponentVector_begin(self) def end(self): return _libsbol.ComponentVector_end(self) def rbegin(self): return _libsbol.ComponentVector_rbegin(self) def rend(self): return _libsbol.ComponentVector_rend(self) def clear(self): return _libsbol.ComponentVector_clear(self) def get_allocator(self): return _libsbol.ComponentVector_get_allocator(self) def pop_back(self): return _libsbol.ComponentVector_pop_back(self) def erase(self, *args): return _libsbol.ComponentVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_ComponentVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.ComponentVector_push_back(self, x) def front(self): return _libsbol.ComponentVector_front(self) def back(self): return _libsbol.ComponentVector_back(self) def assign(self, n, x): return _libsbol.ComponentVector_assign(self, n, x) def resize(self, *args): return _libsbol.ComponentVector_resize(self, *args) def insert(self, *args): return _libsbol.ComponentVector_insert(self, *args) def reserve(self, n): return _libsbol.ComponentVector_reserve(self, n) def capacity(self): return _libsbol.ComponentVector_capacity(self) __swig_destroy__ = _libsbol.delete_ComponentVector __del__ = lambda self: None ComponentVector_swigregister = _libsbol.ComponentVector_swigregister ComponentVector_swigregister(ComponentVector) class ComponentProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ComponentProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ComponentProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_ComponentProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_ComponentProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.ComponentProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.ComponentProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.ComponentProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.ComponentProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.ComponentProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.ComponentProperty_clear(self) def write(self): """ """ return _libsbol.ComponentProperty_write(self) def find(self, query): return _libsbol.ComponentProperty_find(self, query) def getLowerBound(self): return _libsbol.ComponentProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.ComponentProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.ComponentProperty_validate(self, arg) def copy(self, target_property): return _libsbol.ComponentProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.ComponentProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.ComponentProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.ComponentProperty_python_iter_get, _libsbol.ComponentProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.ComponentProperty_addValidationRule(self, *args) ComponentProperty_swigregister = _libsbol.ComponentProperty_swigregister ComponentProperty_swigregister(ComponentProperty) class OwnedComponent(ComponentProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [ComponentProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedComponent, name, value) __swig_getmethods__ = {} for _s in [ComponentProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedComponent, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedComponent(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedComponent_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedComponent_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedComponent_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedComponent_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedComponent_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedComponent_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedComponent_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedComponent_define(self, definition_object) def find(self, uri): return _libsbol.OwnedComponent_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedComponent_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedComponent_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedComponent_python_iter_get, _libsbol.OwnedComponent_python_iter_set) def __iter__(self): return _libsbol.OwnedComponent___iter__(self) def next(self): return _libsbol.OwnedComponent_next(self) def __next__(self): return _libsbol.OwnedComponent___next__(self) def __len__(self): return _libsbol.OwnedComponent___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedComponent_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedComponent_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedComponent_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedComponent_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedComponent_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedComponent_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedComponent___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedComponent___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedComponent __del__ = lambda self: None OwnedComponent_swigregister = _libsbol.OwnedComponent_swigregister OwnedComponent_swigregister(OwnedComponent) class ParticipationVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ParticipationVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ParticipationVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.ParticipationVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.ParticipationVector___nonzero__(self) def __bool__(self): return _libsbol.ParticipationVector___bool__(self) def __len__(self): return _libsbol.ParticipationVector___len__(self) def __getslice__(self, i, j): return _libsbol.ParticipationVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.ParticipationVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.ParticipationVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.ParticipationVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.ParticipationVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.ParticipationVector___setitem__(self, *args) def pop(self): return _libsbol.ParticipationVector_pop(self) def append(self, x): return _libsbol.ParticipationVector_append(self, x) def empty(self): return _libsbol.ParticipationVector_empty(self) def size(self): return _libsbol.ParticipationVector_size(self) def swap(self, v): return _libsbol.ParticipationVector_swap(self, v) def begin(self): return _libsbol.ParticipationVector_begin(self) def end(self): return _libsbol.ParticipationVector_end(self) def rbegin(self): return _libsbol.ParticipationVector_rbegin(self) def rend(self): return _libsbol.ParticipationVector_rend(self) def clear(self): return _libsbol.ParticipationVector_clear(self) def get_allocator(self): return _libsbol.ParticipationVector_get_allocator(self) def pop_back(self): return _libsbol.ParticipationVector_pop_back(self) def erase(self, *args): return _libsbol.ParticipationVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_ParticipationVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.ParticipationVector_push_back(self, x) def front(self): return _libsbol.ParticipationVector_front(self) def back(self): return _libsbol.ParticipationVector_back(self) def assign(self, n, x): return _libsbol.ParticipationVector_assign(self, n, x) def resize(self, *args): return _libsbol.ParticipationVector_resize(self, *args) def insert(self, *args): return _libsbol.ParticipationVector_insert(self, *args) def reserve(self, n): return _libsbol.ParticipationVector_reserve(self, n) def capacity(self): return _libsbol.ParticipationVector_capacity(self) __swig_destroy__ = _libsbol.delete_ParticipationVector __del__ = lambda self: None ParticipationVector_swigregister = _libsbol.ParticipationVector_swigregister ParticipationVector_swigregister(ParticipationVector) class ParticipationProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ParticipationProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ParticipationProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_ParticipationProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_ParticipationProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.ParticipationProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.ParticipationProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.ParticipationProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.ParticipationProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.ParticipationProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.ParticipationProperty_clear(self) def write(self): """ """ return _libsbol.ParticipationProperty_write(self) def find(self, query): return _libsbol.ParticipationProperty_find(self, query) def getLowerBound(self): return _libsbol.ParticipationProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.ParticipationProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.ParticipationProperty_validate(self, arg) def copy(self, target_property): return _libsbol.ParticipationProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.ParticipationProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.ParticipationProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.ParticipationProperty_python_iter_get, _libsbol.ParticipationProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.ParticipationProperty_addValidationRule(self, *args) ParticipationProperty_swigregister = _libsbol.ParticipationProperty_swigregister ParticipationProperty_swigregister(ParticipationProperty) class OwnedParticipation(ParticipationProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [ParticipationProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedParticipation, name, value) __swig_getmethods__ = {} for _s in [ParticipationProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedParticipation, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedParticipation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedParticipation_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedParticipation_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedParticipation_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedParticipation_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedParticipation_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedParticipation_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedParticipation_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedParticipation_define(self, definition_object) def find(self, uri): return _libsbol.OwnedParticipation_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedParticipation_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedParticipation_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedParticipation_python_iter_get, _libsbol.OwnedParticipation_python_iter_set) def __iter__(self): return _libsbol.OwnedParticipation___iter__(self) def next(self): return _libsbol.OwnedParticipation_next(self) def __next__(self): return _libsbol.OwnedParticipation___next__(self) def __len__(self): return _libsbol.OwnedParticipation___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedParticipation_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedParticipation_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedParticipation_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedParticipation_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedParticipation_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedParticipation_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedParticipation___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedParticipation___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedParticipation __del__ = lambda self: None OwnedParticipation_swigregister = _libsbol.OwnedParticipation_swigregister OwnedParticipation_swigregister(OwnedParticipation) class ModuleVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ModuleVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ModuleVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.ModuleVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.ModuleVector___nonzero__(self) def __bool__(self): return _libsbol.ModuleVector___bool__(self) def __len__(self): return _libsbol.ModuleVector___len__(self) def __getslice__(self, i, j): return _libsbol.ModuleVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.ModuleVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.ModuleVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.ModuleVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.ModuleVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.ModuleVector___setitem__(self, *args) def pop(self): return _libsbol.ModuleVector_pop(self) def append(self, x): return _libsbol.ModuleVector_append(self, x) def empty(self): return _libsbol.ModuleVector_empty(self) def size(self): return _libsbol.ModuleVector_size(self) def swap(self, v): return _libsbol.ModuleVector_swap(self, v) def begin(self): return _libsbol.ModuleVector_begin(self) def end(self): return _libsbol.ModuleVector_end(self) def rbegin(self): return _libsbol.ModuleVector_rbegin(self) def rend(self): return _libsbol.ModuleVector_rend(self) def clear(self): return _libsbol.ModuleVector_clear(self) def get_allocator(self): return _libsbol.ModuleVector_get_allocator(self) def pop_back(self): return _libsbol.ModuleVector_pop_back(self) def erase(self, *args): return _libsbol.ModuleVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_ModuleVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.ModuleVector_push_back(self, x) def front(self): return _libsbol.ModuleVector_front(self) def back(self): return _libsbol.ModuleVector_back(self) def assign(self, n, x): return _libsbol.ModuleVector_assign(self, n, x) def resize(self, *args): return _libsbol.ModuleVector_resize(self, *args) def insert(self, *args): return _libsbol.ModuleVector_insert(self, *args) def reserve(self, n): return _libsbol.ModuleVector_reserve(self, n) def capacity(self): return _libsbol.ModuleVector_capacity(self) __swig_destroy__ = _libsbol.delete_ModuleVector __del__ = lambda self: None ModuleVector_swigregister = _libsbol.ModuleVector_swigregister ModuleVector_swigregister(ModuleVector) class ModuleProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ModuleProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ModuleProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_ModuleProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_ModuleProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.ModuleProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.ModuleProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.ModuleProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.ModuleProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.ModuleProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.ModuleProperty_clear(self) def write(self): """ """ return _libsbol.ModuleProperty_write(self) def find(self, query): return _libsbol.ModuleProperty_find(self, query) def getLowerBound(self): return _libsbol.ModuleProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.ModuleProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.ModuleProperty_validate(self, arg) def copy(self, target_property): return _libsbol.ModuleProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.ModuleProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.ModuleProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.ModuleProperty_python_iter_get, _libsbol.ModuleProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.ModuleProperty_addValidationRule(self, *args) ModuleProperty_swigregister = _libsbol.ModuleProperty_swigregister ModuleProperty_swigregister(ModuleProperty) class OwnedModule(ModuleProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [ModuleProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedModule, name, value) __swig_getmethods__ = {} for _s in [ModuleProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedModule, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedModule(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedModule_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedModule_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModule_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedModule_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedModule_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedModule_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModule_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedModule_define(self, definition_object) def find(self, uri): return _libsbol.OwnedModule_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedModule_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedModule_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedModule_python_iter_get, _libsbol.OwnedModule_python_iter_set) def __iter__(self): return _libsbol.OwnedModule___iter__(self) def next(self): return _libsbol.OwnedModule_next(self) def __next__(self): return _libsbol.OwnedModule___next__(self) def __len__(self): return _libsbol.OwnedModule___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModule_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModule_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModule_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModule_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModule_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModule_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedModule___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedModule___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedModule __del__ = lambda self: None OwnedModule_swigregister = _libsbol.OwnedModule_swigregister OwnedModule_swigregister(OwnedModule) class InteractionVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, InteractionVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, InteractionVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.InteractionVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.InteractionVector___nonzero__(self) def __bool__(self): return _libsbol.InteractionVector___bool__(self) def __len__(self): return _libsbol.InteractionVector___len__(self) def __getslice__(self, i, j): return _libsbol.InteractionVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.InteractionVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.InteractionVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.InteractionVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.InteractionVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.InteractionVector___setitem__(self, *args) def pop(self): return _libsbol.InteractionVector_pop(self) def append(self, x): return _libsbol.InteractionVector_append(self, x) def empty(self): return _libsbol.InteractionVector_empty(self) def size(self): return _libsbol.InteractionVector_size(self) def swap(self, v): return _libsbol.InteractionVector_swap(self, v) def begin(self): return _libsbol.InteractionVector_begin(self) def end(self): return _libsbol.InteractionVector_end(self) def rbegin(self): return _libsbol.InteractionVector_rbegin(self) def rend(self): return _libsbol.InteractionVector_rend(self) def clear(self): return _libsbol.InteractionVector_clear(self) def get_allocator(self): return _libsbol.InteractionVector_get_allocator(self) def pop_back(self): return _libsbol.InteractionVector_pop_back(self) def erase(self, *args): return _libsbol.InteractionVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_InteractionVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.InteractionVector_push_back(self, x) def front(self): return _libsbol.InteractionVector_front(self) def back(self): return _libsbol.InteractionVector_back(self) def assign(self, n, x): return _libsbol.InteractionVector_assign(self, n, x) def resize(self, *args): return _libsbol.InteractionVector_resize(self, *args) def insert(self, *args): return _libsbol.InteractionVector_insert(self, *args) def reserve(self, n): return _libsbol.InteractionVector_reserve(self, n) def capacity(self): return _libsbol.InteractionVector_capacity(self) __swig_destroy__ = _libsbol.delete_InteractionVector __del__ = lambda self: None InteractionVector_swigregister = _libsbol.InteractionVector_swigregister InteractionVector_swigregister(InteractionVector) class InteractionProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, InteractionProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, InteractionProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_InteractionProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_InteractionProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.InteractionProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.InteractionProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.InteractionProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.InteractionProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.InteractionProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.InteractionProperty_clear(self) def write(self): """ """ return _libsbol.InteractionProperty_write(self) def find(self, query): return _libsbol.InteractionProperty_find(self, query) def getLowerBound(self): return _libsbol.InteractionProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.InteractionProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.InteractionProperty_validate(self, arg) def copy(self, target_property): return _libsbol.InteractionProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.InteractionProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.InteractionProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.InteractionProperty_python_iter_get, _libsbol.InteractionProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.InteractionProperty_addValidationRule(self, *args) InteractionProperty_swigregister = _libsbol.InteractionProperty_swigregister InteractionProperty_swigregister(InteractionProperty) class OwnedInteraction(InteractionProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [InteractionProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedInteraction, name, value) __swig_getmethods__ = {} for _s in [InteractionProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedInteraction, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedInteraction(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedInteraction_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedInteraction_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedInteraction_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedInteraction_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedInteraction_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedInteraction_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedInteraction_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedInteraction_define(self, definition_object) def find(self, uri): return _libsbol.OwnedInteraction_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedInteraction_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedInteraction_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedInteraction_python_iter_get, _libsbol.OwnedInteraction_python_iter_set) def __iter__(self): return _libsbol.OwnedInteraction___iter__(self) def next(self): return _libsbol.OwnedInteraction_next(self) def __next__(self): return _libsbol.OwnedInteraction___next__(self) def __len__(self): return _libsbol.OwnedInteraction___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedInteraction_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedInteraction_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedInteraction_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedInteraction_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedInteraction_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedInteraction_getGenericLocation(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedInteraction___setitem__(self, uri, py_obj) def __getitem__(self, *args): return _libsbol.OwnedInteraction___getitem__(self, *args) __swig_destroy__ = _libsbol.delete_OwnedInteraction __del__ = lambda self: None OwnedInteraction_swigregister = _libsbol.OwnedInteraction_swigregister OwnedInteraction_swigregister(OwnedInteraction) class FunctionalComponentVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, FunctionalComponentVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, FunctionalComponentVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.FunctionalComponentVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.FunctionalComponentVector___nonzero__(self) def __bool__(self): return _libsbol.FunctionalComponentVector___bool__(self) def __len__(self): return _libsbol.FunctionalComponentVector___len__(self) def __getslice__(self, i, j): return _libsbol.FunctionalComponentVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.FunctionalComponentVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.FunctionalComponentVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.FunctionalComponentVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.FunctionalComponentVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.FunctionalComponentVector___setitem__(self, *args) def pop(self): return _libsbol.FunctionalComponentVector_pop(self) def append(self, x): return _libsbol.FunctionalComponentVector_append(self, x) def empty(self): return _libsbol.FunctionalComponentVector_empty(self) def size(self): return _libsbol.FunctionalComponentVector_size(self) def swap(self, v): return _libsbol.FunctionalComponentVector_swap(self, v) def begin(self): return _libsbol.FunctionalComponentVector_begin(self) def end(self): return _libsbol.FunctionalComponentVector_end(self) def rbegin(self): return _libsbol.FunctionalComponentVector_rbegin(self) def rend(self): return _libsbol.FunctionalComponentVector_rend(self) def clear(self): return _libsbol.FunctionalComponentVector_clear(self) def get_allocator(self): return _libsbol.FunctionalComponentVector_get_allocator(self) def pop_back(self): return _libsbol.FunctionalComponentVector_pop_back(self) def erase(self, *args): return _libsbol.FunctionalComponentVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_FunctionalComponentVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.FunctionalComponentVector_push_back(self, x) def front(self): return _libsbol.FunctionalComponentVector_front(self) def back(self): return _libsbol.FunctionalComponentVector_back(self) def assign(self, n, x): return _libsbol.FunctionalComponentVector_assign(self, n, x) def resize(self, *args): return _libsbol.FunctionalComponentVector_resize(self, *args) def insert(self, *args): return _libsbol.FunctionalComponentVector_insert(self, *args) def reserve(self, n): return _libsbol.FunctionalComponentVector_reserve(self, n) def capacity(self): return _libsbol.FunctionalComponentVector_capacity(self) __swig_destroy__ = _libsbol.delete_FunctionalComponentVector __del__ = lambda self: None FunctionalComponentVector_swigregister = _libsbol.FunctionalComponentVector_swigregister FunctionalComponentVector_swigregister(FunctionalComponentVector) class FunctionalComponentProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, FunctionalComponentProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, FunctionalComponentProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_FunctionalComponentProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_FunctionalComponentProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.FunctionalComponentProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.FunctionalComponentProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.FunctionalComponentProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.FunctionalComponentProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.FunctionalComponentProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.FunctionalComponentProperty_clear(self) def write(self): """ """ return _libsbol.FunctionalComponentProperty_write(self) def find(self, query): return _libsbol.FunctionalComponentProperty_find(self, query) def getLowerBound(self): return _libsbol.FunctionalComponentProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.FunctionalComponentProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.FunctionalComponentProperty_validate(self, arg) def copy(self, target_property): return _libsbol.FunctionalComponentProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.FunctionalComponentProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.FunctionalComponentProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.FunctionalComponentProperty_python_iter_get, _libsbol.FunctionalComponentProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.FunctionalComponentProperty_addValidationRule(self, *args) FunctionalComponentProperty_swigregister = _libsbol.FunctionalComponentProperty_swigregister FunctionalComponentProperty_swigregister(FunctionalComponentProperty) class OwnedFunctionalComponent(FunctionalComponentProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [FunctionalComponentProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedFunctionalComponent, name, value) __swig_getmethods__ = {} for _s in [FunctionalComponentProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedFunctionalComponent, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedFunctionalComponent(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedFunctionalComponent_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedFunctionalComponent_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedFunctionalComponent_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedFunctionalComponent_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedFunctionalComponent_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedFunctionalComponent_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedFunctionalComponent_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedFunctionalComponent_define(self, definition_object) def find(self, uri): return _libsbol.OwnedFunctionalComponent_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedFunctionalComponent_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedFunctionalComponent_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedFunctionalComponent_python_iter_get, _libsbol.OwnedFunctionalComponent_python_iter_set) def __iter__(self): return _libsbol.OwnedFunctionalComponent___iter__(self) def next(self): return _libsbol.OwnedFunctionalComponent_next(self) def __next__(self): return _libsbol.OwnedFunctionalComponent___next__(self) def __len__(self): return _libsbol.OwnedFunctionalComponent___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedFunctionalComponent_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedFunctionalComponent_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedFunctionalComponent_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedFunctionalComponent_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedFunctionalComponent_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedFunctionalComponent_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedFunctionalComponent___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedFunctionalComponent___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedFunctionalComponent __del__ = lambda self: None OwnedFunctionalComponent_swigregister = _libsbol.OwnedFunctionalComponent_swigregister OwnedFunctionalComponent_swigregister(OwnedFunctionalComponent) class AssociationVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, AssociationVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, AssociationVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.AssociationVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.AssociationVector___nonzero__(self) def __bool__(self): return _libsbol.AssociationVector___bool__(self) def __len__(self): return _libsbol.AssociationVector___len__(self) def __getslice__(self, i, j): return _libsbol.AssociationVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.AssociationVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.AssociationVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.AssociationVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.AssociationVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.AssociationVector___setitem__(self, *args) def pop(self): return _libsbol.AssociationVector_pop(self) def append(self, x): return _libsbol.AssociationVector_append(self, x) def empty(self): return _libsbol.AssociationVector_empty(self) def size(self): return _libsbol.AssociationVector_size(self) def swap(self, v): return _libsbol.AssociationVector_swap(self, v) def begin(self): return _libsbol.AssociationVector_begin(self) def end(self): return _libsbol.AssociationVector_end(self) def rbegin(self): return _libsbol.AssociationVector_rbegin(self) def rend(self): return _libsbol.AssociationVector_rend(self) def clear(self): return _libsbol.AssociationVector_clear(self) def get_allocator(self): return _libsbol.AssociationVector_get_allocator(self) def pop_back(self): return _libsbol.AssociationVector_pop_back(self) def erase(self, *args): return _libsbol.AssociationVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_AssociationVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.AssociationVector_push_back(self, x) def front(self): return _libsbol.AssociationVector_front(self) def back(self): return _libsbol.AssociationVector_back(self) def assign(self, n, x): return _libsbol.AssociationVector_assign(self, n, x) def resize(self, *args): return _libsbol.AssociationVector_resize(self, *args) def insert(self, *args): return _libsbol.AssociationVector_insert(self, *args) def reserve(self, n): return _libsbol.AssociationVector_reserve(self, n) def capacity(self): return _libsbol.AssociationVector_capacity(self) __swig_destroy__ = _libsbol.delete_AssociationVector __del__ = lambda self: None AssociationVector_swigregister = _libsbol.AssociationVector_swigregister AssociationVector_swigregister(AssociationVector) class AssociationProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, AssociationProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, AssociationProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_AssociationProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_AssociationProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.AssociationProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.AssociationProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.AssociationProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.AssociationProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.AssociationProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.AssociationProperty_clear(self) def write(self): """ """ return _libsbol.AssociationProperty_write(self) def find(self, query): return _libsbol.AssociationProperty_find(self, query) def getLowerBound(self): return _libsbol.AssociationProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.AssociationProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.AssociationProperty_validate(self, arg) def copy(self, target_property): return _libsbol.AssociationProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.AssociationProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.AssociationProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.AssociationProperty_python_iter_get, _libsbol.AssociationProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.AssociationProperty_addValidationRule(self, *args) AssociationProperty_swigregister = _libsbol.AssociationProperty_swigregister AssociationProperty_swigregister(AssociationProperty) class OwnedAssociation(AssociationProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [AssociationProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedAssociation, name, value) __swig_getmethods__ = {} for _s in [AssociationProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedAssociation, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedAssociation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedAssociation_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedAssociation_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAssociation_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedAssociation_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedAssociation_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedAssociation_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAssociation_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedAssociation_define(self, definition_object) def find(self, uri): return _libsbol.OwnedAssociation_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedAssociation_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedAssociation_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedAssociation_python_iter_get, _libsbol.OwnedAssociation_python_iter_set) def __iter__(self): return _libsbol.OwnedAssociation___iter__(self) def next(self): return _libsbol.OwnedAssociation_next(self) def __next__(self): return _libsbol.OwnedAssociation___next__(self) def __len__(self): return _libsbol.OwnedAssociation___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAssociation_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAssociation_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAssociation_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAssociation_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAssociation_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAssociation_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedAssociation___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedAssociation___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedAssociation __del__ = lambda self: None OwnedAssociation_swigregister = _libsbol.OwnedAssociation_swigregister OwnedAssociation_swigregister(OwnedAssociation) class UsageVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, UsageVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, UsageVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.UsageVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.UsageVector___nonzero__(self) def __bool__(self): return _libsbol.UsageVector___bool__(self) def __len__(self): return _libsbol.UsageVector___len__(self) def __getslice__(self, i, j): return _libsbol.UsageVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.UsageVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.UsageVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.UsageVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.UsageVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.UsageVector___setitem__(self, *args) def pop(self): return _libsbol.UsageVector_pop(self) def append(self, x): return _libsbol.UsageVector_append(self, x) def empty(self): return _libsbol.UsageVector_empty(self) def size(self): return _libsbol.UsageVector_size(self) def swap(self, v): return _libsbol.UsageVector_swap(self, v) def begin(self): return _libsbol.UsageVector_begin(self) def end(self): return _libsbol.UsageVector_end(self) def rbegin(self): return _libsbol.UsageVector_rbegin(self) def rend(self): return _libsbol.UsageVector_rend(self) def clear(self): return _libsbol.UsageVector_clear(self) def get_allocator(self): return _libsbol.UsageVector_get_allocator(self) def pop_back(self): return _libsbol.UsageVector_pop_back(self) def erase(self, *args): return _libsbol.UsageVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_UsageVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.UsageVector_push_back(self, x) def front(self): return _libsbol.UsageVector_front(self) def back(self): return _libsbol.UsageVector_back(self) def assign(self, n, x): return _libsbol.UsageVector_assign(self, n, x) def resize(self, *args): return _libsbol.UsageVector_resize(self, *args) def insert(self, *args): return _libsbol.UsageVector_insert(self, *args) def reserve(self, n): return _libsbol.UsageVector_reserve(self, n) def capacity(self): return _libsbol.UsageVector_capacity(self) __swig_destroy__ = _libsbol.delete_UsageVector __del__ = lambda self: None UsageVector_swigregister = _libsbol.UsageVector_swigregister UsageVector_swigregister(UsageVector) class UsageProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, UsageProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, UsageProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_UsageProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_UsageProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.UsageProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.UsageProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.UsageProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.UsageProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.UsageProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.UsageProperty_clear(self) def write(self): """ """ return _libsbol.UsageProperty_write(self) def find(self, query): return _libsbol.UsageProperty_find(self, query) def getLowerBound(self): return _libsbol.UsageProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.UsageProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.UsageProperty_validate(self, arg) def copy(self, target_property): return _libsbol.UsageProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.UsageProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.UsageProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.UsageProperty_python_iter_get, _libsbol.UsageProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.UsageProperty_addValidationRule(self, *args) UsageProperty_swigregister = _libsbol.UsageProperty_swigregister UsageProperty_swigregister(UsageProperty) class OwnedUsage(UsageProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [UsageProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedUsage, name, value) __swig_getmethods__ = {} for _s in [UsageProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedUsage, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedUsage(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedUsage_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedUsage_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedUsage_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedUsage_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedUsage_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedUsage_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedUsage_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedUsage_define(self, definition_object) def find(self, uri): return _libsbol.OwnedUsage_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedUsage_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedUsage_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedUsage_python_iter_get, _libsbol.OwnedUsage_python_iter_set) def __iter__(self): return _libsbol.OwnedUsage___iter__(self) def next(self): return _libsbol.OwnedUsage_next(self) def __next__(self): return _libsbol.OwnedUsage___next__(self) def __len__(self): return _libsbol.OwnedUsage___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedUsage_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedUsage_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedUsage_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedUsage_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedUsage_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedUsage_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedUsage___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedUsage___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedUsage __del__ = lambda self: None OwnedUsage_swigregister = _libsbol.OwnedUsage_swigregister OwnedUsage_swigregister(OwnedUsage) class VariableComponentVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, VariableComponentVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, VariableComponentVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.VariableComponentVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.VariableComponentVector___nonzero__(self) def __bool__(self): return _libsbol.VariableComponentVector___bool__(self) def __len__(self): return _libsbol.VariableComponentVector___len__(self) def __getslice__(self, i, j): return _libsbol.VariableComponentVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.VariableComponentVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.VariableComponentVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.VariableComponentVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.VariableComponentVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.VariableComponentVector___setitem__(self, *args) def pop(self): return _libsbol.VariableComponentVector_pop(self) def append(self, x): return _libsbol.VariableComponentVector_append(self, x) def empty(self): return _libsbol.VariableComponentVector_empty(self) def size(self): return _libsbol.VariableComponentVector_size(self) def swap(self, v): return _libsbol.VariableComponentVector_swap(self, v) def begin(self): return _libsbol.VariableComponentVector_begin(self) def end(self): return _libsbol.VariableComponentVector_end(self) def rbegin(self): return _libsbol.VariableComponentVector_rbegin(self) def rend(self): return _libsbol.VariableComponentVector_rend(self) def clear(self): return _libsbol.VariableComponentVector_clear(self) def get_allocator(self): return _libsbol.VariableComponentVector_get_allocator(self) def pop_back(self): return _libsbol.VariableComponentVector_pop_back(self) def erase(self, *args): return _libsbol.VariableComponentVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_VariableComponentVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.VariableComponentVector_push_back(self, x) def front(self): return _libsbol.VariableComponentVector_front(self) def back(self): return _libsbol.VariableComponentVector_back(self) def assign(self, n, x): return _libsbol.VariableComponentVector_assign(self, n, x) def resize(self, *args): return _libsbol.VariableComponentVector_resize(self, *args) def insert(self, *args): return _libsbol.VariableComponentVector_insert(self, *args) def reserve(self, n): return _libsbol.VariableComponentVector_reserve(self, n) def capacity(self): return _libsbol.VariableComponentVector_capacity(self) __swig_destroy__ = _libsbol.delete_VariableComponentVector __del__ = lambda self: None VariableComponentVector_swigregister = _libsbol.VariableComponentVector_swigregister VariableComponentVector_swigregister(VariableComponentVector) class VariableComponentProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, VariableComponentProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, VariableComponentProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_VariableComponentProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_VariableComponentProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.VariableComponentProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.VariableComponentProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.VariableComponentProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.VariableComponentProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.VariableComponentProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.VariableComponentProperty_clear(self) def write(self): """ """ return _libsbol.VariableComponentProperty_write(self) def find(self, query): return _libsbol.VariableComponentProperty_find(self, query) def getLowerBound(self): return _libsbol.VariableComponentProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.VariableComponentProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.VariableComponentProperty_validate(self, arg) def copy(self, target_property): return _libsbol.VariableComponentProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.VariableComponentProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.VariableComponentProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.VariableComponentProperty_python_iter_get, _libsbol.VariableComponentProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.VariableComponentProperty_addValidationRule(self, *args) VariableComponentProperty_swigregister = _libsbol.VariableComponentProperty_swigregister VariableComponentProperty_swigregister(VariableComponentProperty) class OwnedVariableComponent(VariableComponentProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [VariableComponentProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedVariableComponent, name, value) __swig_getmethods__ = {} for _s in [VariableComponentProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedVariableComponent, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedVariableComponent(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedVariableComponent_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedVariableComponent_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedVariableComponent_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedVariableComponent_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedVariableComponent_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedVariableComponent_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedVariableComponent_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedVariableComponent_define(self, definition_object) def find(self, uri): return _libsbol.OwnedVariableComponent_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedVariableComponent_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedVariableComponent_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedVariableComponent_python_iter_get, _libsbol.OwnedVariableComponent_python_iter_set) def __iter__(self): return _libsbol.OwnedVariableComponent___iter__(self) def next(self): return _libsbol.OwnedVariableComponent_next(self) def __next__(self): return _libsbol.OwnedVariableComponent___next__(self) def __len__(self): return _libsbol.OwnedVariableComponent___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedVariableComponent_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedVariableComponent_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedVariableComponent_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedVariableComponent_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedVariableComponent_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedVariableComponent_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedVariableComponent___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedVariableComponent___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedVariableComponent __del__ = lambda self: None OwnedVariableComponent_swigregister = _libsbol.OwnedVariableComponent_swigregister OwnedVariableComponent_swigregister(OwnedVariableComponent) class ComponentDefinitionVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ComponentDefinitionVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ComponentDefinitionVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.ComponentDefinitionVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.ComponentDefinitionVector___nonzero__(self) def __bool__(self): return _libsbol.ComponentDefinitionVector___bool__(self) def __len__(self): return _libsbol.ComponentDefinitionVector___len__(self) def __getslice__(self, i, j): return _libsbol.ComponentDefinitionVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.ComponentDefinitionVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.ComponentDefinitionVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.ComponentDefinitionVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.ComponentDefinitionVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.ComponentDefinitionVector___setitem__(self, *args) def pop(self): return _libsbol.ComponentDefinitionVector_pop(self) def append(self, x): return _libsbol.ComponentDefinitionVector_append(self, x) def empty(self): return _libsbol.ComponentDefinitionVector_empty(self) def size(self): return _libsbol.ComponentDefinitionVector_size(self) def swap(self, v): return _libsbol.ComponentDefinitionVector_swap(self, v) def begin(self): return _libsbol.ComponentDefinitionVector_begin(self) def end(self): return _libsbol.ComponentDefinitionVector_end(self) def rbegin(self): return _libsbol.ComponentDefinitionVector_rbegin(self) def rend(self): return _libsbol.ComponentDefinitionVector_rend(self) def clear(self): return _libsbol.ComponentDefinitionVector_clear(self) def get_allocator(self): return _libsbol.ComponentDefinitionVector_get_allocator(self) def pop_back(self): return _libsbol.ComponentDefinitionVector_pop_back(self) def erase(self, *args): return _libsbol.ComponentDefinitionVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_ComponentDefinitionVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.ComponentDefinitionVector_push_back(self, x) def front(self): return _libsbol.ComponentDefinitionVector_front(self) def back(self): return _libsbol.ComponentDefinitionVector_back(self) def assign(self, n, x): return _libsbol.ComponentDefinitionVector_assign(self, n, x) def resize(self, *args): return _libsbol.ComponentDefinitionVector_resize(self, *args) def insert(self, *args): return _libsbol.ComponentDefinitionVector_insert(self, *args) def reserve(self, n): return _libsbol.ComponentDefinitionVector_reserve(self, n) def capacity(self): return _libsbol.ComponentDefinitionVector_capacity(self) __swig_destroy__ = _libsbol.delete_ComponentDefinitionVector __del__ = lambda self: None ComponentDefinitionVector_swigregister = _libsbol.ComponentDefinitionVector_swigregister ComponentDefinitionVector_swigregister(ComponentDefinitionVector) class ComponentDefinitionProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ComponentDefinitionProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ComponentDefinitionProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_ComponentDefinitionProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_ComponentDefinitionProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.ComponentDefinitionProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.ComponentDefinitionProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.ComponentDefinitionProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.ComponentDefinitionProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.ComponentDefinitionProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.ComponentDefinitionProperty_clear(self) def write(self): """ """ return _libsbol.ComponentDefinitionProperty_write(self) def find(self, query): return _libsbol.ComponentDefinitionProperty_find(self, query) def getLowerBound(self): return _libsbol.ComponentDefinitionProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.ComponentDefinitionProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.ComponentDefinitionProperty_validate(self, arg) def copy(self, target_property): return _libsbol.ComponentDefinitionProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.ComponentDefinitionProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.ComponentDefinitionProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.ComponentDefinitionProperty_python_iter_get, _libsbol.ComponentDefinitionProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.ComponentDefinitionProperty_addValidationRule(self, *args) ComponentDefinitionProperty_swigregister = _libsbol.ComponentDefinitionProperty_swigregister ComponentDefinitionProperty_swigregister(ComponentDefinitionProperty) class OwnedComponentDefinition(ComponentDefinitionProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [ComponentDefinitionProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedComponentDefinition, name, value) __swig_getmethods__ = {} for _s in [ComponentDefinitionProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedComponentDefinition, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedComponentDefinition(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedComponentDefinition_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedComponentDefinition_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedComponentDefinition_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedComponentDefinition_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedComponentDefinition_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedComponentDefinition_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedComponentDefinition_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedComponentDefinition_define(self, definition_object) def find(self, uri): return _libsbol.OwnedComponentDefinition_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedComponentDefinition_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedComponentDefinition_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedComponentDefinition_python_iter_get, _libsbol.OwnedComponentDefinition_python_iter_set) def __iter__(self): return _libsbol.OwnedComponentDefinition___iter__(self) def next(self): return _libsbol.OwnedComponentDefinition_next(self) def __next__(self): return _libsbol.OwnedComponentDefinition___next__(self) def __len__(self): return _libsbol.OwnedComponentDefinition___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedComponentDefinition_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedComponentDefinition_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedComponentDefinition_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedComponentDefinition_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedComponentDefinition_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedComponentDefinition_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedComponentDefinition___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedComponentDefinition___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedComponentDefinition __del__ = lambda self: None OwnedComponentDefinition_swigregister = _libsbol.OwnedComponentDefinition_swigregister OwnedComponentDefinition_swigregister(OwnedComponentDefinition) class ModuleDefinitionVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ModuleDefinitionVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ModuleDefinitionVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.ModuleDefinitionVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.ModuleDefinitionVector___nonzero__(self) def __bool__(self): return _libsbol.ModuleDefinitionVector___bool__(self) def __len__(self): return _libsbol.ModuleDefinitionVector___len__(self) def __getslice__(self, i, j): return _libsbol.ModuleDefinitionVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.ModuleDefinitionVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.ModuleDefinitionVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.ModuleDefinitionVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.ModuleDefinitionVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.ModuleDefinitionVector___setitem__(self, *args) def pop(self): return _libsbol.ModuleDefinitionVector_pop(self) def append(self, x): return _libsbol.ModuleDefinitionVector_append(self, x) def empty(self): return _libsbol.ModuleDefinitionVector_empty(self) def size(self): return _libsbol.ModuleDefinitionVector_size(self) def swap(self, v): return _libsbol.ModuleDefinitionVector_swap(self, v) def begin(self): return _libsbol.ModuleDefinitionVector_begin(self) def end(self): return _libsbol.ModuleDefinitionVector_end(self) def rbegin(self): return _libsbol.ModuleDefinitionVector_rbegin(self) def rend(self): return _libsbol.ModuleDefinitionVector_rend(self) def clear(self): return _libsbol.ModuleDefinitionVector_clear(self) def get_allocator(self): return _libsbol.ModuleDefinitionVector_get_allocator(self) def pop_back(self): return _libsbol.ModuleDefinitionVector_pop_back(self) def erase(self, *args): return _libsbol.ModuleDefinitionVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_ModuleDefinitionVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.ModuleDefinitionVector_push_back(self, x) def front(self): return _libsbol.ModuleDefinitionVector_front(self) def back(self): return _libsbol.ModuleDefinitionVector_back(self) def assign(self, n, x): return _libsbol.ModuleDefinitionVector_assign(self, n, x) def resize(self, *args): return _libsbol.ModuleDefinitionVector_resize(self, *args) def insert(self, *args): return _libsbol.ModuleDefinitionVector_insert(self, *args) def reserve(self, n): return _libsbol.ModuleDefinitionVector_reserve(self, n) def capacity(self): return _libsbol.ModuleDefinitionVector_capacity(self) __swig_destroy__ = _libsbol.delete_ModuleDefinitionVector __del__ = lambda self: None ModuleDefinitionVector_swigregister = _libsbol.ModuleDefinitionVector_swigregister ModuleDefinitionVector_swigregister(ModuleDefinitionVector) class ModuleDefinitionProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ModuleDefinitionProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ModuleDefinitionProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_ModuleDefinitionProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_ModuleDefinitionProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.ModuleDefinitionProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.ModuleDefinitionProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.ModuleDefinitionProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.ModuleDefinitionProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.ModuleDefinitionProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.ModuleDefinitionProperty_clear(self) def write(self): """ """ return _libsbol.ModuleDefinitionProperty_write(self) def find(self, query): return _libsbol.ModuleDefinitionProperty_find(self, query) def getLowerBound(self): return _libsbol.ModuleDefinitionProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.ModuleDefinitionProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.ModuleDefinitionProperty_validate(self, arg) def copy(self, target_property): return _libsbol.ModuleDefinitionProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.ModuleDefinitionProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.ModuleDefinitionProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.ModuleDefinitionProperty_python_iter_get, _libsbol.ModuleDefinitionProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.ModuleDefinitionProperty_addValidationRule(self, *args) ModuleDefinitionProperty_swigregister = _libsbol.ModuleDefinitionProperty_swigregister ModuleDefinitionProperty_swigregister(ModuleDefinitionProperty) class OwnedModuleDefinition(ModuleDefinitionProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [ModuleDefinitionProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedModuleDefinition, name, value) __swig_getmethods__ = {} for _s in [ModuleDefinitionProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedModuleDefinition, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedModuleDefinition(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedModuleDefinition_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedModuleDefinition_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModuleDefinition_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedModuleDefinition_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedModuleDefinition_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedModuleDefinition_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModuleDefinition_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedModuleDefinition_define(self, definition_object) def find(self, uri): return _libsbol.OwnedModuleDefinition_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedModuleDefinition_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedModuleDefinition_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedModuleDefinition_python_iter_get, _libsbol.OwnedModuleDefinition_python_iter_set) def __iter__(self): return _libsbol.OwnedModuleDefinition___iter__(self) def next(self): return _libsbol.OwnedModuleDefinition_next(self) def __next__(self): return _libsbol.OwnedModuleDefinition___next__(self) def __len__(self): return _libsbol.OwnedModuleDefinition___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModuleDefinition_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModuleDefinition_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModuleDefinition_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModuleDefinition_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModuleDefinition_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModuleDefinition_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedModuleDefinition___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedModuleDefinition___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedModuleDefinition __del__ = lambda self: None OwnedModuleDefinition_swigregister = _libsbol.OwnedModuleDefinition_swigregister OwnedModuleDefinition_swigregister(OwnedModuleDefinition) class SequenceVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SequenceVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SequenceVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.SequenceVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.SequenceVector___nonzero__(self) def __bool__(self): return _libsbol.SequenceVector___bool__(self) def __len__(self): return _libsbol.SequenceVector___len__(self) def __getslice__(self, i, j): return _libsbol.SequenceVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.SequenceVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.SequenceVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.SequenceVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.SequenceVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.SequenceVector___setitem__(self, *args) def pop(self): return _libsbol.SequenceVector_pop(self) def append(self, x): return _libsbol.SequenceVector_append(self, x) def empty(self): return _libsbol.SequenceVector_empty(self) def size(self): return _libsbol.SequenceVector_size(self) def swap(self, v): return _libsbol.SequenceVector_swap(self, v) def begin(self): return _libsbol.SequenceVector_begin(self) def end(self): return _libsbol.SequenceVector_end(self) def rbegin(self): return _libsbol.SequenceVector_rbegin(self) def rend(self): return _libsbol.SequenceVector_rend(self) def clear(self): return _libsbol.SequenceVector_clear(self) def get_allocator(self): return _libsbol.SequenceVector_get_allocator(self) def pop_back(self): return _libsbol.SequenceVector_pop_back(self) def erase(self, *args): return _libsbol.SequenceVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_SequenceVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.SequenceVector_push_back(self, x) def front(self): return _libsbol.SequenceVector_front(self) def back(self): return _libsbol.SequenceVector_back(self) def assign(self, n, x): return _libsbol.SequenceVector_assign(self, n, x) def resize(self, *args): return _libsbol.SequenceVector_resize(self, *args) def insert(self, *args): return _libsbol.SequenceVector_insert(self, *args) def reserve(self, n): return _libsbol.SequenceVector_reserve(self, n) def capacity(self): return _libsbol.SequenceVector_capacity(self) __swig_destroy__ = _libsbol.delete_SequenceVector __del__ = lambda self: None SequenceVector_swigregister = _libsbol.SequenceVector_swigregister SequenceVector_swigregister(SequenceVector) class SequenceProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SequenceProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SequenceProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_SequenceProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_SequenceProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.SequenceProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.SequenceProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.SequenceProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.SequenceProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.SequenceProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.SequenceProperty_clear(self) def write(self): """ """ return _libsbol.SequenceProperty_write(self) def find(self, query): return _libsbol.SequenceProperty_find(self, query) def getLowerBound(self): return _libsbol.SequenceProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.SequenceProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.SequenceProperty_validate(self, arg) def copy(self, target_property): return _libsbol.SequenceProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.SequenceProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.SequenceProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.SequenceProperty_python_iter_get, _libsbol.SequenceProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.SequenceProperty_addValidationRule(self, *args) SequenceProperty_swigregister = _libsbol.SequenceProperty_swigregister SequenceProperty_swigregister(SequenceProperty) class OwnedSequence(SequenceProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [SequenceProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedSequence, name, value) __swig_getmethods__ = {} for _s in [SequenceProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedSequence, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedSequence(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedSequence_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedSequence_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequence_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedSequence_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedSequence_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedSequence_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequence_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedSequence_define(self, definition_object) def find(self, uri): return _libsbol.OwnedSequence_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedSequence_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedSequence_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedSequence_python_iter_get, _libsbol.OwnedSequence_python_iter_set) def __iter__(self): return _libsbol.OwnedSequence___iter__(self) def next(self): return _libsbol.OwnedSequence_next(self) def __next__(self): return _libsbol.OwnedSequence___next__(self) def __len__(self): return _libsbol.OwnedSequence___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequence_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequence_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequence_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequence_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSequence_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSequence_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedSequence___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedSequence___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedSequence __del__ = lambda self: None OwnedSequence_swigregister = _libsbol.OwnedSequence_swigregister OwnedSequence_swigregister(OwnedSequence) class ModelVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ModelVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ModelVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.ModelVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.ModelVector___nonzero__(self) def __bool__(self): return _libsbol.ModelVector___bool__(self) def __len__(self): return _libsbol.ModelVector___len__(self) def __getslice__(self, i, j): return _libsbol.ModelVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.ModelVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.ModelVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.ModelVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.ModelVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.ModelVector___setitem__(self, *args) def pop(self): return _libsbol.ModelVector_pop(self) def append(self, x): return _libsbol.ModelVector_append(self, x) def empty(self): return _libsbol.ModelVector_empty(self) def size(self): return _libsbol.ModelVector_size(self) def swap(self, v): return _libsbol.ModelVector_swap(self, v) def begin(self): return _libsbol.ModelVector_begin(self) def end(self): return _libsbol.ModelVector_end(self) def rbegin(self): return _libsbol.ModelVector_rbegin(self) def rend(self): return _libsbol.ModelVector_rend(self) def clear(self): return _libsbol.ModelVector_clear(self) def get_allocator(self): return _libsbol.ModelVector_get_allocator(self) def pop_back(self): return _libsbol.ModelVector_pop_back(self) def erase(self, *args): return _libsbol.ModelVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_ModelVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.ModelVector_push_back(self, x) def front(self): return _libsbol.ModelVector_front(self) def back(self): return _libsbol.ModelVector_back(self) def assign(self, n, x): return _libsbol.ModelVector_assign(self, n, x) def resize(self, *args): return _libsbol.ModelVector_resize(self, *args) def insert(self, *args): return _libsbol.ModelVector_insert(self, *args) def reserve(self, n): return _libsbol.ModelVector_reserve(self, n) def capacity(self): return _libsbol.ModelVector_capacity(self) __swig_destroy__ = _libsbol.delete_ModelVector __del__ = lambda self: None ModelVector_swigregister = _libsbol.ModelVector_swigregister ModelVector_swigregister(ModelVector) class ModelProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ModelProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ModelProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_ModelProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_ModelProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.ModelProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.ModelProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.ModelProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.ModelProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.ModelProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.ModelProperty_clear(self) def write(self): """ """ return _libsbol.ModelProperty_write(self) def find(self, query): return _libsbol.ModelProperty_find(self, query) def getLowerBound(self): return _libsbol.ModelProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.ModelProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.ModelProperty_validate(self, arg) def copy(self, target_property): return _libsbol.ModelProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.ModelProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.ModelProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.ModelProperty_python_iter_get, _libsbol.ModelProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.ModelProperty_addValidationRule(self, *args) ModelProperty_swigregister = _libsbol.ModelProperty_swigregister ModelProperty_swigregister(ModelProperty) class OwnedModel(ModelProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [ModelProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedModel, name, value) __swig_getmethods__ = {} for _s in [ModelProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedModel, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedModel(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedModel_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedModel_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModel_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedModel_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedModel_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedModel_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModel_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedModel_define(self, definition_object) def find(self, uri): return _libsbol.OwnedModel_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedModel_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedModel_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedModel_python_iter_get, _libsbol.OwnedModel_python_iter_set) def __iter__(self): return _libsbol.OwnedModel___iter__(self) def next(self): return _libsbol.OwnedModel_next(self) def __next__(self): return _libsbol.OwnedModel___next__(self) def __len__(self): return _libsbol.OwnedModel___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModel_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModel_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModel_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModel_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedModel_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedModel_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedModel___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedModel___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedModel __del__ = lambda self: None OwnedModel_swigregister = _libsbol.OwnedModel_swigregister OwnedModel_swigregister(OwnedModel) class CollectionVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, CollectionVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, CollectionVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.CollectionVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.CollectionVector___nonzero__(self) def __bool__(self): return _libsbol.CollectionVector___bool__(self) def __len__(self): return _libsbol.CollectionVector___len__(self) def __getslice__(self, i, j): return _libsbol.CollectionVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.CollectionVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.CollectionVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.CollectionVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.CollectionVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.CollectionVector___setitem__(self, *args) def pop(self): return _libsbol.CollectionVector_pop(self) def append(self, x): return _libsbol.CollectionVector_append(self, x) def empty(self): return _libsbol.CollectionVector_empty(self) def size(self): return _libsbol.CollectionVector_size(self) def swap(self, v): return _libsbol.CollectionVector_swap(self, v) def begin(self): return _libsbol.CollectionVector_begin(self) def end(self): return _libsbol.CollectionVector_end(self) def rbegin(self): return _libsbol.CollectionVector_rbegin(self) def rend(self): return _libsbol.CollectionVector_rend(self) def clear(self): return _libsbol.CollectionVector_clear(self) def get_allocator(self): return _libsbol.CollectionVector_get_allocator(self) def pop_back(self): return _libsbol.CollectionVector_pop_back(self) def erase(self, *args): return _libsbol.CollectionVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_CollectionVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.CollectionVector_push_back(self, x) def front(self): return _libsbol.CollectionVector_front(self) def back(self): return _libsbol.CollectionVector_back(self) def assign(self, n, x): return _libsbol.CollectionVector_assign(self, n, x) def resize(self, *args): return _libsbol.CollectionVector_resize(self, *args) def insert(self, *args): return _libsbol.CollectionVector_insert(self, *args) def reserve(self, n): return _libsbol.CollectionVector_reserve(self, n) def capacity(self): return _libsbol.CollectionVector_capacity(self) __swig_destroy__ = _libsbol.delete_CollectionVector __del__ = lambda self: None CollectionVector_swigregister = _libsbol.CollectionVector_swigregister CollectionVector_swigregister(CollectionVector) class CollectionProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, CollectionProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, CollectionProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_CollectionProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_CollectionProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.CollectionProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.CollectionProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.CollectionProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.CollectionProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.CollectionProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.CollectionProperty_clear(self) def write(self): """ """ return _libsbol.CollectionProperty_write(self) def find(self, query): return _libsbol.CollectionProperty_find(self, query) def getLowerBound(self): return _libsbol.CollectionProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.CollectionProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.CollectionProperty_validate(self, arg) def copy(self, target_property): return _libsbol.CollectionProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.CollectionProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.CollectionProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.CollectionProperty_python_iter_get, _libsbol.CollectionProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.CollectionProperty_addValidationRule(self, *args) CollectionProperty_swigregister = _libsbol.CollectionProperty_swigregister CollectionProperty_swigregister(CollectionProperty) class OwnedCollection(CollectionProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [CollectionProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedCollection, name, value) __swig_getmethods__ = {} for _s in [CollectionProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedCollection, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedCollection(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedCollection_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedCollection_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedCollection_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedCollection_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedCollection_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedCollection_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedCollection_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedCollection_define(self, definition_object) def find(self, uri): return _libsbol.OwnedCollection_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedCollection_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedCollection_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedCollection_python_iter_get, _libsbol.OwnedCollection_python_iter_set) def __iter__(self): return _libsbol.OwnedCollection___iter__(self) def next(self): return _libsbol.OwnedCollection_next(self) def __next__(self): return _libsbol.OwnedCollection___next__(self) def __len__(self): return _libsbol.OwnedCollection___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedCollection_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedCollection_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedCollection_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedCollection_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedCollection_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedCollection_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedCollection___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedCollection___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedCollection __del__ = lambda self: None OwnedCollection_swigregister = _libsbol.OwnedCollection_swigregister OwnedCollection_swigregister(OwnedCollection) class ActivityVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ActivityVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ActivityVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.ActivityVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.ActivityVector___nonzero__(self) def __bool__(self): return _libsbol.ActivityVector___bool__(self) def __len__(self): return _libsbol.ActivityVector___len__(self) def __getslice__(self, i, j): return _libsbol.ActivityVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.ActivityVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.ActivityVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.ActivityVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.ActivityVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.ActivityVector___setitem__(self, *args) def pop(self): return _libsbol.ActivityVector_pop(self) def append(self, x): return _libsbol.ActivityVector_append(self, x) def empty(self): return _libsbol.ActivityVector_empty(self) def size(self): return _libsbol.ActivityVector_size(self) def swap(self, v): return _libsbol.ActivityVector_swap(self, v) def begin(self): return _libsbol.ActivityVector_begin(self) def end(self): return _libsbol.ActivityVector_end(self) def rbegin(self): return _libsbol.ActivityVector_rbegin(self) def rend(self): return _libsbol.ActivityVector_rend(self) def clear(self): return _libsbol.ActivityVector_clear(self) def get_allocator(self): return _libsbol.ActivityVector_get_allocator(self) def pop_back(self): return _libsbol.ActivityVector_pop_back(self) def erase(self, *args): return _libsbol.ActivityVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_ActivityVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.ActivityVector_push_back(self, x) def front(self): return _libsbol.ActivityVector_front(self) def back(self): return _libsbol.ActivityVector_back(self) def assign(self, n, x): return _libsbol.ActivityVector_assign(self, n, x) def resize(self, *args): return _libsbol.ActivityVector_resize(self, *args) def insert(self, *args): return _libsbol.ActivityVector_insert(self, *args) def reserve(self, n): return _libsbol.ActivityVector_reserve(self, n) def capacity(self): return _libsbol.ActivityVector_capacity(self) __swig_destroy__ = _libsbol.delete_ActivityVector __del__ = lambda self: None ActivityVector_swigregister = _libsbol.ActivityVector_swigregister ActivityVector_swigregister(ActivityVector) class ActivityProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ActivityProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ActivityProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_ActivityProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_ActivityProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.ActivityProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.ActivityProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.ActivityProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.ActivityProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.ActivityProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.ActivityProperty_clear(self) def write(self): """ """ return _libsbol.ActivityProperty_write(self) def find(self, query): return _libsbol.ActivityProperty_find(self, query) def getLowerBound(self): return _libsbol.ActivityProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.ActivityProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.ActivityProperty_validate(self, arg) def copy(self, target_property): return _libsbol.ActivityProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.ActivityProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.ActivityProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.ActivityProperty_python_iter_get, _libsbol.ActivityProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.ActivityProperty_addValidationRule(self, *args) ActivityProperty_swigregister = _libsbol.ActivityProperty_swigregister ActivityProperty_swigregister(ActivityProperty) class OwnedActivity(ActivityProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [ActivityProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedActivity, name, value) __swig_getmethods__ = {} for _s in [ActivityProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedActivity, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedActivity(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedActivity_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedActivity_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedActivity_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedActivity_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedActivity_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedActivity_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedActivity_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedActivity_define(self, definition_object) def find(self, uri): return _libsbol.OwnedActivity_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedActivity_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedActivity_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedActivity_python_iter_get, _libsbol.OwnedActivity_python_iter_set) def __iter__(self): return _libsbol.OwnedActivity___iter__(self) def next(self): return _libsbol.OwnedActivity_next(self) def __next__(self): return _libsbol.OwnedActivity___next__(self) def __len__(self): return _libsbol.OwnedActivity___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedActivity_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedActivity_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedActivity_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedActivity_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedActivity_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedActivity_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedActivity___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedActivity___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedActivity __del__ = lambda self: None OwnedActivity_swigregister = _libsbol.OwnedActivity_swigregister OwnedActivity_swigregister(OwnedActivity) class PlanVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, PlanVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, PlanVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.PlanVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.PlanVector___nonzero__(self) def __bool__(self): return _libsbol.PlanVector___bool__(self) def __len__(self): return _libsbol.PlanVector___len__(self) def __getslice__(self, i, j): return _libsbol.PlanVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.PlanVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.PlanVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.PlanVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.PlanVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.PlanVector___setitem__(self, *args) def pop(self): return _libsbol.PlanVector_pop(self) def append(self, x): return _libsbol.PlanVector_append(self, x) def empty(self): return _libsbol.PlanVector_empty(self) def size(self): return _libsbol.PlanVector_size(self) def swap(self, v): return _libsbol.PlanVector_swap(self, v) def begin(self): return _libsbol.PlanVector_begin(self) def end(self): return _libsbol.PlanVector_end(self) def rbegin(self): return _libsbol.PlanVector_rbegin(self) def rend(self): return _libsbol.PlanVector_rend(self) def clear(self): return _libsbol.PlanVector_clear(self) def get_allocator(self): return _libsbol.PlanVector_get_allocator(self) def pop_back(self): return _libsbol.PlanVector_pop_back(self) def erase(self, *args): return _libsbol.PlanVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_PlanVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.PlanVector_push_back(self, x) def front(self): return _libsbol.PlanVector_front(self) def back(self): return _libsbol.PlanVector_back(self) def assign(self, n, x): return _libsbol.PlanVector_assign(self, n, x) def resize(self, *args): return _libsbol.PlanVector_resize(self, *args) def insert(self, *args): return _libsbol.PlanVector_insert(self, *args) def reserve(self, n): return _libsbol.PlanVector_reserve(self, n) def capacity(self): return _libsbol.PlanVector_capacity(self) __swig_destroy__ = _libsbol.delete_PlanVector __del__ = lambda self: None PlanVector_swigregister = _libsbol.PlanVector_swigregister PlanVector_swigregister(PlanVector) class PlanProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, PlanProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, PlanProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_PlanProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_PlanProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.PlanProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.PlanProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.PlanProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.PlanProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.PlanProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.PlanProperty_clear(self) def write(self): """ """ return _libsbol.PlanProperty_write(self) def find(self, query): return _libsbol.PlanProperty_find(self, query) def getLowerBound(self): return _libsbol.PlanProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.PlanProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.PlanProperty_validate(self, arg) def copy(self, target_property): return _libsbol.PlanProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.PlanProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.PlanProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.PlanProperty_python_iter_get, _libsbol.PlanProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.PlanProperty_addValidationRule(self, *args) PlanProperty_swigregister = _libsbol.PlanProperty_swigregister PlanProperty_swigregister(PlanProperty) class OwnedPlan(PlanProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [PlanProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedPlan, name, value) __swig_getmethods__ = {} for _s in [PlanProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedPlan, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedPlan(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedPlan_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedPlan_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedPlan_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedPlan_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedPlan_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedPlan_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedPlan_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedPlan_define(self, definition_object) def find(self, uri): return _libsbol.OwnedPlan_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedPlan_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedPlan_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedPlan_python_iter_get, _libsbol.OwnedPlan_python_iter_set) def __iter__(self): return _libsbol.OwnedPlan___iter__(self) def next(self): return _libsbol.OwnedPlan_next(self) def __next__(self): return _libsbol.OwnedPlan___next__(self) def __len__(self): return _libsbol.OwnedPlan___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedPlan_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedPlan_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedPlan_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedPlan_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedPlan_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedPlan_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedPlan___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedPlan___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedPlan __del__ = lambda self: None OwnedPlan_swigregister = _libsbol.OwnedPlan_swigregister OwnedPlan_swigregister(OwnedPlan) class AgentVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, AgentVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, AgentVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.AgentVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.AgentVector___nonzero__(self) def __bool__(self): return _libsbol.AgentVector___bool__(self) def __len__(self): return _libsbol.AgentVector___len__(self) def __getslice__(self, i, j): return _libsbol.AgentVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.AgentVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.AgentVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.AgentVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.AgentVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.AgentVector___setitem__(self, *args) def pop(self): return _libsbol.AgentVector_pop(self) def append(self, x): return _libsbol.AgentVector_append(self, x) def empty(self): return _libsbol.AgentVector_empty(self) def size(self): return _libsbol.AgentVector_size(self) def swap(self, v): return _libsbol.AgentVector_swap(self, v) def begin(self): return _libsbol.AgentVector_begin(self) def end(self): return _libsbol.AgentVector_end(self) def rbegin(self): return _libsbol.AgentVector_rbegin(self) def rend(self): return _libsbol.AgentVector_rend(self) def clear(self): return _libsbol.AgentVector_clear(self) def get_allocator(self): return _libsbol.AgentVector_get_allocator(self) def pop_back(self): return _libsbol.AgentVector_pop_back(self) def erase(self, *args): return _libsbol.AgentVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_AgentVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.AgentVector_push_back(self, x) def front(self): return _libsbol.AgentVector_front(self) def back(self): return _libsbol.AgentVector_back(self) def assign(self, n, x): return _libsbol.AgentVector_assign(self, n, x) def resize(self, *args): return _libsbol.AgentVector_resize(self, *args) def insert(self, *args): return _libsbol.AgentVector_insert(self, *args) def reserve(self, n): return _libsbol.AgentVector_reserve(self, n) def capacity(self): return _libsbol.AgentVector_capacity(self) __swig_destroy__ = _libsbol.delete_AgentVector __del__ = lambda self: None AgentVector_swigregister = _libsbol.AgentVector_swigregister AgentVector_swigregister(AgentVector) class AgentProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, AgentProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, AgentProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_AgentProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_AgentProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.AgentProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.AgentProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.AgentProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.AgentProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.AgentProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.AgentProperty_clear(self) def write(self): """ """ return _libsbol.AgentProperty_write(self) def find(self, query): return _libsbol.AgentProperty_find(self, query) def getLowerBound(self): return _libsbol.AgentProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.AgentProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.AgentProperty_validate(self, arg) def copy(self, target_property): return _libsbol.AgentProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.AgentProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.AgentProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.AgentProperty_python_iter_get, _libsbol.AgentProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.AgentProperty_addValidationRule(self, *args) AgentProperty_swigregister = _libsbol.AgentProperty_swigregister AgentProperty_swigregister(AgentProperty) class OwnedAgent(AgentProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [AgentProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedAgent, name, value) __swig_getmethods__ = {} for _s in [AgentProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedAgent, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedAgent(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedAgent_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedAgent_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAgent_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedAgent_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedAgent_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedAgent_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAgent_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedAgent_define(self, definition_object) def find(self, uri): return _libsbol.OwnedAgent_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedAgent_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedAgent_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedAgent_python_iter_get, _libsbol.OwnedAgent_python_iter_set) def __iter__(self): return _libsbol.OwnedAgent___iter__(self) def next(self): return _libsbol.OwnedAgent_next(self) def __next__(self): return _libsbol.OwnedAgent___next__(self) def __len__(self): return _libsbol.OwnedAgent___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAgent_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAgent_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAgent_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAgent_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAgent_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAgent_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedAgent___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedAgent___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedAgent __del__ = lambda self: None OwnedAgent_swigregister = _libsbol.OwnedAgent_swigregister OwnedAgent_swigregister(OwnedAgent) class AttachmentVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, AttachmentVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, AttachmentVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.AttachmentVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.AttachmentVector___nonzero__(self) def __bool__(self): return _libsbol.AttachmentVector___bool__(self) def __len__(self): return _libsbol.AttachmentVector___len__(self) def __getslice__(self, i, j): return _libsbol.AttachmentVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.AttachmentVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.AttachmentVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.AttachmentVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.AttachmentVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.AttachmentVector___setitem__(self, *args) def pop(self): return _libsbol.AttachmentVector_pop(self) def append(self, x): return _libsbol.AttachmentVector_append(self, x) def empty(self): return _libsbol.AttachmentVector_empty(self) def size(self): return _libsbol.AttachmentVector_size(self) def swap(self, v): return _libsbol.AttachmentVector_swap(self, v) def begin(self): return _libsbol.AttachmentVector_begin(self) def end(self): return _libsbol.AttachmentVector_end(self) def rbegin(self): return _libsbol.AttachmentVector_rbegin(self) def rend(self): return _libsbol.AttachmentVector_rend(self) def clear(self): return _libsbol.AttachmentVector_clear(self) def get_allocator(self): return _libsbol.AttachmentVector_get_allocator(self) def pop_back(self): return _libsbol.AttachmentVector_pop_back(self) def erase(self, *args): return _libsbol.AttachmentVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_AttachmentVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.AttachmentVector_push_back(self, x) def front(self): return _libsbol.AttachmentVector_front(self) def back(self): return _libsbol.AttachmentVector_back(self) def assign(self, n, x): return _libsbol.AttachmentVector_assign(self, n, x) def resize(self, *args): return _libsbol.AttachmentVector_resize(self, *args) def insert(self, *args): return _libsbol.AttachmentVector_insert(self, *args) def reserve(self, n): return _libsbol.AttachmentVector_reserve(self, n) def capacity(self): return _libsbol.AttachmentVector_capacity(self) __swig_destroy__ = _libsbol.delete_AttachmentVector __del__ = lambda self: None AttachmentVector_swigregister = _libsbol.AttachmentVector_swigregister AttachmentVector_swigregister(AttachmentVector) class AttachmentProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, AttachmentProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, AttachmentProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_AttachmentProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_AttachmentProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.AttachmentProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.AttachmentProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.AttachmentProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.AttachmentProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.AttachmentProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.AttachmentProperty_clear(self) def write(self): """ """ return _libsbol.AttachmentProperty_write(self) def find(self, query): return _libsbol.AttachmentProperty_find(self, query) def getLowerBound(self): return _libsbol.AttachmentProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.AttachmentProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.AttachmentProperty_validate(self, arg) def copy(self, target_property): return _libsbol.AttachmentProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.AttachmentProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.AttachmentProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.AttachmentProperty_python_iter_get, _libsbol.AttachmentProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.AttachmentProperty_addValidationRule(self, *args) AttachmentProperty_swigregister = _libsbol.AttachmentProperty_swigregister AttachmentProperty_swigregister(AttachmentProperty) class OwnedAttachment(AttachmentProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [AttachmentProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedAttachment, name, value) __swig_getmethods__ = {} for _s in [AttachmentProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedAttachment, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedAttachment(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedAttachment_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedAttachment_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAttachment_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedAttachment_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedAttachment_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedAttachment_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAttachment_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedAttachment_define(self, definition_object) def find(self, uri): return _libsbol.OwnedAttachment_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedAttachment_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedAttachment_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedAttachment_python_iter_get, _libsbol.OwnedAttachment_python_iter_set) def __iter__(self): return _libsbol.OwnedAttachment___iter__(self) def next(self): return _libsbol.OwnedAttachment_next(self) def __next__(self): return _libsbol.OwnedAttachment___next__(self) def __len__(self): return _libsbol.OwnedAttachment___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAttachment_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAttachment_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAttachment_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAttachment_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAttachment_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAttachment_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedAttachment___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedAttachment___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedAttachment __del__ = lambda self: None OwnedAttachment_swigregister = _libsbol.OwnedAttachment_swigregister OwnedAttachment_swigregister(OwnedAttachment) class ImplementationVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ImplementationVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ImplementationVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.ImplementationVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.ImplementationVector___nonzero__(self) def __bool__(self): return _libsbol.ImplementationVector___bool__(self) def __len__(self): return _libsbol.ImplementationVector___len__(self) def __getslice__(self, i, j): return _libsbol.ImplementationVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.ImplementationVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.ImplementationVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.ImplementationVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.ImplementationVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.ImplementationVector___setitem__(self, *args) def pop(self): return _libsbol.ImplementationVector_pop(self) def append(self, x): return _libsbol.ImplementationVector_append(self, x) def empty(self): return _libsbol.ImplementationVector_empty(self) def size(self): return _libsbol.ImplementationVector_size(self) def swap(self, v): return _libsbol.ImplementationVector_swap(self, v) def begin(self): return _libsbol.ImplementationVector_begin(self) def end(self): return _libsbol.ImplementationVector_end(self) def rbegin(self): return _libsbol.ImplementationVector_rbegin(self) def rend(self): return _libsbol.ImplementationVector_rend(self) def clear(self): return _libsbol.ImplementationVector_clear(self) def get_allocator(self): return _libsbol.ImplementationVector_get_allocator(self) def pop_back(self): return _libsbol.ImplementationVector_pop_back(self) def erase(self, *args): return _libsbol.ImplementationVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_ImplementationVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.ImplementationVector_push_back(self, x) def front(self): return _libsbol.ImplementationVector_front(self) def back(self): return _libsbol.ImplementationVector_back(self) def assign(self, n, x): return _libsbol.ImplementationVector_assign(self, n, x) def resize(self, *args): return _libsbol.ImplementationVector_resize(self, *args) def insert(self, *args): return _libsbol.ImplementationVector_insert(self, *args) def reserve(self, n): return _libsbol.ImplementationVector_reserve(self, n) def capacity(self): return _libsbol.ImplementationVector_capacity(self) __swig_destroy__ = _libsbol.delete_ImplementationVector __del__ = lambda self: None ImplementationVector_swigregister = _libsbol.ImplementationVector_swigregister ImplementationVector_swigregister(ImplementationVector) class ImplementationProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, ImplementationProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, ImplementationProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_ImplementationProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_ImplementationProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.ImplementationProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.ImplementationProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.ImplementationProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.ImplementationProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.ImplementationProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.ImplementationProperty_clear(self) def write(self): """ """ return _libsbol.ImplementationProperty_write(self) def find(self, query): return _libsbol.ImplementationProperty_find(self, query) def getLowerBound(self): return _libsbol.ImplementationProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.ImplementationProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.ImplementationProperty_validate(self, arg) def copy(self, target_property): return _libsbol.ImplementationProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.ImplementationProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.ImplementationProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.ImplementationProperty_python_iter_get, _libsbol.ImplementationProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.ImplementationProperty_addValidationRule(self, *args) ImplementationProperty_swigregister = _libsbol.ImplementationProperty_swigregister ImplementationProperty_swigregister(ImplementationProperty) class OwnedImplementation(ImplementationProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [ImplementationProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedImplementation, name, value) __swig_getmethods__ = {} for _s in [ImplementationProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedImplementation, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedImplementation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedImplementation_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedImplementation_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedImplementation_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedImplementation_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedImplementation_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedImplementation_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedImplementation_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedImplementation_define(self, definition_object) def find(self, uri): return _libsbol.OwnedImplementation_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedImplementation_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedImplementation_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedImplementation_python_iter_get, _libsbol.OwnedImplementation_python_iter_set) def __iter__(self): return _libsbol.OwnedImplementation___iter__(self) def next(self): return _libsbol.OwnedImplementation_next(self) def __next__(self): return _libsbol.OwnedImplementation___next__(self) def __len__(self): return _libsbol.OwnedImplementation___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedImplementation_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedImplementation_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedImplementation_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedImplementation_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedImplementation_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedImplementation_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedImplementation___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedImplementation___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedImplementation __del__ = lambda self: None OwnedImplementation_swigregister = _libsbol.OwnedImplementation_swigregister OwnedImplementation_swigregister(OwnedImplementation) class CombinatorialDerivationVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, CombinatorialDerivationVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, CombinatorialDerivationVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.CombinatorialDerivationVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.CombinatorialDerivationVector___nonzero__(self) def __bool__(self): return _libsbol.CombinatorialDerivationVector___bool__(self) def __len__(self): return _libsbol.CombinatorialDerivationVector___len__(self) def __getslice__(self, i, j): return _libsbol.CombinatorialDerivationVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.CombinatorialDerivationVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.CombinatorialDerivationVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.CombinatorialDerivationVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.CombinatorialDerivationVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.CombinatorialDerivationVector___setitem__(self, *args) def pop(self): return _libsbol.CombinatorialDerivationVector_pop(self) def append(self, x): return _libsbol.CombinatorialDerivationVector_append(self, x) def empty(self): return _libsbol.CombinatorialDerivationVector_empty(self) def size(self): return _libsbol.CombinatorialDerivationVector_size(self) def swap(self, v): return _libsbol.CombinatorialDerivationVector_swap(self, v) def begin(self): return _libsbol.CombinatorialDerivationVector_begin(self) def end(self): return _libsbol.CombinatorialDerivationVector_end(self) def rbegin(self): return _libsbol.CombinatorialDerivationVector_rbegin(self) def rend(self): return _libsbol.CombinatorialDerivationVector_rend(self) def clear(self): return _libsbol.CombinatorialDerivationVector_clear(self) def get_allocator(self): return _libsbol.CombinatorialDerivationVector_get_allocator(self) def pop_back(self): return _libsbol.CombinatorialDerivationVector_pop_back(self) def erase(self, *args): return _libsbol.CombinatorialDerivationVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_CombinatorialDerivationVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.CombinatorialDerivationVector_push_back(self, x) def front(self): return _libsbol.CombinatorialDerivationVector_front(self) def back(self): return _libsbol.CombinatorialDerivationVector_back(self) def assign(self, n, x): return _libsbol.CombinatorialDerivationVector_assign(self, n, x) def resize(self, *args): return _libsbol.CombinatorialDerivationVector_resize(self, *args) def insert(self, *args): return _libsbol.CombinatorialDerivationVector_insert(self, *args) def reserve(self, n): return _libsbol.CombinatorialDerivationVector_reserve(self, n) def capacity(self): return _libsbol.CombinatorialDerivationVector_capacity(self) __swig_destroy__ = _libsbol.delete_CombinatorialDerivationVector __del__ = lambda self: None CombinatorialDerivationVector_swigregister = _libsbol.CombinatorialDerivationVector_swigregister CombinatorialDerivationVector_swigregister(CombinatorialDerivationVector) class CombinatorialDerivationProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, CombinatorialDerivationProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, CombinatorialDerivationProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_CombinatorialDerivationProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_CombinatorialDerivationProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.CombinatorialDerivationProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.CombinatorialDerivationProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.CombinatorialDerivationProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.CombinatorialDerivationProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.CombinatorialDerivationProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.CombinatorialDerivationProperty_clear(self) def write(self): """ """ return _libsbol.CombinatorialDerivationProperty_write(self) def find(self, query): return _libsbol.CombinatorialDerivationProperty_find(self, query) def getLowerBound(self): return _libsbol.CombinatorialDerivationProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.CombinatorialDerivationProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.CombinatorialDerivationProperty_validate(self, arg) def copy(self, target_property): return _libsbol.CombinatorialDerivationProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.CombinatorialDerivationProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.CombinatorialDerivationProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.CombinatorialDerivationProperty_python_iter_get, _libsbol.CombinatorialDerivationProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.CombinatorialDerivationProperty_addValidationRule(self, *args) CombinatorialDerivationProperty_swigregister = _libsbol.CombinatorialDerivationProperty_swigregister CombinatorialDerivationProperty_swigregister(CombinatorialDerivationProperty) class OwnedCombinatorialDerivation(CombinatorialDerivationProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [CombinatorialDerivationProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedCombinatorialDerivation, name, value) __swig_getmethods__ = {} for _s in [CombinatorialDerivationProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedCombinatorialDerivation, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedCombinatorialDerivation(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedCombinatorialDerivation_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedCombinatorialDerivation_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedCombinatorialDerivation_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedCombinatorialDerivation_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedCombinatorialDerivation_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedCombinatorialDerivation_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedCombinatorialDerivation_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedCombinatorialDerivation_define(self, definition_object) def find(self, uri): return _libsbol.OwnedCombinatorialDerivation_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedCombinatorialDerivation_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedCombinatorialDerivation_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedCombinatorialDerivation_python_iter_get, _libsbol.OwnedCombinatorialDerivation_python_iter_set) def __iter__(self): return _libsbol.OwnedCombinatorialDerivation___iter__(self) def next(self): return _libsbol.OwnedCombinatorialDerivation_next(self) def __next__(self): return _libsbol.OwnedCombinatorialDerivation___next__(self) def __len__(self): return _libsbol.OwnedCombinatorialDerivation___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedCombinatorialDerivation_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedCombinatorialDerivation_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedCombinatorialDerivation_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedCombinatorialDerivation_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedCombinatorialDerivation_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedCombinatorialDerivation_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedCombinatorialDerivation___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedCombinatorialDerivation___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedCombinatorialDerivation __del__ = lambda self: None OwnedCombinatorialDerivation_swigregister = _libsbol.OwnedCombinatorialDerivation_swigregister OwnedCombinatorialDerivation_swigregister(OwnedCombinatorialDerivation) class DesignVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, DesignVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, DesignVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.DesignVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.DesignVector___nonzero__(self) def __bool__(self): return _libsbol.DesignVector___bool__(self) def __len__(self): return _libsbol.DesignVector___len__(self) def __getslice__(self, i, j): return _libsbol.DesignVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.DesignVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.DesignVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.DesignVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.DesignVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.DesignVector___setitem__(self, *args) def pop(self): return _libsbol.DesignVector_pop(self) def append(self, x): return _libsbol.DesignVector_append(self, x) def empty(self): return _libsbol.DesignVector_empty(self) def size(self): return _libsbol.DesignVector_size(self) def swap(self, v): return _libsbol.DesignVector_swap(self, v) def begin(self): return _libsbol.DesignVector_begin(self) def end(self): return _libsbol.DesignVector_end(self) def rbegin(self): return _libsbol.DesignVector_rbegin(self) def rend(self): return _libsbol.DesignVector_rend(self) def clear(self): return _libsbol.DesignVector_clear(self) def get_allocator(self): return _libsbol.DesignVector_get_allocator(self) def pop_back(self): return _libsbol.DesignVector_pop_back(self) def erase(self, *args): return _libsbol.DesignVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_DesignVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.DesignVector_push_back(self, x) def front(self): return _libsbol.DesignVector_front(self) def back(self): return _libsbol.DesignVector_back(self) def assign(self, n, x): return _libsbol.DesignVector_assign(self, n, x) def resize(self, *args): return _libsbol.DesignVector_resize(self, *args) def insert(self, *args): return _libsbol.DesignVector_insert(self, *args) def reserve(self, n): return _libsbol.DesignVector_reserve(self, n) def capacity(self): return _libsbol.DesignVector_capacity(self) __swig_destroy__ = _libsbol.delete_DesignVector __del__ = lambda self: None DesignVector_swigregister = _libsbol.DesignVector_swigregister DesignVector_swigregister(DesignVector) class DesignProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, DesignProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, DesignProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_DesignProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_DesignProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.DesignProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.DesignProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.DesignProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.DesignProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.DesignProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.DesignProperty_clear(self) def write(self): """ """ return _libsbol.DesignProperty_write(self) def find(self, query): return _libsbol.DesignProperty_find(self, query) def getLowerBound(self): return _libsbol.DesignProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.DesignProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.DesignProperty_validate(self, arg) def copy(self, target_property): return _libsbol.DesignProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.DesignProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.DesignProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.DesignProperty_python_iter_get, _libsbol.DesignProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.DesignProperty_addValidationRule(self, *args) DesignProperty_swigregister = _libsbol.DesignProperty_swigregister DesignProperty_swigregister(DesignProperty) class OwnedDesign(DesignProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [DesignProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedDesign, name, value) __swig_getmethods__ = {} for _s in [DesignProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedDesign, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedDesign(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedDesign_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedDesign_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedDesign_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedDesign_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedDesign_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedDesign_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedDesign_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedDesign_define(self, definition_object) def find(self, uri): return _libsbol.OwnedDesign_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedDesign_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedDesign_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedDesign_python_iter_get, _libsbol.OwnedDesign_python_iter_set) def __iter__(self): return _libsbol.OwnedDesign___iter__(self) def next(self): return _libsbol.OwnedDesign_next(self) def __next__(self): return _libsbol.OwnedDesign___next__(self) def __len__(self): return _libsbol.OwnedDesign___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedDesign_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedDesign_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedDesign_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedDesign_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedDesign_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedDesign_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedDesign___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedDesign___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedDesign __del__ = lambda self: None OwnedDesign_swigregister = _libsbol.OwnedDesign_swigregister OwnedDesign_swigregister(OwnedDesign) class BuildVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, BuildVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, BuildVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.BuildVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.BuildVector___nonzero__(self) def __bool__(self): return _libsbol.BuildVector___bool__(self) def __len__(self): return _libsbol.BuildVector___len__(self) def __getslice__(self, i, j): return _libsbol.BuildVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.BuildVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.BuildVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.BuildVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.BuildVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.BuildVector___setitem__(self, *args) def pop(self): return _libsbol.BuildVector_pop(self) def append(self, x): return _libsbol.BuildVector_append(self, x) def empty(self): return _libsbol.BuildVector_empty(self) def size(self): return _libsbol.BuildVector_size(self) def swap(self, v): return _libsbol.BuildVector_swap(self, v) def begin(self): return _libsbol.BuildVector_begin(self) def end(self): return _libsbol.BuildVector_end(self) def rbegin(self): return _libsbol.BuildVector_rbegin(self) def rend(self): return _libsbol.BuildVector_rend(self) def clear(self): return _libsbol.BuildVector_clear(self) def get_allocator(self): return _libsbol.BuildVector_get_allocator(self) def pop_back(self): return _libsbol.BuildVector_pop_back(self) def erase(self, *args): return _libsbol.BuildVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_BuildVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.BuildVector_push_back(self, x) def front(self): return _libsbol.BuildVector_front(self) def back(self): return _libsbol.BuildVector_back(self) def assign(self, n, x): return _libsbol.BuildVector_assign(self, n, x) def resize(self, *args): return _libsbol.BuildVector_resize(self, *args) def insert(self, *args): return _libsbol.BuildVector_insert(self, *args) def reserve(self, n): return _libsbol.BuildVector_reserve(self, n) def capacity(self): return _libsbol.BuildVector_capacity(self) __swig_destroy__ = _libsbol.delete_BuildVector __del__ = lambda self: None BuildVector_swigregister = _libsbol.BuildVector_swigregister BuildVector_swigregister(BuildVector) class BuildProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, BuildProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, BuildProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_BuildProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_BuildProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.BuildProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.BuildProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.BuildProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.BuildProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.BuildProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.BuildProperty_clear(self) def write(self): """ """ return _libsbol.BuildProperty_write(self) def find(self, query): return _libsbol.BuildProperty_find(self, query) def getLowerBound(self): return _libsbol.BuildProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.BuildProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.BuildProperty_validate(self, arg) def copy(self, target_property): return _libsbol.BuildProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.BuildProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.BuildProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.BuildProperty_python_iter_get, _libsbol.BuildProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.BuildProperty_addValidationRule(self, *args) BuildProperty_swigregister = _libsbol.BuildProperty_swigregister BuildProperty_swigregister(BuildProperty) class OwnedBuild(BuildProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [BuildProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedBuild, name, value) __swig_getmethods__ = {} for _s in [BuildProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedBuild, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedBuild(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedBuild_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedBuild_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedBuild_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedBuild_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedBuild_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedBuild_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedBuild_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedBuild_define(self, definition_object) def find(self, uri): return _libsbol.OwnedBuild_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedBuild_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedBuild_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedBuild_python_iter_get, _libsbol.OwnedBuild_python_iter_set) def __iter__(self): return _libsbol.OwnedBuild___iter__(self) def next(self): return _libsbol.OwnedBuild_next(self) def __next__(self): return _libsbol.OwnedBuild___next__(self) def __len__(self): return _libsbol.OwnedBuild___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedBuild_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedBuild_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedBuild_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedBuild_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedBuild_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedBuild_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedBuild___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedBuild___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedBuild __del__ = lambda self: None OwnedBuild_swigregister = _libsbol.OwnedBuild_swigregister OwnedBuild_swigregister(OwnedBuild) class TestVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, TestVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, TestVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.TestVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.TestVector___nonzero__(self) def __bool__(self): return _libsbol.TestVector___bool__(self) def __len__(self): return _libsbol.TestVector___len__(self) def __getslice__(self, i, j): return _libsbol.TestVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.TestVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.TestVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.TestVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.TestVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.TestVector___setitem__(self, *args) def pop(self): return _libsbol.TestVector_pop(self) def append(self, x): return _libsbol.TestVector_append(self, x) def empty(self): return _libsbol.TestVector_empty(self) def size(self): return _libsbol.TestVector_size(self) def swap(self, v): return _libsbol.TestVector_swap(self, v) def begin(self): return _libsbol.TestVector_begin(self) def end(self): return _libsbol.TestVector_end(self) def rbegin(self): return _libsbol.TestVector_rbegin(self) def rend(self): return _libsbol.TestVector_rend(self) def clear(self): return _libsbol.TestVector_clear(self) def get_allocator(self): return _libsbol.TestVector_get_allocator(self) def pop_back(self): return _libsbol.TestVector_pop_back(self) def erase(self, *args): return _libsbol.TestVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_TestVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.TestVector_push_back(self, x) def front(self): return _libsbol.TestVector_front(self) def back(self): return _libsbol.TestVector_back(self) def assign(self, n, x): return _libsbol.TestVector_assign(self, n, x) def resize(self, *args): return _libsbol.TestVector_resize(self, *args) def insert(self, *args): return _libsbol.TestVector_insert(self, *args) def reserve(self, n): return _libsbol.TestVector_reserve(self, n) def capacity(self): return _libsbol.TestVector_capacity(self) __swig_destroy__ = _libsbol.delete_TestVector __del__ = lambda self: None TestVector_swigregister = _libsbol.TestVector_swigregister TestVector_swigregister(TestVector) class TestProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, TestProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, TestProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_TestProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_TestProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.TestProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.TestProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.TestProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.TestProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.TestProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.TestProperty_clear(self) def write(self): """ """ return _libsbol.TestProperty_write(self) def find(self, query): return _libsbol.TestProperty_find(self, query) def getLowerBound(self): return _libsbol.TestProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.TestProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.TestProperty_validate(self, arg) def copy(self, target_property): return _libsbol.TestProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.TestProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.TestProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.TestProperty_python_iter_get, _libsbol.TestProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.TestProperty_addValidationRule(self, *args) TestProperty_swigregister = _libsbol.TestProperty_swigregister TestProperty_swigregister(TestProperty) class OwnedTest(TestProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [TestProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedTest, name, value) __swig_getmethods__ = {} for _s in [TestProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedTest, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedTest(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedTest_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedTest_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedTest_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedTest_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedTest_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedTest_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedTest_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedTest_define(self, definition_object) def find(self, uri): return _libsbol.OwnedTest_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedTest_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedTest_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedTest_python_iter_get, _libsbol.OwnedTest_python_iter_set) def __iter__(self): return _libsbol.OwnedTest___iter__(self) def next(self): return _libsbol.OwnedTest_next(self) def __next__(self): return _libsbol.OwnedTest___next__(self) def __len__(self): return _libsbol.OwnedTest___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedTest_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedTest_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedTest_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedTest_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedTest_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedTest_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedTest___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedTest___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedTest __del__ = lambda self: None OwnedTest_swigregister = _libsbol.OwnedTest_swigregister OwnedTest_swigregister(OwnedTest) class AnalysisVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, AnalysisVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, AnalysisVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.AnalysisVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.AnalysisVector___nonzero__(self) def __bool__(self): return _libsbol.AnalysisVector___bool__(self) def __len__(self): return _libsbol.AnalysisVector___len__(self) def __getslice__(self, i, j): return _libsbol.AnalysisVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.AnalysisVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.AnalysisVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.AnalysisVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.AnalysisVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.AnalysisVector___setitem__(self, *args) def pop(self): return _libsbol.AnalysisVector_pop(self) def append(self, x): return _libsbol.AnalysisVector_append(self, x) def empty(self): return _libsbol.AnalysisVector_empty(self) def size(self): return _libsbol.AnalysisVector_size(self) def swap(self, v): return _libsbol.AnalysisVector_swap(self, v) def begin(self): return _libsbol.AnalysisVector_begin(self) def end(self): return _libsbol.AnalysisVector_end(self) def rbegin(self): return _libsbol.AnalysisVector_rbegin(self) def rend(self): return _libsbol.AnalysisVector_rend(self) def clear(self): return _libsbol.AnalysisVector_clear(self) def get_allocator(self): return _libsbol.AnalysisVector_get_allocator(self) def pop_back(self): return _libsbol.AnalysisVector_pop_back(self) def erase(self, *args): return _libsbol.AnalysisVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_AnalysisVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.AnalysisVector_push_back(self, x) def front(self): return _libsbol.AnalysisVector_front(self) def back(self): return _libsbol.AnalysisVector_back(self) def assign(self, n, x): return _libsbol.AnalysisVector_assign(self, n, x) def resize(self, *args): return _libsbol.AnalysisVector_resize(self, *args) def insert(self, *args): return _libsbol.AnalysisVector_insert(self, *args) def reserve(self, n): return _libsbol.AnalysisVector_reserve(self, n) def capacity(self): return _libsbol.AnalysisVector_capacity(self) __swig_destroy__ = _libsbol.delete_AnalysisVector __del__ = lambda self: None AnalysisVector_swigregister = _libsbol.AnalysisVector_swigregister AnalysisVector_swigregister(AnalysisVector) class AnalysisProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, AnalysisProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, AnalysisProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_AnalysisProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_AnalysisProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.AnalysisProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.AnalysisProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.AnalysisProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.AnalysisProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.AnalysisProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.AnalysisProperty_clear(self) def write(self): """ """ return _libsbol.AnalysisProperty_write(self) def find(self, query): return _libsbol.AnalysisProperty_find(self, query) def getLowerBound(self): return _libsbol.AnalysisProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.AnalysisProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.AnalysisProperty_validate(self, arg) def copy(self, target_property): return _libsbol.AnalysisProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.AnalysisProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.AnalysisProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.AnalysisProperty_python_iter_get, _libsbol.AnalysisProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.AnalysisProperty_addValidationRule(self, *args) AnalysisProperty_swigregister = _libsbol.AnalysisProperty_swigregister AnalysisProperty_swigregister(AnalysisProperty) class OwnedAnalysis(AnalysisProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [AnalysisProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedAnalysis, name, value) __swig_getmethods__ = {} for _s in [AnalysisProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedAnalysis, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedAnalysis(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedAnalysis_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedAnalysis_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAnalysis_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedAnalysis_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedAnalysis_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedAnalysis_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAnalysis_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedAnalysis_define(self, definition_object) def find(self, uri): return _libsbol.OwnedAnalysis_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedAnalysis_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedAnalysis_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedAnalysis_python_iter_get, _libsbol.OwnedAnalysis_python_iter_set) def __iter__(self): return _libsbol.OwnedAnalysis___iter__(self) def next(self): return _libsbol.OwnedAnalysis_next(self) def __next__(self): return _libsbol.OwnedAnalysis___next__(self) def __len__(self): return _libsbol.OwnedAnalysis___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAnalysis_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAnalysis_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAnalysis_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAnalysis_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedAnalysis_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedAnalysis_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedAnalysis___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedAnalysis___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedAnalysis __del__ = lambda self: None OwnedAnalysis_swigregister = _libsbol.OwnedAnalysis_swigregister OwnedAnalysis_swigregister(OwnedAnalysis) class SampleRosterVector(_object): __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SampleRosterVector, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SampleRosterVector, name) __repr__ = _swig_repr def iterator(self): return _libsbol.SampleRosterVector_iterator(self) def __iter__(self): return self.iterator() def __nonzero__(self): return _libsbol.SampleRosterVector___nonzero__(self) def __bool__(self): return _libsbol.SampleRosterVector___bool__(self) def __len__(self): return _libsbol.SampleRosterVector___len__(self) def __getslice__(self, i, j): return _libsbol.SampleRosterVector___getslice__(self, i, j) def __setslice__(self, *args): return _libsbol.SampleRosterVector___setslice__(self, *args) def __delslice__(self, i, j): return _libsbol.SampleRosterVector___delslice__(self, i, j) def __delitem__(self, *args): return _libsbol.SampleRosterVector___delitem__(self, *args) def __getitem__(self, *args): return _libsbol.SampleRosterVector___getitem__(self, *args) def __setitem__(self, *args): return _libsbol.SampleRosterVector___setitem__(self, *args) def pop(self): return _libsbol.SampleRosterVector_pop(self) def append(self, x): return _libsbol.SampleRosterVector_append(self, x) def empty(self): return _libsbol.SampleRosterVector_empty(self) def size(self): return _libsbol.SampleRosterVector_size(self) def swap(self, v): return _libsbol.SampleRosterVector_swap(self, v) def begin(self): return _libsbol.SampleRosterVector_begin(self) def end(self): return _libsbol.SampleRosterVector_end(self) def rbegin(self): return _libsbol.SampleRosterVector_rbegin(self) def rend(self): return _libsbol.SampleRosterVector_rend(self) def clear(self): return _libsbol.SampleRosterVector_clear(self) def get_allocator(self): return _libsbol.SampleRosterVector_get_allocator(self) def pop_back(self): return _libsbol.SampleRosterVector_pop_back(self) def erase(self, *args): return _libsbol.SampleRosterVector_erase(self, *args) def __init__(self, *args): this = _libsbol.new_SampleRosterVector(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def push_back(self, x): return _libsbol.SampleRosterVector_push_back(self, x) def front(self): return _libsbol.SampleRosterVector_front(self) def back(self): return _libsbol.SampleRosterVector_back(self) def assign(self, n, x): return _libsbol.SampleRosterVector_assign(self, n, x) def resize(self, *args): return _libsbol.SampleRosterVector_resize(self, *args) def insert(self, *args): return _libsbol.SampleRosterVector_insert(self, *args) def reserve(self, n): return _libsbol.SampleRosterVector_reserve(self, n) def capacity(self): return _libsbol.SampleRosterVector_capacity(self) __swig_destroy__ = _libsbol.delete_SampleRosterVector __del__ = lambda self: None SampleRosterVector_swigregister = _libsbol.SampleRosterVector_swigregister SampleRosterVector_swigregister(SampleRosterVector) class SampleRosterProperty(_object): """ Member properties of all SBOL objects are defined using a Property object. The Property class provides a generic interface for accessing SBOL objects. At a low level, the Property class converts SBOL data structures into RDF triples. templateparam ------------- * `The` : SBOL specification currently supports string, URI, and integer literal values. """ __swig_setmethods__ = {} __setattr__ = lambda self, name, value: _swig_setattr(self, SampleRosterProperty, name, value) __swig_getmethods__ = {} __getattr__ = lambda self, name: _swig_getattr(self, SampleRosterProperty, name) __repr__ = _swig_repr def __init__(self, *args): """ Parameters ---------- * `type_uri` : An RDF hash URI for this property, consisting of a namespace followed by an identifier. For example, Properties of SBOLObjects use URIs of the form http://sbols.org/v2#somePropertyName, where the identifier somePropertyName determines the appearance of XML nodes in an SBOL file. Alternatively, annotations in a custom namespace can be provided using a similarly formed hash URI in another namespace. * `property_owner` : All Property objects must have a pointer back to its parent SBOLObject of which it is a member * `initial_value` : The initial value of the Property * `validation_rules` : A vector of externally defined ValidationRules. The vector contains pointers to functions which correspond to the validation rules listed in the appendix of the formal SBOL specification document. ValidationRules are automatically checked every time a setter or adder method is called and when Documents are read and written. """ this = _libsbol.new_SampleRosterProperty(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_SampleRosterProperty __del__ = lambda self: None def getTypeURI(self): """ Returns ------- The uniform resource identifier that describes the RDF-type of this SBOL Object """ return _libsbol.SampleRosterProperty_getTypeURI(self) def getOwner(self): """ """ return _libsbol.SampleRosterProperty_getOwner(self) def set(self, *args): """ Basic setter for SBOL Property. Parameters ---------- * `new_value` : A new integer value for the property, which is converted to a raw string during serialization. """ val = _libsbol.SampleRosterProperty_set(self, *args) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, new_value): """ Appends the new value to a list of values, for properties that allow it. Parameters ---------- * `new_value` : A new string which will be added to a list of values. """ val = _libsbol.SampleRosterProperty_add(self, new_value) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def remove(self, index=0): """ Remove a Property from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.SampleRosterProperty_remove(self, index) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.SampleRosterProperty_clear(self) def write(self): """ """ return _libsbol.SampleRosterProperty_write(self) def find(self, query): return _libsbol.SampleRosterProperty_find(self, query) def getLowerBound(self): return _libsbol.SampleRosterProperty_getLowerBound(self) def getUpperBound(self): return _libsbol.SampleRosterProperty_getUpperBound(self) def validate(self, arg=None): """ """ return _libsbol.SampleRosterProperty_validate(self, arg) def copy(self, target_property): return _libsbol.SampleRosterProperty_copy(self, target_property) __swig_setmethods__["python_iter"] = _libsbol.SampleRosterProperty_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.SampleRosterProperty_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.SampleRosterProperty_python_iter_get, _libsbol.SampleRosterProperty_python_iter_set) def addValidationRule(self, *args): return _libsbol.SampleRosterProperty_addValidationRule(self, *args) SampleRosterProperty_swigregister = _libsbol.SampleRosterProperty_swigregister SampleRosterProperty_swigregister(SampleRosterProperty) class OwnedSampleRoster(SampleRosterProperty): """ A container property that contains child objects. Creates a composition out of two or more classes. In the SBOL specification, compositional relationships are indicated in class diagrams by arrows with black diamonds. A compositional relationship means that deleting the parent object will delete the child objects, and adding the parent object to a Document will also add the child object. Owned objects are stored in arbitrary order. templateparam ------------- * `SBOLClass` : The type of child SBOL object contained by this Property """ __swig_setmethods__ = {} for _s in [SampleRosterProperty]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, OwnedSampleRoster, name, value) __swig_getmethods__ = {} for _s in [SampleRosterProperty]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, OwnedSampleRoster, name) __repr__ = _swig_repr def __init__(self, *args): """ """ this = _libsbol.new_OwnedSampleRoster(*args) try: self.this.append(this) except __builtin__.Exception: self.this = this def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.OwnedSampleRoster_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.OwnedSampleRoster_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSampleRoster_get(self, *args) def getAll(self): """ Retrieve a vector of objects from the OwnedObject. """ val = _libsbol.OwnedSampleRoster_getAll(self) val = list(val) return val def remove(self, *args): """ Remove an object from the list of objects and destroy it. Parameters ---------- * `uri` : The identity of the object to be destroyed. This can be a displayId of the object or a full URI may be provided. * `index` : A numerical index for the object. """ return _libsbol.OwnedSampleRoster_remove(self, *args) def clear(self): """ Remove all children objects from the parent and destroy them. """ return _libsbol.OwnedSampleRoster_clear(self) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSampleRoster_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.OwnedSampleRoster_define(self, definition_object) def find(self, uri): return _libsbol.OwnedSampleRoster_find(self, uri) __swig_setmethods__["python_iter"] = _libsbol.OwnedSampleRoster_python_iter_set __swig_getmethods__["python_iter"] = _libsbol.OwnedSampleRoster_python_iter_get if _newclass: python_iter = _swig_property(_libsbol.OwnedSampleRoster_python_iter_get, _libsbol.OwnedSampleRoster_python_iter_set) def __iter__(self): return _libsbol.OwnedSampleRoster___iter__(self) def next(self): return _libsbol.OwnedSampleRoster_next(self) def __next__(self): return _libsbol.OwnedSampleRoster___next__(self) def __len__(self): return _libsbol.OwnedSampleRoster___len__(self) def createRange(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSampleRoster_createRange(self, uri) val.thisown = False return val def getRange(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSampleRoster_getRange(self, *args) def createCut(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSampleRoster_createCut(self, uri) val.thisown = False return val def getCut(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSampleRoster_getCut(self, *args) def createGenericLocation(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.OwnedSampleRoster_createGenericLocation(self, uri) val.thisown = False return val def getGenericLocation(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.OwnedSampleRoster_getGenericLocation(self, *args) def __getitem__(self, *args): return _libsbol.OwnedSampleRoster___getitem__(self, *args) def __setitem__(self, uri, py_obj): return _libsbol.OwnedSampleRoster___setitem__(self, uri, py_obj) __swig_destroy__ = _libsbol.delete_OwnedSampleRoster __del__ = lambda self: None OwnedSampleRoster_swigregister = _libsbol.OwnedSampleRoster_swigregister OwnedSampleRoster_swigregister(OwnedSampleRoster) class AliasedOwnedFunctionalComponent(OwnedFunctionalComponent): __swig_setmethods__ = {} for _s in [OwnedFunctionalComponent]: __swig_setmethods__.update(getattr(_s, '__swig_setmethods__', {})) __setattr__ = lambda self, name, value: _swig_setattr(self, AliasedOwnedFunctionalComponent, name, value) __swig_getmethods__ = {} for _s in [OwnedFunctionalComponent]: __swig_getmethods__.update(getattr(_s, '__swig_getmethods__', {})) __getattr__ = lambda self, name: _swig_getattr(self, AliasedOwnedFunctionalComponent, name) __repr__ = _swig_repr __swig_setmethods__["alias"] = _libsbol.AliasedOwnedFunctionalComponent_alias_set __swig_getmethods__["alias"] = _libsbol.AliasedOwnedFunctionalComponent_alias_get if _newclass: alias = _swig_property(_libsbol.AliasedOwnedFunctionalComponent_alias_get, _libsbol.AliasedOwnedFunctionalComponent_alias_set) def __init__(self, property_owner, sbol_uri, alias_uri, lower_bound, upper_bound, validation_rules): this = _libsbol.new_AliasedOwnedFunctionalComponent(property_owner, sbol_uri, alias_uri, lower_bound, upper_bound, validation_rules) try: self.this.append(this) except __builtin__.Exception: self.this = this __swig_destroy__ = _libsbol.delete_AliasedOwnedFunctionalComponent __del__ = lambda self: None def set(self, sbol_obj): """ Basic setter for OwnedObject SBOL IntProperty. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property Parameters ---------- * `sbol_obj` : A child object to add to this container property. Assigns a child object to this OwnedObject container property. This method always overwrites the first SBOLObject in the container. appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred * `sbol_obj` : The child object Sets the first object in the container """ val = _libsbol.AliasedOwnedFunctionalComponent_set(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def add(self, sbol_obj): """ Appends the new value to a list of values, for properties that allow it. templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `sbol_obj` : A child object to add to this container property. Adds a child object to the parent object. This method always appends another object to those already contained in this OwnedObject property. In SBOLCompliant mode, the create method is preferred """ val = _libsbol.AliasedOwnedFunctionalComponent_add(self, sbol_obj) try: sbol_obj.thisown = False except NameError: try: if not type(args[0]) == str: args[0].thisown = False except NameError: pass return val def get(self, *args): """ Get the child object. templateparam ------------- * `SBOLClass` : The type of the child object * `SBOLSubClass` : A derived class of SBOLClass. Use this type specialization when adding multiple types of SBOLObjects to a container. Parameters ---------- * `uri` : The specific URI for a child object if this OwnedObject property contains multiple objects, Returns ------- A reference to the child object Returns a child object from the OwnedObject property. If no URI is specified, the first object in this OwnedObject property is returned. """ return _libsbol.AliasedOwnedFunctionalComponent_get(self, *args) def create(self, uri): """ templateparam ------------- * `SBOLClass` : The type of SBOL object contained in this OwnedObject property * `SBOLSubClass` : A derived class of SBOLClass. Use this specialization for OwnedObject properties which contain multiple types of SBOLObjects. Parameters ---------- * `uri` : If SBOLCompliance is enabled, this should be the displayId for the new child object. If not enabled, this should be a full raw URI. Returns ------- A reference to the child object Autoconstructs a child object and attaches it to the parent object. The new object will be constructed with default values specified in the constructor for this type of object. If SBOLCompliance is enabled, the child object's identity will be constructed using the supplied displayId argument. Otherwise, the user should supply a full URI. check uniqueness of URI in Document """ val = _libsbol.AliasedOwnedFunctionalComponent_create(self, uri) val.thisown = False return val def define(self, definition_object): return _libsbol.AliasedOwnedFunctionalComponent_define(self, definition_object) def __len__(self): return _libsbol.AliasedOwnedFunctionalComponent___len__(self) AliasedOwnedFunctionalComponent_swigregister = _libsbol.AliasedOwnedFunctionalComponent_swigregister AliasedOwnedFunctionalComponent_swigregister(AliasedOwnedFunctionalComponent) def applyToComponentHierarchy(self, callback_fn, user_data): # Assumes parent_component is an SBOL data structure of the general form ComponentDefinition(->Component->ComponentDefinition)n where n+1 is an integer describing how many hierarchical levels are in the SBOL structure # Look at each of the ComponentDef's SequenceAnnotations, is the target base there? if not self.doc: raise Exception('Cannot traverse Component hierarchy without a Document') GET_ALL = True component_nodes = [] if len(self.components) == 0: component_nodes.append(self) # Add leaf components if (callback_fn): callback_fn(self, user_data) else: if GET_ALL: component_nodes.append(self) # Add components with children if callback_fn: callback_fn(self, user_data) for subc in self.components: if not self.doc.find(subc.definition.get()): raise Exception(subc.definition.get() + 'not found') subcdef = self.doc.getComponentDefinition(subc.definition.get()) subcomponents = subcdef.applyToComponentHierarchy(callback_fn, user_data) component_nodes.extend(subcomponents) return component_nodes ComponentDefinition.applyToComponentHierarchy = applyToComponentHierarchy def testSBOL(): """ Function to run test suite for pySBOL """ import sbol.unit_tests as unit_tests unit_tests.runTests() def is_extension_property(obj, name): attribute_dict = object.__getattribute__(obj, '__dict__') if name in attribute_dict: if type(attribute_dict[name]) in [ TextProperty, URIProperty, IntProperty, FloatProperty, ReferencedObject, DateTimeProperty, VersionProperty ] : return True return False def is_swig_property(obj, name): swig_attribute_dict = object.__getattribute__(obj, '__swig_getmethods__') if name in swig_attribute_dict: return True return False class PythonicInterface(object): def __getattribute__(self,name): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if sbol_attribute.getUpperBound() != '1': return sbol_attribute.getAll() else: try: return sbol_attribute.get() except LookupError: return None return None elif sbol_attribute.getUpperBound() == '1': try: return sbol_attribute.get() except: return None return object.__getattribute__(self, name) def __setattr__(self,name, value): sbol_attribute = None if is_swig_property(self, name): sbol_attribute = object.__getattribute__(self, name) elif is_extension_property(self, name): sbol_attribute = object.__getattribute__(self, '__dict__')[name] if sbol_attribute != None: if not 'Owned' in sbol_attribute.__class__.__name__: if value == None: sbol_attribute.clear() elif type(value) == list: if sbol_attribute.getUpperBound() == '1': raise TypeError('The ' + sbol_attribute.getTypeURI() + ' property does not accept list arguments') sbol_attribute.clear() for val in value: sbol_attribute.add(val) else: sbol_attribute.set(value) elif sbol_attribute.getUpperBound() == '1': if len(sbol_attribute) > 0: sbol_obj = sbol_attribute.get() doc = sbol_obj.doc sbol_attribute.remove() if not doc: sbol_obj.thisown = True elif not doc.find(sbol_obj.identity): sbol_obj.thisown = True if not value == None: sbol_attribute.set(value) value.thisown = False else: self.__class__.__setattribute__(self, name, value) def __repr__(self): return self.__class__.__name__ # This file is compatible with both classic and new-style classes.
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eee491a3852ff1a1605f5de3e778980bb068cc52
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benchmarks/import_cost/classes_100_with_5_invariants.py
kklein/icontract
718ef1733cc2cce6d3c8f59a5a37de96f8be6664
[ "MIT" ]
244
2018-08-15T22:58:58.000Z
2022-03-12T16:10:39.000Z
benchmarks/import_cost/classes_100_with_5_invariants.py
kklein/icontract
718ef1733cc2cce6d3c8f59a5a37de96f8be6664
[ "MIT" ]
157
2018-08-29T21:36:47.000Z
2022-02-14T19:30:24.000Z
benchmarks/import_cost/classes_100_with_5_invariants.py
kklein/icontract
718ef1733cc2cce6d3c8f59a5a37de96f8be6664
[ "MIT" ]
23
2019-04-24T11:09:10.000Z
2022-02-14T15:56:26.000Z
#!/usr/bin/env python3 import icontract @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass0: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass1: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass2: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass3: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass4: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass5: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass6: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass7: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass8: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass9: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass10: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass11: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass12: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass13: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass14: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass15: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass16: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass17: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass18: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass19: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass20: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass21: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass22: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass23: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass24: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass25: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass26: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass27: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass28: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass29: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass30: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass31: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass32: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass33: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass34: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass35: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass36: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass37: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass38: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass39: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass40: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass41: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass42: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass43: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass44: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass45: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass46: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass47: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass48: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass49: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass50: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass51: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass52: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass53: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass54: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass55: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass56: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass57: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass58: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass59: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass60: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass61: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass62: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass63: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass64: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass65: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass66: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass67: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass68: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass69: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass70: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass71: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass72: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass73: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass74: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass75: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass76: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass77: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass78: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass79: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass80: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass81: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass82: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass83: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass84: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass85: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass86: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass87: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass88: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass89: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass90: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass91: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass92: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass93: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass94: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass95: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass96: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass97: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass98: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass @icontract.invariant(lambda self: self.x > 0) @icontract.invariant(lambda self: self.x > 1) @icontract.invariant(lambda self: self.x > 2) @icontract.invariant(lambda self: self.x > 3) @icontract.invariant(lambda self: self.x > 4) class SomeClass99: def __init__(self) -> None: self.x = 100 def some_func(self) -> None: pass
26.96086
45
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5,006
35,130
4.638634
0.024571
0.129193
0.516774
0.602903
0.951725
0.951725
0.951725
0.951725
0.951725
0.951725
0
0.03474
0.187987
35,130
1,302
46
26.981567
0.779289
0.000598
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0.899101
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false
0.0999
0.000999
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10
eef5dd3f2d65679171f5da559f26a2249512bf65
7,538
py
Python
tests/libraries/position/test_getters.py
overlay-market/v1-core
e18fabd242f21c243a555712d3f08ca059941f41
[ "MIT" ]
3
2022-02-17T16:11:39.000Z
2022-03-10T23:46:19.000Z
tests/libraries/position/test_getters.py
overlay-market/v1-core
e18fabd242f21c243a555712d3f08ca059941f41
[ "MIT" ]
10
2022-01-25T21:49:20.000Z
2022-03-31T00:32:29.000Z
tests/libraries/position/test_getters.py
overlay-market/v1-core
e18fabd242f21c243a555712d3f08ca059941f41
[ "MIT" ]
2
2022-01-21T01:04:54.000Z
2022-02-23T08:38:20.000Z
def test_oi_shares_current(position): notional = 10000000000000000000 # 10 debt = 2000000000000000000 # 2 is_long = True liquidated = False mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 fraction = 1000000000000000000 # 1 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check oiShares * fraction expect = int(oi * (fraction / 1e18)) # 10 actual = position.oiSharesCurrent(pos, fraction) assert expect == actual def test_oi_shares_current_when_fraction_less_than_one(position): notional = 10000000000000000000 # 10 debt = 2000000000000000000 # 2 is_long = True liquidated = False mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 fraction = 250000000000000000 # 0.25 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check oiShares * fraction expect = int(oi * (fraction / 1e18)) # 10 actual = position.oiSharesCurrent(pos, fraction) assert expect == actual def test_debt(position): notional = 10000000000000000000 # 10 debt = 2000000000000000000 # 2 is_long = True liquidated = False mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 fraction = 1000000000000000000 # 1 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check oiShares * fraction expect = int(debt * (fraction / 1e18)) # 2 actual = position.debtCurrent(pos, fraction) assert expect == actual def test_debt_when_fraction_less_than_one(position): notional = 10000000000000000000 # 10 debt = 2000000000000000000 # 2 is_long = True liquidated = False mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 fraction = 250000000000000000 # 0.25 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check oiShares * fraction expect = int(debt * (fraction / 1e18)) # 2 actual = position.debtCurrent(pos, fraction) assert expect == actual def test_oi_initial(position): notional = 10000000000000000000 # 10 debt = 2000000000000000000 # 2 is_long = True liquidated = False mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 fraction = 1000000000000000000 # 1 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check oiShares * fraction expect = int(oi * (fraction / 1e18)) # 2 actual = position.oiInitial(pos, fraction) assert expect == actual def test_oi_initial_when_fraction_less_than_one(position): notional = 10000000000000000000 # 10 debt = 2000000000000000000 # 2 is_long = True liquidated = False mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 fraction = 250000000000000000 # 0.25 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check oiShares * fraction expect = int(oi * (fraction / 1e18)) # 2 actual = position.oiInitial(pos, fraction) assert expect == actual def test_cost(position): notional = 10000000000000000000 # 10 debt = 2000000000000000000 # 2 is_long = True liquidated = False mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 fraction = 1000000000000000000 # 1 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check cost = notional - debt expect = int((notional - debt) * (fraction / 1e18)) # 8 actual = position.cost(pos, fraction) assert expect == actual def test_cost_when_fraction_less_than_one(position): notional = 10000000000000000000 # 10 debt = 2000000000000000000 # 2 is_long = True liquidated = False mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 fraction = 250000000000000000 # 0.25 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check cost = oi - debt expect = int((notional - debt) * (fraction / 1e18)) # 8 actual = position.cost(pos, fraction) assert expect == actual def test_exists(position): notional = 10000000000000000000 # 10 debt = 2000000000000000000 # 2 is_long = True liquidated = False mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check exists when not liquidated and oi > 0 expect = True actual = position.exists(pos) assert expect == actual def test_exists_when_liquidated(position): notional = 10000000000000000000 # 10 debt = 2000000000000000000 # 2 is_long = True liquidated = True mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check exists when not liquidated and oi > 0 expect = False actual = position.exists(pos) assert expect == actual def test_exists_when_oi_zero(position): notional = 0 # 0 debt = 2000000000000000000 # 2 is_long = True liquidated = False mid_price = 100000000000000000000 # 100 entry_price = 101000000000000000000 # 101 oi = int((notional / mid_price) * 1000000000000000000) # 0.1 # NOTE: mid_ratio tests in test_entry_price.py mid_ratio = position.calcEntryToMidRatio(entry_price, mid_price) pos = (notional, debt, mid_ratio, is_long, liquidated, oi) # check exists when not liquidated and oi > 0 expect = False actual = position.exists(pos) assert expect == actual
34.898148
68
0.700318
877
7,538
5.820981
0.066135
0.051714
0.051714
0.056024
0.989814
0.982958
0.981783
0.981783
0.978257
0.974731
0
0.238111
0.218891
7,538
215
69
35.060465
0.628906
0.141417
0
0.907285
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false
0
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0
0
0
8
e12b8b292696d7f2a164647fe0bfe47cbddc5d71
13,500
py
Python
utils/plot.py
VirosaLi/dblp-analysis
e675c716b16505d647aecef163ad8e7a41384641
[ "MIT" ]
null
null
null
utils/plot.py
VirosaLi/dblp-analysis
e675c716b16505d647aecef163ad8e7a41384641
[ "MIT" ]
1
2020-06-09T10:11:44.000Z
2020-06-09T10:11:44.000Z
utils/plot.py
VirosaLi/dblp-analysis
e675c716b16505d647aecef163ad8e7a41384641
[ "MIT" ]
null
null
null
import numpy as np import pandas as pd import networkx as nx import matplotlib.pyplot as plt from utils.transformation import estimate_pdf_from_ccdf from utils.transformation import find_mentor def degree_distribution_comparison_plot(g): # get node list and node-degree map node_list = list(g.nodes(data=True)) degree_map = dict(list(g.degree())) # select female and male nodes and create degree sequence female_node = [node[0] for node in node_list if node[1]['gender'] == 'female' and 'mentor' in node[1]] female_degree_sequence = [degree_map[node] for node in female_node] male_node = [node[0] for node in node_list if node[1]['gender'] == 'male' and 'mentor' in node[1]] male_degree_sequence = [degree_map[node] for node in male_node] unique_female, counts_female = np.unique(female_degree_sequence, return_counts=True) counts_map = np.asarray((unique_female, counts_female)).T pdf_empirical_female = counts_map[:, 1] / np.sum(counts_map[:, 1]) unique_male, counts_male = np.unique(male_degree_sequence, return_counts=True) counts_map = np.asarray((unique_male, counts_male)).T pdf_empirical_male = counts_map[:, 1] / np.sum(counts_map[:, 1]) # pdf_estimated_female = estimate_pdf_from_ccdf(unique_female, pdf_empirical_female, female_degree_sequence, 1) # pdf_estimated_male = estimate_pdf_from_ccdf(unique_male, pdf_empirical_male, male_degree_sequence, 1) # x_line_female = np.arange(min(female_degree_sequence), max(female_degree_sequence)) # x_line_male = np.arange(min(male_degree_sequence), max(male_degree_sequence)) _, ax = plt.subplots() ax.loglog(unique_female, pdf_empirical_female, 'r.', label='female') # ax.loglog(x_line_female, pdf_estimated_female, 'r-') ax.loglog(unique_male, pdf_empirical_male, 'b.', label='male') # ax.loglog(x_line_male, pdf_estimated_male, 'b-') ax.legend(loc='upper right', shadow=True, fontsize='x-large') plt.title('Degree Distribution') plt.xlabel('k') plt.ylabel('p_k') plt.show() def female_degree_fraction_plot(g, upper_bound): # get node list and degree map node_list = list(g.nodes(data=True)) mentor_list = [node[0] for node in node_list if 'mentor' in node[1]] mentor_degree_list = list(g.degree(mentor_list)) mentor_degree_map = dict(mentor_degree_list) # count all nodes total_degree = [node[1] for node in mentor_degree_list] unique_total, counts_total = np.unique(total_degree, return_counts=True) counts_total = np.cumsum(counts_total[::-1])[::-1] # count female nodes female_node = [node[0] for node in node_list if node[1]['gender'] == 'female' and 'mentor' in node[1]] female_degree_sequence = [mentor_degree_map[node] for node in female_node] _, counts_female = np.unique(female_degree_sequence, return_counts=True) padded_female_counts = np.zeros_like(counts_total) padded_female_counts[:counts_female.shape[0]] = counts_female padded_female_counts = np.cumsum(padded_female_counts[::-1])[::-1] # count male nodes male_node = [node[0] for node in node_list if node[1]['gender'] == 'male' and 'mentor' in node[1]] male_degree_sequence = [mentor_degree_map[node] for node in male_node] _, counts_male = np.unique(male_degree_sequence, return_counts=True) padded_male_counts = np.zeros_like(counts_total) padded_male_counts[:counts_male.shape[0]] = counts_male padded_male_counts = np.cumsum(padded_male_counts[::-1])[::-1] p = padded_female_counts / counts_total q = padded_male_counts / counts_total _, ax = plt.subplots() ax.plot(unique_total[:upper_bound], p[:upper_bound], 'r.', label='female') ax.plot(unique_total[:upper_bound], q[:upper_bound], 'b.', label='male') plt.xscale('log') ax.legend(loc='center right', shadow=True, fontsize='x-large') plt.title('Percentage of Females and Males in the Mentor Population of Degree at least k.') plt.xlabel('Degree') plt.ylabel('Percentage') plt.show() def stacked_degree_fraction_over_year_mentor(author_list: pd.DataFrame, edge_list: pd.DataFrame, gender_book: pd.DataFrame, year_start: int, year_end: int, mentor_difference: int): gender_map = dict(zip(gender_book['author'].tolist(), gender_book['gender'].tolist())) years = range(year_start, year_end + 1, 5) female = [] male = [] female_expected = [] for year in years: edge_list_filtered = edge_list[edge_list['year'] <= year] student_mentor = find_mentor(author_list, edge_list_filtered, mentor_difference) student_mentor_filtered = student_mentor[student_mentor['author'].isin(gender_book['author']) & student_mentor['mentor'].isin(gender_book['author'])] g = nx.from_pandas_edgelist(student_mentor_filtered, source='author', target='mentor') nx.set_node_attributes(g, gender_map, 'gender') mentor_list = student_mentor_filtered['mentor'].tolist() mentor_map = dict(zip(mentor_list, np.ones(len(mentor_list), ))) nx.set_node_attributes(g, mentor_map, 'mentor') # get node list and degree map node_list = list(g.nodes(data=True)) degree_map = dict(list(g.degree())) # select female and male nodes and create degree sequence female_node = [node[0] for node in node_list if node[1]['gender'] == 'female' and 'mentor' in node[1]] female_degree_sequence = [degree_map[node] for node in female_node] male_node = [node[0] for node in node_list if node[1]['gender'] == 'male' and 'mentor' in node[1]] male_degree_sequence = [degree_map[node] for node in male_node] female_degree_sum = sum(female_degree_sequence) male_degree_sum = sum(male_degree_sequence) total_degree_sum = female_degree_sum + male_degree_sum female_fraction = female_degree_sum / total_degree_sum male_fraction = male_degree_sum / total_degree_sum female.append(female_fraction) male.append(male_fraction) num_female = len(female_node) num_male = len(male_node) num_total = num_female + num_male female_expected.append(num_female / num_total) n = len(years) ind = np.arange(n) width = 0.35 p_female = plt.bar(ind, female, width, color='r') p_male = plt.bar(ind, male, width, bottom=female, color='b') plt.plot(ind, female_expected, label='Expected Ratio') plt.ylabel('Cumulative Degree Sum as Percentage of Total Degree Sum') plt.xlabel('Year') plt.xticks(ind, years) plt.legend((p_female[0], p_male[0]), ('Female', 'Male')) plt.show() def mixed_edges_over_year_mentor(author_list: pd.DataFrame, edge_list: pd.DataFrame, gender_book: pd.DataFrame, year_start: int, year_end: int, mentor_difference: int): gender_map = dict(zip(gender_book['author'].tolist(), gender_book['gender'].tolist())) result = [] exp = [] exp_norm = [] years = range(year_start, year_end + 1, 5) for year in years: edge_list_filtered = edge_list[edge_list['year'] <= year] student_mentor = find_mentor(author_list, edge_list_filtered, mentor_difference) student_mentor_filtered = student_mentor[student_mentor['author'].isin(gender_book['author']) & student_mentor['mentor'].isin(gender_book['author'])] g = nx.from_pandas_edgelist(student_mentor_filtered, source='author', target='mentor') nx.set_node_attributes(g, gender_map, 'gender') mentor_list = student_mentor_filtered['mentor'].tolist() mentor_map = dict(zip(mentor_list, np.ones(len(mentor_list), ))) nx.set_node_attributes(g, mentor_map, 'mentor') node_list = list(g.nodes(data=True)) female_node = [node[0] for node in node_list if node[1]['gender'] == 'female'] male_node = [node[0] for node in node_list if node[1]['gender'] == 'male'] num_female = len(female_node) num_male = len(male_node) num_total = num_female + num_male degree_map = dict(list(g.degree())) female_degree_sequence = [degree_map[node] for node in female_node] male_degree_sequence = [degree_map[node] for node in male_node] female_degree_sum = sum(female_degree_sequence) male_degree_sum = sum(male_degree_sequence) total_degree_sum = female_degree_sum + male_degree_sum r = num_female / num_total exp.append(r * (1 - r) * total_degree_sum) # normalized expected r_norm = female_degree_sum / total_degree_sum exp_norm.append(r_norm * (1 - r_norm) * total_degree_sum) # observed mixed edges num_mixed_edge = 0 for edge in list(g.edges()): if gender_map[edge[0]] != gender_map[edge[1]]: num_mixed_edge += 1 result.append(num_mixed_edge) _, ax = plt.subplots(figsize=(8, 5)) plt.plot(years, result, 'k.', label='observed mixed edges') plt.plot(years, exp, color='b', label='E[mixed edges] observed female frac, assume equal degree and no homophily') plt.plot(years, exp_norm, color='g', label='E[mixed edges] observed degree, assume no homophily') ax.legend(loc='upper left', shadow=True, fontsize=8) plt.ylabel('Cumulative Number of Mixed Edges') plt.xlabel('Year') plt.show() def stacked_degree_fraction_over_year(df, name_gender, year_start, year_end): years = range(year_start, year_end + 1, 5) female = [] male = [] female_expected = [] for year in years: data_filtered = df[df['year'] <= year] g = nx.from_pandas_edgelist(data_filtered) nx.set_node_attributes(g, name_gender, 'gender') # get node list and degree map node_list = list(g.nodes(data=True)) degree_map = dict(list(g.degree())) # select female and male nodes and create degree sequence female_node = [node[0] for node in node_list if node[1]['gender'] == 'female'] female_degree_sequence = [degree_map[node] for node in female_node] male_node = [node[0] for node in node_list if node[1]['gender'] == 'male'] male_degree_sequence = [degree_map[node] for node in male_node] female_degree_sum = sum(female_degree_sequence) male_degree_sum = sum(male_degree_sequence) total_degree_sum = female_degree_sum + male_degree_sum female_fraction = female_degree_sum / total_degree_sum male_fraction = male_degree_sum / total_degree_sum female.append(female_fraction) male.append(male_fraction) num_female = len(female_node) num_male = len(male_node) num_total = num_female + num_male female_expected.append(num_female / num_total) n = len(years) ind = np.arange(n) width = 0.35 p_female = plt.bar(ind, female, width, color='r') p_male = plt.bar(ind, male, width, bottom=female, color='b') plt.plot(ind, female_expected, label='Expected Ratio') plt.ylabel('Cumulative Degree Sum as Percentage of Total Degree Sum') plt.xlabel('Year') plt.xticks(ind, years) plt.legend((p_female[0], p_male[0]), ('Female', 'Male')) plt.show() def mixed_edges_over_year(df, name_gender, year_start, year_end): result = [] exp = [] exp_norm = [] years = range(year_start, year_end + 1, 5) for year in years: data_filtered = df[df['year'] <= year] # expected num of mixed g = nx.from_pandas_edgelist(data_filtered) nx.set_node_attributes(g, name_gender, 'gender') node_list = list(g.nodes(data=True)) female_node = [node[0] for node in node_list if node[1]['gender'] == 'female'] male_node = [node[0] for node in node_list if node[1]['gender'] == 'male'] num_female = len(female_node) num_male = len(male_node) num_total = num_female + num_male degree_map = dict(list(g.degree())) female_degree_sequence = [degree_map[node] for node in female_node] male_degree_sequence = [degree_map[node] for node in male_node] female_degree_sum = sum(female_degree_sequence) male_degree_sum = sum(male_degree_sequence) total_degree_sum = female_degree_sum + male_degree_sum r = num_female / num_total exp.append(r * (1 - r) * total_degree_sum) # normalized expected r_norm = female_degree_sum / total_degree_sum exp_norm.append(r_norm * (1 - r_norm) * total_degree_sum) # observed mixed edges data_mixed_edge = data_filtered[data_filtered['gender_source'] != data_filtered['gender_target']] g = nx.from_pandas_edgelist(data_mixed_edge) result.append(nx.number_of_edges(g)) _, ax = plt.subplots(figsize=(8, 5)) plt.plot(years, result, 'k.', label='observed mixed edges') plt.plot(years, exp, color='b', label='E[mixed edges] observed female frac, assume equal degree and no homophily') plt.plot(years, exp_norm, color='g', label='E[mixed edges] observed degree, assume no homophily') ax.legend(loc='upper left', shadow=True, fontsize=8) plt.ylabel('Cumulative Number of Mixed Edges') plt.xlabel('Year') plt.show()
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0159dadbb5acc1a7bd4b527dc4994cc4c082485a
14,395
py
Python
algebreb/pasos/productos_notables.py
Ivan0123456789/algebreb
c1548df99a7fc960b73239d296db4e2c914926cd
[ "MIT" ]
null
null
null
algebreb/pasos/productos_notables.py
Ivan0123456789/algebreb
c1548df99a7fc960b73239d296db4e2c914926cd
[ "MIT" ]
null
null
null
algebreb/pasos/productos_notables.py
Ivan0123456789/algebreb
c1548df99a7fc960b73239d296db4e2c914926cd
[ "MIT" ]
1
2021-12-13T03:20:08.000Z
2021-12-13T03:20:08.000Z
from sympy import * from sympy.abc import a, b, c, x, y, z from sympy import UnevaluatedExpr from algebreb.expresiones.polinomios import Polinomio inicio = '\\textrm{' fin = '}' def pasos_binomio_al_cuadrado_latex(binomio): pasos = [] coeficientes = binomio.coeffs() monomios = [prod(x**k for x, k in zip(binomio.gens, mon)) for mon in binomio.monoms()] ta = monomios[0] * coeficientes[0] tb = monomios[1] * coeficientes[1] with evaluate(False): u_ta2 = UnevaluatedExpr(ta**2) u_tb2 = UnevaluatedExpr(tb**2) u_tatb2 = UnevaluatedExpr(2*ta*tb) ta2 = ta**2 tb2 = tb**2 tatb2 = 2*ta*tb res = ta2 + tatb2 + tb2 paso1 = inicio + 'El cuadrado del primer termino ' + fin + latex(u_ta2) + inicio + ' = ' + fin + latex(ta2) paso2 = inicio + 'El doble producto del primer termino por el segundo ' + fin + latex(u_tatb2) + inicio + ' = ' + fin + latex(tatb2) paso3 = inicio + 'El cuadrado del segundo termino ' + fin + latex(u_tb2) + inicio + ' = ' + fin + latex(tb2) paso4 = inicio + 'Se suman los terminos resultantes y se obtiene: ' + fin + latex(res) pasos.append(paso1) pasos.append(paso2) pasos.append(paso3) pasos.append(paso4) return pasos def pasos_binomio_al_cuadrado_str(binomio): pasos = [] coeficientes = binomio.coeffs() monomios = [prod(x**k for x, k in zip(binomio.gens, mon)) for mon in binomio.monoms()] ta = monomios[0] * coeficientes[0] tb = monomios[1] * coeficientes[1] with evaluate(False): u_ta2 = UnevaluatedExpr(ta**2) u_tb2 = UnevaluatedExpr(tb**2) u_tatb2 = UnevaluatedExpr(2*ta*tb) ta2 = ta**2 tb2 = tb**2 tatb2 = 2*ta*tb res = ta2 + tatb2 + tb2 pasos.append('El cuadrado del primer termino {} = {}'.format(u_ta2, ta2)) pasos.append('El doble producto del primer termino por el segundo {} = {}'.format(u_tatb2, tatb2)) pasos.append('El cuadrado del segundo termino {} = {}'.format(u_tb2, tb2)) pasos.append('Se suman los terminos resultantes y se obtiene: {}'.format(res)) return pasos def pasos_binomio_al_cubo_str(binomio): pasos = [] coeficientes = binomio.coeffs() monomios = [prod(x**k for x, k in zip(binomio.gens, mon)) for mon in binomio.monoms()] ta = monomios[0] * coeficientes[0] tb = monomios[1] * coeficientes[1] with evaluate(False): u_ta3 = ta**3 u_ta2tb = 3*ta**2*tb u_tatb2 = 3*ta*tb**2 u_tb3 = tb**3 ta3 = ta**3 ta2tb = 3*ta**2*tb tatb2 = 3*ta*tb**2 tb3 = tb**3 res = ta3 + ta2tb + tatb2 + tb3 pasos.append('El cubo del primer termino {} = {}'.format(u_ta3, ta3)) pasos.append('El triple del cuadrado del primer termino por el segundo {} = {}'.format(u_ta2tb, ta2tb)) pasos.append('El triple del primer termino por el cuadrado del segundo {} = {}'.format(u_tatb2, tatb2)) pasos.append('El cubo del segundo termino {} = {}'.format(u_tb3, tb3)) pasos.append('Estos resultados se suman y se obtiene: {}'.format(res)) return pasos def pasos_binomio_al_cubo_latex(binomio): pasos = [] coeficientes = binomio.coeffs() monomios = [prod(x**k for x, k in zip(binomio.gens, mon)) for mon in binomio.monoms()] ta = monomios[0] * coeficientes[0] tb = monomios[1] * coeficientes[1] with evaluate(False): u_ta3 = ta**3 u_ta2tb = 3*ta**2*tb u_tatb2 = 3*ta*tb**2 u_tb3 = tb**3 ta3 = ta**3 ta2tb = 3*ta**2*tb tatb2 = 3*ta*tb**2 tb3 = tb**3 res = ta3 + ta2tb + tatb2 + tb3 paso1 = inicio + 'El cubo del primer termino ' + fin + latex(u_ta3) + inicio + ' = ' + fin + latex(ta3) paso2 = inicio + 'El triple del cuadrado del primer termino por el segundo ' + fin + latex(u_ta2tb) + inicio + ' = ' + fin + latex(ta2tb) paso3 = inicio + 'El triple del primer termino por el cuadrado del segundo ' + fin + latex(u_tatb2) + inicio + ' = ' + fin + latex(tatb2) paso4 = inicio + 'El cubo del segundo termino ' + fin + latex(u_tb3) + inicio + ' = ' + fin + latex(tb3) paso5 = inicio + 'Estos resultados se suman y se obtiene: ' + fin + latex(res) pasos.append(paso1) pasos.append(paso2) pasos.append(paso3) pasos.append(paso4) pasos.append(paso5) return pasos def pasos_trinomio_al_cuadrado_str(trinomio): pasos = [] coeficientes = trinomio.coeffs() monomios = [prod(x**k for x, k in zip(trinomio.gens, mon)) for mon in trinomio.monoms()] ta = monomios[0] * coeficientes[0] tb = monomios[1] * coeficientes[1] tc = monomios[2] * coeficientes[2] with evaluate(False): u_ta2 = ta**2 u_tb2 = tb**2 u_tc2 = tc**2 u_tab2 = 2*ta*tb u_tac2 = 2*ta*tc u_tbc2 = 2*tb*tc ta2 = ta**2 tb2 = tb**2 tc2 = tc**2 tab2 = 2*ta*tb tac2 = 2*ta*tc tbc2 = 2*tb*tc res = ta2 + tb2 + tc2 + tab2 + tac2 + tbc2 pasos.append('El cuadrado del primer termino {} = {}'.format(u_ta2, ta2)) pasos.append('El cuadrado del segundo termino {} = {}'.format(u_tb2, tb2)) pasos.append('El cuadrado del tercer termino {} = {}'.format(u_tc2, tc2)) pasos.append('El doble del primer termino por el segundo {} = {}'.format(u_tab2, tab2)) pasos.append('El doble del primer termino por el tercero {} = {}'.format(u_tac2, tac2)) pasos.append('El doble del segundo termino por el tercero {} = {}'.format(u_tbc2, tbc2)) pasos.append('Estos resultados se suman y se obtiene: {}'.format(res)) return pasos def pasos_trinomio_al_cuadrado_latex(trinomio): pasos = [] coeficientes = trinomio.coeffs() monomios = [prod(x**k for x, k in zip(trinomio.gens, mon)) for mon in trinomio.monoms()] ta = monomios[0] * coeficientes[0] tb = monomios[1] * coeficientes[1] tc = monomios[2] * coeficientes[2] with evaluate(False): u_ta2 = ta**2 u_tb2 = tb**2 u_tc2 = tc**2 u_tab2 = 2*ta*tb u_tac2 = 2*ta*tc u_tbc2 = 2*tb*tc ta2 = ta**2 tb2 = tb**2 tc2 = tc**2 tab2 = 2*ta*tb tac2 = 2*ta*tc tbc2 = 2*tb*tc res = ta2 + tb2 + tc2 + tab2 + tac2 + tbc2 paso1 = inicio + 'El cuadrado del primer termino ' + fin + latex(u_ta2) + inicio + ' = ' + fin + latex(ta2) paso2 = inicio + 'El cuadrado del segundo termino ' + fin + latex(u_tb2) + inicio + ' = ' + fin + latex(tb2) paso3 = inicio + 'El cuadrado del tercer termino ' + fin + latex(u_tc2) + inicio + ' = ' + fin + latex(tc2) paso4 = inicio + 'El doble del primer termino por el segundo ' + fin + latex(u_tab2) + inicio + ' = ' + fin + latex(tab2) paso5 = inicio + 'El doble del primer termino por el tercero ' + fin + latex(u_tac2) + inicio + ' = ' + fin + latex(tac2) paso6 = inicio + 'El doble del segundo termino por el tercero ' + fin + latex(u_tbc2) + inicio + ' = ' + fin + latex(tbc2) paso7 = inicio + 'Estos resultados se suman y se obtiene: ' + fin + latex(res) pasos.append(paso1) pasos.append(paso2) pasos.append(paso3) pasos.append(paso4) pasos.append(paso5) pasos.append(paso6) pasos.append(paso7) return pasos def pasos_binomios_conjugados_str(bin1, bin2): pasos = [] coeficientes_bin1 = bin1.coeffs() monomios_bin1 = [prod(x**k for x, k in zip(bin1.gens, mon)) for mon in bin1.monoms()] coeficientes_bin2 = bin2.coeffs() monomios_bin2 = [prod(x**k for x, k in zip(bin2.gens, mon)) for mon in bin2.monoms()] ta1 = monomios_bin1[0] * coeficientes_bin1[0] tb1 = monomios_bin1[1] * coeficientes_bin1[1] ta2 = monomios_bin2[0] * coeficientes_bin2[0] tb2 = monomios_bin2[1] * coeficientes_bin2[1] with evaluate(False): u_term1 = UnevaluatedExpr(ta1**2) u_term2 = UnevaluatedExpr(tb1**2) term1 = ta1**2 term2 = tb1**2 res = term1 - term2 pasos.append('El cuadrado del termino que no cambia de signo {} = {}'.format(u_term1, term1)) pasos.append('El cuadrado del termino que cambia de signo {} = {}'.format(u_term2, term2)) pasos.append('Finalmente, se realiza la diferencia y el resultado es: {}'.format(res)) return pasos def pasos_binomios_conjugados_latex(bin1, bin2): pasos = [] coeficientes_bin1 = bin1.coeffs() monomios_bin1 = [prod(x**k for x, k in zip(bin1.gens, mon)) for mon in bin1.monoms()] coeficientes_bin2 = bin2.coeffs() monomios_bin2 = [prod(x**k for x, k in zip(bin2.gens, mon)) for mon in bin2.monoms()] ta1 = monomios_bin1[0] * coeficientes_bin1[0] tb1 = monomios_bin1[1] * coeficientes_bin1[1] ta2 = monomios_bin2[0] * coeficientes_bin2[0] tb2 = monomios_bin2[1] * coeficientes_bin2[1] with evaluate(False): u_term1 = UnevaluatedExpr(ta1**2) u_term2 = UnevaluatedExpr(tb1**2) term1 = ta1**2 term2 = tb1**2 res = term1 - term2 paso1 = inicio + 'El cuadrado del termino que no cambia de signo ' + fin + latex(u_term1) + inicio + ' = ' + fin + latex(term1) paso2 = inicio + 'El cuadrado del termino que cambia de signo ' + fin + latex(u_term2) + inicio + ' = ' + fin + latex(term2) paso3 = inicio + 'Finalmente, se realiza la diferencia y el resultado es: ' + fin + latex(res) pasos.append(paso1) pasos.append(paso2) pasos.append(paso3) return pasos def pasos_binomios_forma1_str(bin1, bin2): pasos = [] coeficientes_bin1 = bin1.coeffs() monomios_bin1 = [prod(x**k for x, k in zip(bin1.gens, mon)) for mon in bin1.monoms()] coeficientes_bin2 = bin2.coeffs() monomios_bin2 = [prod(x**k for x, k in zip(bin2.gens, mon)) for mon in bin2.monoms()] ta1 = monomios_bin1[0] * coeficientes_bin1[0] tb1 = monomios_bin1[1] * coeficientes_bin1[1] ta2 = monomios_bin2[0] * coeficientes_bin2[0] tb2 = monomios_bin2[1] * coeficientes_bin2[1] term1 = ta1**2 term2 = (tb1 + tb2) * ta1 term3 = tb1 * tb2 suma = term1 + term2 + term3 with evaluate(False): u_term1 = ta1**2 u_term2 = (tb1 + tb2) * ta1 u_term3 = '({})({})'.format(tb1, tb2) pasos.append('El cuadrado del término común {} = {}'.format(u_term1, term1)) pasos.append('La suma de los términos no comunes {} = {}'.format(u_term2, term2)) pasos.append('El producto de los términos no comunes {} = {}'.format(u_term3, term3)) pasos.append('Se suman los términos anteriores y se obtiene como resultado {}'.format(suma)) return pasos def pasos_binomios_forma1_latex(bin1, bin2): pasos = [] coeficientes_bin1 = bin1.coeffs() monomios_bin1 = [prod(x**k for x, k in zip(bin1.gens, mon)) for mon in bin1.monoms()] coeficientes_bin2 = bin2.coeffs() monomios_bin2 = [prod(x**k for x, k in zip(bin2.gens, mon)) for mon in bin2.monoms()] ta1 = monomios_bin1[0] * coeficientes_bin1[0] tb1 = monomios_bin1[1] * coeficientes_bin1[1] ta2 = monomios_bin2[0] * coeficientes_bin2[0] tb2 = monomios_bin2[1] * coeficientes_bin2[1] term1 = ta1**2 term2 = (tb1 + tb2) * ta1 term3 = tb1 * tb2 suma = term1 + term2 + term3 with evaluate(False): u_term1 = ta1**2 u_term2 = (tb1 + tb2) * ta1 u_term3 = '({})({})'.format(tb1, tb2) paso1 = inicio + 'El cuadrado del término común ' + fin + latex(u_term1) + inicio + ' = ' + fin + latex(term1) paso2 = inicio + 'La suma de los términos no comunes ' + fin + latex(u_term2) + inicio + ' = ' + fin + latex(term2) paso3 = inicio + 'El producto de los términos no comunes ' + fin + latex(u_term3) + inicio + ' = ' + fin + latex(term3) paso4 = inicio + 'Se suman los términos anteriores y se obtiene como resultado ' + fin + latex(suma) pasos.append(paso1) pasos.append(paso2) pasos.append(paso3) pasos.append(paso4) return pasos def pasos_binomios_forma2_str(bin1, bin2): pasos = [] coeficientes_bin1 = bin1.coeffs() monomios_bin1 = [prod(x**k for x, k in zip(bin1.gens, mon)) for mon in bin1.monoms()] coeficientes_bin2 = bin2.coeffs() monomios_bin2 = [prod(x**k for x, k in zip(bin2.gens, mon)) for mon in bin2.monoms()] ta1 = monomios_bin1[0] * coeficientes_bin1[0] tb1 = monomios_bin1[1] * coeficientes_bin1[1] ta2 = monomios_bin2[0] * coeficientes_bin2[0] tb2 = monomios_bin2[1] * coeficientes_bin2[1] with evaluate(False): u_term1 = ta1 * ta2 u_term2 = (ta1 * tb2) + (tb1 * ta2) u_term3 = tb1 * tb2 term1 = ta1 * ta2 term2 = (ta1 * tb2) + (tb1 * ta2) term3 = tb1 * tb2 suma = term1 + term2 + term3 pasos.append('El producto del primer termino de cada binomio {} = {}'.format(u_term1, term1)) pasos.append('El producto de los terminos de cada extremo más el producto de los términos interiores {} = {}'.format(u_term2, term2)) pasos.append('Eñ producto del segundo termino de cada binomio {} = {}'.format(u_term3, term3)) pasos.append('Se suman los terminos anteriores, obteniendo {}'.format(suma)) return pasos def pasos_binomios_forma2_latex(bin1, bin2): pasos = [] coeficientes_bin1 = bin1.coeffs() monomios_bin1 = [prod(x**k for x, k in zip(bin1.gens, mon)) for mon in bin1.monoms()] coeficientes_bin2 = bin2.coeffs() monomios_bin2 = [prod(x**k for x, k in zip(bin2.gens, mon)) for mon in bin2.monoms()] ta1 = monomios_bin1[0] * coeficientes_bin1[0] tb1 = monomios_bin1[1] * coeficientes_bin1[1] ta2 = monomios_bin2[0] * coeficientes_bin2[0] tb2 = monomios_bin2[1] * coeficientes_bin2[1] with evaluate(False): u_term1 = ta1 * ta2 u_term2 = (ta1 * tb2) + (tb1 * ta2) u_term3 = tb1 * tb2 term1 = ta1 * ta2 term2 = (ta1 * tb2) + (tb1 * ta2) term3 = tb1 * tb2 suma = term1 + term2 + term3 paso1 = inicio + 'El producto del primer termino de cada binomio ' + fin + latex(u_term1) + inicio + ' = ' + fin + latex(term1) paso2 = inicio + 'El producto de los terminos de cada extremo más el producto de los términos interiores ' + fin + latex(u_term2) + inicio + ' = ' + fin + latex(term2) paso3 = inicio + 'El producto del segundo termino de cada binomio ' + fin + latex(u_term3) + inicio + ' = ' + fin + latex(term3) paso4 = inicio + 'Se suman los terminos anteriores, obteniendo ' + fin + latex(suma) pasos.append(paso1) pasos.append(paso2) pasos.append(paso3) pasos.append(paso4) return pasos
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Python
kaznet/apps/ona/tests/test_utils.py
onaio/kaznet-web
53da428d5e62e40c5d38d84c3f3ee06071dd779b
[ "Apache-2.0" ]
1
2019-10-03T12:18:15.000Z
2019-10-03T12:18:15.000Z
kaznet/apps/ona/tests/test_utils.py
onaio/kaznet-web
53da428d5e62e40c5d38d84c3f3ee06071dd779b
[ "Apache-2.0" ]
63
2018-10-31T12:57:36.000Z
2020-04-27T20:18:22.000Z
kaznet/apps/ona/tests/test_utils.py
onaio/kaznet-web
53da428d5e62e40c5d38d84c3f3ee06071dd779b
[ "Apache-2.0" ]
3
2019-08-05T09:10:03.000Z
2020-01-05T21:24:49.000Z
""" Module for testing the Ona app utils """ from unittest.mock import patch from django.conf import settings from django.contrib.auth.models import User from django.db import IntegrityError from django.test import override_settings from dateutil.parser import parse from django_prices.models import Money from model_mommy import mommy from kaznet.apps.main.models import Bounty, Location, Submission, Task from kaznet.apps.main.tests.base import MainTestBase from kaznet.apps.ona.models import Instance, Project, XForm from kaznet.apps.ona.utils import (check_if_users_can_submit_to_form, delete_instance, delete_project, delete_xform) class TestUtils(MainTestBase): """ Tests for utils.py """ def setUp(self): super().setUp() def test_delete_instance(self): """ Test delete_instance """ instance = mommy.make('ona.Instance') task = mommy.make('main.Task', name='Quest') location = mommy.make('main.Location', name='Voi') user = mommy.make('auth.User', first_name='Coco') bounty = mommy.make( 'main.Bounty', task=task, amount=Money('50', 'KES')) submission = mommy.make( 'main.Submission', task=task, location=location, user=user, submission_time=parse("2018-09-04T00:00:00+00:00"), status=Submission.APPROVED, target_object_id=instance.id, target_content_type=self.instance_type ) delete_instance(instance=instance) # the instance and submission were deleted self.assertFalse(Instance.objects.filter(id=instance.id).exists()) self.assertFalse(Submission.objects.filter(id=submission.id).exists()) # these other models were not deleted self.assertTrue(Bounty.objects.filter(id=bounty.id).exists()) self.assertTrue(Location.objects.filter(id=location.id).exists()) self.assertTrue(User.objects.filter(id=user.id).exists()) self.assertTrue(Task.objects.filter(id=task.id).exists()) def test_delete_instance_atomic(self): """ Test delete_instance is atomic """ instance = mommy.make('ona.Instance') task = mommy.make('main.Task', name='Quest') location = mommy.make('main.Location', name='Voi') user = mommy.make('auth.User', first_name='Coco') bounty = mommy.make( 'main.Bounty', task=task, amount=Money('50', 'KES')) submission = mommy.make( 'main.Submission', task=task, location=location, user=user, submission_time=parse("2018-09-04T00:00:00+00:00"), status=Submission.APPROVED, target_object_id=instance.id, target_content_type=self.instance_type ) with patch('kaznet.apps.main.models.Submission.delete') as mock: # we want a database-level error to happen when we attempt to # delete a submission mock.side_effect = IntegrityError # this is necessary so that this test does not fail here with self.assertRaises(IntegrityError): delete_instance(instance=instance) # nothing was deleted self.assertTrue(Instance.objects.filter(id=instance.id).exists()) self.assertTrue(Submission.objects.filter(id=submission.id).exists()) self.assertTrue(Bounty.objects.filter(id=bounty.id).exists()) self.assertTrue(Location.objects.filter(id=location.id).exists()) self.assertTrue(User.objects.filter(id=user.id).exists()) self.assertTrue(Task.objects.filter(id=task.id).exists()) with patch('kaznet.apps.ona.models.Instance.delete') as mock: # we want a database-level error to happen when we attempt to # delete an instance mock.side_effect = IntegrityError # this is necessary so that this test does not fail here with self.assertRaises(IntegrityError): delete_instance(instance=instance) # STILL nothing was deleted self.assertTrue(Instance.objects.filter(id=instance.id).exists()) self.assertTrue(Submission.objects.filter(id=submission.id).exists()) self.assertTrue(Bounty.objects.filter(id=bounty.id).exists()) self.assertTrue(Location.objects.filter(id=location.id).exists()) self.assertTrue(User.objects.filter(id=user.id).exists()) self.assertTrue(Task.objects.filter(id=task.id).exists()) def test_delete_xform(self): """ Test delete_xform """ xform = mommy.make('ona.XForm') instance = mommy.make('ona.Instance', xform=xform) task = mommy.make( 'main.Task', name='Quest', target_object_id=xform.id, target_content_type=self.xform_type, status=Task.ACTIVE ) location = mommy.make('main.Location', name='Voi') user = mommy.make('auth.User', first_name='Coco') bounty = mommy.make( 'main.Bounty', task=task, amount=Money('50', 'KES')) submission = mommy.make( 'main.Submission', task=task, location=location, user=user, submission_time=parse("2018-09-04T00:00:00+00:00"), status=Submission.APPROVED, target_object_id=instance.id, target_content_type=self.instance_type ) delete_xform(xform=xform) # the xform, instance and submission were deleted self.assertFalse(XForm.objects.filter(id=xform.id).exists()) self.assertFalse(Instance.objects.filter(id=instance.id).exists()) self.assertFalse(Submission.objects.filter(id=submission.id).exists()) # these other models were not deleted self.assertTrue(Bounty.objects.filter(id=bounty.id).exists()) self.assertTrue(Location.objects.filter(id=location.id).exists()) self.assertTrue(User.objects.filter(id=user.id).exists()) self.assertTrue(Task.objects.filter(id=task.id).exists()) # the task is now draft task.refresh_from_db() self.assertEqual(Task.DRAFT, task.status) def test_delete_xform_atomic(self): """ Test delete_xform is atomic """ xform = mommy.make('ona.XForm') instance = mommy.make('ona.Instance', xform=xform) task = mommy.make( 'main.Task', name='Quest', target_object_id=xform.id, target_content_type=self.xform_type, status=Task.ACTIVE ) location = mommy.make('main.Location', name='Voi') user = mommy.make('auth.User', first_name='Coco') bounty = mommy.make( 'main.Bounty', task=task, amount=Money('50', 'KES')) submission = mommy.make( 'main.Submission', task=task, location=location, user=user, submission_time=parse("2018-09-04T00:00:00+00:00"), status=Submission.APPROVED, target_object_id=instance.id, target_content_type=self.instance_type ) with patch('kaznet.apps.ona.utils.delete_instance') as mock: # we want a database-level error to happen when we attempt to # delete an instance or a submission mock.side_effect = IntegrityError # this is necessary so that this test does not fail here with self.assertRaises(IntegrityError): delete_xform(xform=xform) # nothing was deleted self.assertTrue(XForm.objects.filter(id=xform.id).exists()) self.assertTrue(Instance.objects.filter(id=instance.id).exists()) self.assertTrue(Submission.objects.filter(id=submission.id).exists()) self.assertTrue(Bounty.objects.filter(id=bounty.id).exists()) self.assertTrue(Location.objects.filter(id=location.id).exists()) self.assertTrue(User.objects.filter(id=user.id).exists()) self.assertTrue(Task.objects.filter(id=task.id).exists()) # the task status did not change task.refresh_from_db() self.assertEqual(Task.ACTIVE, task.status) with patch('kaznet.apps.ona.models.XForm.delete') as mock: # we want a database-level error to happen when we attempt to # delete an xform mock.side_effect = IntegrityError # this is necessary so that this test does not fail here with self.assertRaises(IntegrityError): delete_xform(xform=xform) # nothing was deleted self.assertTrue(XForm.objects.filter(id=xform.id).exists()) self.assertTrue(Instance.objects.filter(id=instance.id).exists()) self.assertTrue(Submission.objects.filter(id=submission.id).exists()) self.assertTrue(Bounty.objects.filter(id=bounty.id).exists()) self.assertTrue(Location.objects.filter(id=location.id).exists()) self.assertTrue(User.objects.filter(id=user.id).exists()) self.assertTrue(Task.objects.filter(id=task.id).exists()) # the task status did not change task.refresh_from_db() self.assertEqual(Task.ACTIVE, task.status) def test_delete_project(self): """ Test delete_xform """ project = mommy.make('ona.Project') xform = mommy.make('ona.XForm', project=project) xform2 = mommy.make('ona.XForm', ona_project_id=project.ona_pk) instance = mommy.make('ona.Instance', xform=xform) task = mommy.make( 'main.Task', name='Quest', target_object_id=xform.id, target_content_type=self.xform_type, status=Task.ACTIVE ) location = mommy.make('main.Location', name='Voi') user = mommy.make('auth.User', first_name='Coco') bounty = mommy.make( 'main.Bounty', task=task, amount=Money('50', 'KES')) submission = mommy.make( 'main.Submission', task=task, location=location, user=user, submission_time=parse("2018-09-04T00:00:00+00:00"), status=Submission.APPROVED, target_object_id=instance.id, target_content_type=self.instance_type ) delete_project(project=project) # the Project, XForm, Instance and Submission were deleted self.assertFalse(Project.objects.filter(id=project.id).exists()) self.assertFalse(XForm.objects.filter(id=xform.id).exists()) self.assertFalse(XForm.objects.filter(id=xform2.id).exists()) self.assertFalse(Instance.objects.filter(id=instance.id).exists()) self.assertFalse(Submission.objects.filter(id=submission.id).exists()) # these other models were not deleted self.assertTrue(Bounty.objects.filter(id=bounty.id).exists()) self.assertTrue(Location.objects.filter(id=location.id).exists()) self.assertTrue(User.objects.filter(id=user.id).exists()) self.assertTrue(Task.objects.filter(id=task.id).exists()) # the task is now draft task.refresh_from_db() self.assertEqual(Task.DRAFT, task.status) def test_delete_project_atomic(self): """ Test delete_project is atomic """ project = mommy.make('ona.Project') xform = mommy.make('ona.XForm', project=project) xform2 = mommy.make('ona.XForm', ona_project_id=project.ona_pk) instance = mommy.make('ona.Instance', xform=xform) task = mommy.make( 'main.Task', name='Quest', target_object_id=xform.id, target_content_type=self.xform_type, status=Task.ACTIVE ) location = mommy.make('main.Location', name='Voi') user = mommy.make('auth.User', first_name='Coco') bounty = mommy.make( 'main.Bounty', task=task, amount=Money('50', 'KES')) submission = mommy.make( 'main.Submission', task=task, location=location, user=user, submission_time=parse("2018-09-04T00:00:00+00:00"), status=Submission.APPROVED, target_object_id=instance.id, target_content_type=self.instance_type ) with patch('kaznet.apps.ona.models.Project.delete') as mock: # we want a database-level error to happen when we attempt to # delete a project mock.side_effect = IntegrityError # this is necessary so that this test does not fail here with self.assertRaises(IntegrityError): delete_project(project=project) # nothing deleted self.assertTrue(Project.objects.filter(id=project.id).exists()) self.assertTrue(XForm.objects.filter(id=xform.id).exists()) self.assertTrue(XForm.objects.filter(id=xform2.id).exists()) self.assertTrue(Instance.objects.filter(id=instance.id).exists()) self.assertTrue(Submission.objects.filter(id=submission.id).exists()) self.assertTrue(Bounty.objects.filter(id=bounty.id).exists()) self.assertTrue(Location.objects.filter(id=location.id).exists()) self.assertTrue(User.objects.filter(id=user.id).exists()) self.assertTrue(Task.objects.filter(id=task.id).exists()) # the task status did not change task.refresh_from_db() self.assertEqual(Task.ACTIVE, task.status) with patch('kaznet.apps.ona.utils.delete_xform') as mock: # we want a database-level error to happen when we attempt to # delete an xform, instance or submission mock.side_effect = IntegrityError # this is necessary so that this test does not fail here with self.assertRaises(IntegrityError): delete_project(project=project) # nothing deleted self.assertTrue(Project.objects.filter(id=project.id).exists()) self.assertTrue(XForm.objects.filter(id=xform.id).exists()) self.assertTrue(XForm.objects.filter(id=xform2.id).exists()) self.assertTrue(Instance.objects.filter(id=instance.id).exists()) self.assertTrue(Submission.objects.filter(id=submission.id).exists()) self.assertTrue(Bounty.objects.filter(id=bounty.id).exists()) self.assertTrue(Location.objects.filter(id=location.id).exists()) self.assertTrue(User.objects.filter(id=user.id).exists()) self.assertTrue(Task.objects.filter(id=task.id).exists()) # the task status did not change task.refresh_from_db() self.assertEqual(Task.ACTIVE, task.status) with patch('kaznet.apps.ona.utils.delete_instance') as mock: # we want a database-level error to happen when we attempt to # delete an instance or a submission mock.side_effect = IntegrityError # this is necessary so that this test does not fail here with self.assertRaises(IntegrityError): delete_project(project=project) # nothing deleted self.assertTrue(Project.objects.filter(id=project.id).exists()) self.assertTrue(XForm.objects.filter(id=xform.id).exists()) self.assertTrue(XForm.objects.filter(id=xform2.id).exists()) self.assertTrue(Instance.objects.filter(id=instance.id).exists()) self.assertTrue(Submission.objects.filter(id=submission.id).exists()) self.assertTrue(Bounty.objects.filter(id=bounty.id).exists()) self.assertTrue(Location.objects.filter(id=location.id).exists()) self.assertTrue(User.objects.filter(id=user.id).exists()) self.assertTrue(Task.objects.filter(id=task.id).exists()) # the task status did not change task.refresh_from_db() self.assertEqual(Task.ACTIVE, task.status) @override_settings( ONA_ORG_NAME='onasystemsinc', ONA_XFORM_CONFIGURED_FIELD='configuration_status', ONA_CONTRIBUTER_ROLE="dataentry", ONA_MANAGER_ROLE="manager" ) def test_allow_editor_and_manager(self): """Test check if editor and manager can submit to form""" # test editor can submit project = mommy.make( 'ona.Project', name="Test Project", json={ "url": "https://api.ona.io/api/v1/projects/1337", "name": "Test Project", "forms": [{ "name": "Test Form", }], "owner": "https://api.ona.io/api/v1/users/onasystemsinc", "teams": [{ "name": "onasystemsinc#members", "role": "editor", "users": ["mosh"] }, { "name": "onasystemsinc#Owners", "role": "owner", "users": ["coco"] }], } ) xform = mommy.make( 'ona.XForm', title="Test Form", ona_project_id=project.ona_pk, json={"owner": "onasystemsinc"} ) check_if_users_can_submit_to_form(xform) xform.refresh_from_db() self.assertEqual( XForm.CORRECTLY_CONFIGURED, xform.json[settings.ONA_XFORM_CONFIGURED_FIELD] ) # test manager can submit project = mommy.make( 'ona.Project', name="Test Project", json={ "url": "https://api.ona.io/api/v1/projects/1337", "name": "Test Project", "forms": [{ "name": "Test Form", }], "owner": "https://api.ona.io/api/v1/users/onasystemsinc", "teams": [{ "name": "onasystemsinc#members", "role": "manager", "users": ["mosh"] }, { "name": "onasystemsinc#Owners", "role": "owner", "users": ["coco"] }], } ) xform = mommy.make( 'ona.XForm', title="Test Form", ona_project_id=project.ona_pk, json={"owner": "onasystemsinc"} ) check_if_users_can_submit_to_form(xform) xform.refresh_from_db() self.assertEqual( XForm.CORRECTLY_CONFIGURED, xform.json[settings.ONA_XFORM_CONFIGURED_FIELD] ) @override_settings( ONA_ORG_NAME='onasystemsinc') def test_check_if_users_can_submit_to_form(self): """Test check if users can submit to form""" # test correct project = mommy.make( 'ona.Project', name="Test Project", json={ "url": "https://api.ona.io/api/v1/projects/1337", "name": "Test Project", "forms": [{ "name": "Test Form", }], "owner": "https://api.ona.io/api/v1/users/onasystemsinc", "teams": [{ "name": "onasystemsinc#members", "role": "dataentry", "users": ["mosh"] }, { "name": "onasystemsinc#Owners", "role": "owner", "users": ["coco"] }], } ) xform = mommy.make( 'ona.XForm', title="Test Form", ona_project_id=project.ona_pk, json={"owner": "onasystemsinc"} ) check_if_users_can_submit_to_form(xform) xform.refresh_from_db() self.assertEqual( XForm.CORRECTLY_CONFIGURED, xform.json[settings.ONA_XFORM_CONFIGURED_FIELD] ) # test MEMBERS_CANT_SUBMIT project = mommy.make( 'ona.Project', name="Test Project", json={ "url": "https://api.ona.io/api/v1/projects/1337", "name": "Test Project", "forms": [{ "name": "Test Form", }], "owner": "https://api.ona.io/api/v1/users/onasystemsinc", "teams": [{ "name": "onasystemsinc#members", "role": "somethingelse", "users": ["mosh"] }, { "name": "onasystemsinc#Owners", "role": "owner", "users": ["coco"] }], } ) xform = mommy.make( 'ona.XForm', title="Test Form", ona_project_id=project.ona_pk, json={"owner": "onasystemsinc"} ) check_if_users_can_submit_to_form(xform) xform.refresh_from_db() self.assertEqual( XForm.MEMBERS_CANT_SUBMIT, xform.json[settings.ONA_XFORM_CONFIGURED_FIELD] ) # test NO_VALID_TEAM project = mommy.make( 'ona.Project', name="Test Project", json={ "url": "https://api.ona.io/api/v1/projects/1337", "name": "Test Project", "forms": [{ "name": "Test Form", }], "owner": "https://api.ona.io/api/v1/users/onasystemsinc", "teams": [{ "name": "iloveoov#members", "role": "dataentry", "users": ["mosh"] }, { "name": "onasystemsinc#Owners", "role": "owner", "users": ["coco"] }], } ) xform = mommy.make( 'ona.XForm', title="Test Form", ona_project_id=project.ona_pk, json={"owner": "onasystemsinc"} ) check_if_users_can_submit_to_form(xform) xform.refresh_from_db() self.assertEqual( XForm.NO_VALID_TEAM, xform.json[settings.ONA_XFORM_CONFIGURED_FIELD] ) # test NO_TEAMS_AT_ALL project = mommy.make( 'ona.Project', name="Test Project", json={ "url": "https://api.ona.io/api/v1/projects/1337", "name": "Test Project", "forms": [{ "name": "Test Form", }], "owner": "https://api.ona.io/api/v1/users/onasystemsinc", "teams": [], } ) xform = mommy.make( 'ona.XForm', title="Test Form", ona_project_id=project.ona_pk, json={"owner": "onasystemsinc"} ) check_if_users_can_submit_to_form(xform) xform.refresh_from_db() self.assertEqual( XForm.NO_TEAMS_AT_ALL, xform.json[settings.ONA_XFORM_CONFIGURED_FIELD] ) project = mommy.make( 'ona.Project', name="Test Project", json={} ) xform = mommy.make( 'ona.XForm', title="Test Form", ona_project_id=project.ona_pk, json={"owner": "onasystemsinc"} ) check_if_users_can_submit_to_form(xform) xform.refresh_from_db() self.assertEqual( XForm.NO_TEAMS_AT_ALL, xform.json[settings.ONA_XFORM_CONFIGURED_FIELD] ) # test NO_PROJECT xform = mommy.make( 'ona.XForm', title="Test Form", ona_project_id=0, json={"owner": "onasystemsinc"} ) check_if_users_can_submit_to_form(xform) xform.refresh_from_db() self.assertEqual( XForm.NO_PROJECT, xform.json[settings.ONA_XFORM_CONFIGURED_FIELD] ) # test WRONG_OWNER xform = mommy.make( 'ona.XForm', title="Test Form", ona_project_id=0, json={"owner": "kaznet"} ) check_if_users_can_submit_to_form(xform) xform.refresh_from_db() self.assertEqual( XForm.WRONG_OWNER, xform.json[settings.ONA_XFORM_CONFIGURED_FIELD] ) xform = mommy.make( 'ona.XForm', title="Test Form", ona_project_id=0, json={} ) check_if_users_can_submit_to_form(xform) xform.refresh_from_db() self.assertEqual( XForm.WRONG_OWNER, xform.json[settings.ONA_XFORM_CONFIGURED_FIELD] )
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0.897079
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0.307094
24,810
655
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37.877863
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false
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0
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0
0
7
6d9bb0e483d36d0ce6aaeda8399b8074b2ebe63c
3,824
py
Python
ANYstructure_local/example_data_puls.py
audunarn/ANYstructure
ddcd1aaaec203beffcfdbf632968b53d5c93e317
[ "MIT" ]
22
2019-04-08T07:53:05.000Z
2022-02-10T08:43:29.000Z
ANYstructure_local/example_data_puls.py
audunarn/ANYstructure
ddcd1aaaec203beffcfdbf632968b53d5c93e317
[ "MIT" ]
21
2018-04-13T11:30:21.000Z
2021-10-19T13:05:15.000Z
ANYstructure_local/example_data_puls.py
audunarn/ANYstructure
ddcd1aaaec203beffcfdbf632968b53d5c93e317
[ "MIT" ]
9
2018-12-04T14:45:15.000Z
2022-02-22T15:57:31.000Z
''' Contains examples to be used for testing. ''' ex1 = {'Identification': 'Panel 1', 'Length of panel': 3000, 'Stiffener spacing': 700, 'Plate thickness': 15, 'Number of primary stiffeners': 20, 'Stiffener type (L,T,F)': 'T', 'Stiffener boundary': 'C', 'Stiff. Height': 350, 'Web thick.': 12,'Flange width': 150, 'Flange thick.': 18, 'Tilt angle': 0, 'Number of sec. stiffeners': 0, 'Modulus of elasticity': 2.1e11/1e6, "Poisson's ratio": 0.33, 'Yield stress plate': 355, 'Yield stress stiffener': 355, 'Axial stress': 80, 'Trans. stress 1': 60, 'Trans. stress 2': 50, 'Shear stress': 10, 'Pressure (fixed)': 0.08, 'In-plane support': 'Int'} ex2 = {'Identification': 'Panel 2', 'Length of panel': 3500, 'Stiffener spacing': 700, 'Plate thickness': 15, 'Number of primary stiffeners': 20, 'Stiffener type (L,T,F)': 'T', 'Stiffener boundary': 'C', 'Stiff. Height': 350, 'Web thick.': 12,'Flange width': 150, 'Flange thick.': 18, 'Tilt angle': 0, 'Number of sec. stiffeners': 0, 'Modulus of elasticity': 2.1e11/1e6, "Poisson's ratio": 0.33, 'Yield stress plate': 355, 'Yield stress stiffener': 355, 'Axial stress': 80, 'Trans. stress 1': 60, 'Trans. stress 2': 50, 'Shear stress': 10, 'Pressure (fixed)': 0.08, 'In-plane support': 'Int'} ex3 = {'Identification': 'Panel 3', 'Length of panel': 4000, 'Stiffener spacing': 700, 'Plate thickness': 15, 'Number of primary stiffeners': 20, 'Stiffener type (L,T,F)': 'T', 'Stiffener boundary': 'C', 'Stiff. Height': 350, 'Web thick.': 12,'Flange width': 150, 'Flange thick.': 18, 'Tilt angle': 0, 'Number of sec. stiffeners': 0, 'Modulus of elasticity': 2.1e11/1e6, "Poisson's ratio": 0.33, 'Yield stress plate': 355, 'Yield stress stiffener': 355, 'Axial stress': 80, 'Trans. stress 1': 60, 'Trans. stress 2': 50, 'Shear stress': 10, 'Pressure (fixed)': 0.08, 'In-plane support': 'Int'} ex4 = {'Identification': 'Panel 4', 'Length of panel': 3000, 'Stiffener spacing': 700, 'Plate thickness': 15, 'Number of primary stiffeners': 20, 'Stiffener type (L,T,F)': 'T', 'Stiffener boundary': 'C', 'Stiff. Height': 400, 'Web thick.': 12,'Flange width': 150, 'Flange thick.': 18, 'Tilt angle': 0, 'Number of sec. stiffeners': 0, 'Modulus of elasticity': 2.1e11/1e6, "Poisson's ratio": 0.33, 'Yield stress plate': 355, 'Yield stress stiffener': 355, 'Axial stress': 80, 'Trans. stress 1': 60, 'Trans. stress 2': 50, 'Shear stress': 10, 'Pressure (fixed)': 0.08, 'In-plane support': 'Int'} ex5 = {'Identification': 'Panel 5', 'Length of panel': 3500, 'Stiffener spacing': 700, 'Plate thickness': 15, 'Number of primary stiffeners': 20, 'Stiffener type (L,T,F)': 'T', 'Stiffener boundary': 'C', 'Stiff. Height': 350, 'Web thick.': 12,'Flange width': 150, 'Flange thick.': 25, 'Tilt angle': 0, 'Number of sec. stiffeners': 0, 'Modulus of elasticity': 2.1e11/1e6, "Poisson's ratio": 0.33, 'Yield stress plate': 355, 'Yield stress stiffener': 355, 'Axial stress': 80, 'Trans. stress 1': 60, 'Trans. stress 2': 50, 'Shear stress': 10, 'Pressure (fixed)': 0.08, 'In-plane support': 'Int'} ex6 = {'Identification': 'Panel 6', 'Length of panel': 4000, 'Stiffener spacing': 800, 'Plate thickness': 20, 'Number of primary stiffeners': 20, 'Stiffener type (L,T,F)': 'T', 'Stiffener boundary': 'C', 'Stiff. Height': 350, 'Web thick.': 12,'Flange width': 150, 'Flange thick.': 18, 'Tilt angle': 0, 'Number of sec. stiffeners': 0, 'Modulus of elasticity': 2.1e11/1e6, "Poisson's ratio": 0.33, 'Yield stress plate': 355, 'Yield stress stiffener': 355, 'Axial stress': 80, 'Trans. stress 1': 60, 'Trans. stress 2': 50, 'Shear stress': 10, 'Pressure (fixed)': 0.08, 'In-plane support': 'Int'}
83.130435
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0.623954
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0.896899
0.896899
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8
6db72e2f65eb187a6ec40b00c5f2c7980b0c2455
3,261
py
Python
akshare/stock_feature/stock_em_jgdy.py
PKUuu/akshare
03967312b6c8afdec32e081fb23ae5916b674936
[ "MIT" ]
1
2020-05-14T13:20:48.000Z
2020-05-14T13:20:48.000Z
akshare/stock_feature/stock_em_jgdy.py
13767849/akshare
5b7e4daaa80b1ccaf3f5a980a1205848e2e8570d
[ "MIT" ]
null
null
null
akshare/stock_feature/stock_em_jgdy.py
13767849/akshare
5b7e4daaa80b1ccaf3f5a980a1205848e2e8570d
[ "MIT" ]
null
null
null
# -*- coding:utf-8 -*- # /usr/bin/env python """ Author: Albert King date: 2019/12/27 18:02 contact: jindaxiang@163.com desc: 东方财富网-数据中心-特色数据-机构调研 东方财富网-数据中心-特色数据-机构调研-机构调研统计: http://data.eastmoney.com/jgdy/tj.html 东方财富网-数据中心-特色数据-机构调研-机构调研详细: http://data.eastmoney.com/jgdy/xx.html """ import json import requests import pandas as pd # pd.set_option('display.max_columns', 500) def _get_page_num_tj(): """ 东方财富网-数据中心-特色数据-机构调研-机构调研统计 http://data.eastmoney.com/jgdy/tj.html :return: int 获取 机构调研统计 的总页数 """ url = "http://data.eastmoney.com/DataCenter_V3/jgdy/gsjsdy.ashx" params = { "pagesize": "5000", "page": "2", "js": "var sGrabtEb", "param": "", "sortRule": "-1", "sortType": "0", "rt": "52581365", } res = requests.get(url, params=params) data_json = json.loads(res.text[res.text.find("={")+1:]) return data_json["pages"] def _get_page_num_detail(): """ 东方财富网-数据中心-特色数据-机构调研-机构调研详细 http://data.eastmoney.com/jgdy/xx.html :return: int 获取 机构调研详细 的总页数 """ url = "http://data.eastmoney.com/DataCenter_V3/jgdy/xx.ashx" params = { "pagesize": "5000", "page": "2", "js": "var SZGpIhFb", "param": "", "sortRule": "-1", "sortType": "0", "rt": "52581407", } res = requests.get(url, params=params) data_json = json.loads(res.text[res.text.find("={")+1:]) return data_json["pages"] def stock_em_jgdy_tj(): """ 东方财富网-数据中心-特色数据-机构调研-机构调研统计 http://data.eastmoney.com/jgdy/tj.html :return: pandas.DataFrame """ url = "http://data.eastmoney.com/DataCenter_V3/jgdy/gsjsdy.ashx" page_num = _get_page_num_tj() temp_df = pd.DataFrame() for page in range(1, page_num+1): print(f"一共{page_num}页, 正在下载第{page}页") params = { "pagesize": "5000", "page": str(page), "js": "var sGrabtEb", "param": "", "sortRule": "-1", "sortType": "0", "rt": "52581365", } res = requests.get(url, params=params) data_json = json.loads(res.text[res.text.find("={")+1:]) temp_df = temp_df.append(pd.DataFrame(data_json["data"]), ignore_index=True) return temp_df def stock_em_jgdy_detail(): """ 东方财富网-数据中心-特色数据-机构调研-机构调研详细 http://data.eastmoney.com/jgdy/xx.html :return: pandas.DataFrame """ url = "http://data.eastmoney.com/DataCenter_V3/jgdy/xx.ashx" page_num = _get_page_num_detail() temp_df = pd.DataFrame() for page in range(1, page_num+1): print(f"一共{page_num}页, 正在下载第{page}页") params = { "pagesize": "5000", "page": str(page), "js": "var SZGpIhFb", "param": "", "sortRule": "-1", "sortType": "0", "rt": "52581407", } res = requests.get(url, params=params) data_json = json.loads(res.text[res.text.find("={")+1:]) temp_df = temp_df.append(pd.DataFrame(data_json["data"]), ignore_index=True) return temp_df if __name__ == '__main__': df_tj = stock_em_jgdy_tj() print(df_tj) df_detail = stock_em_jgdy_detail() print(df_detail)
27.403361
84
0.574057
429
3,261
4.200466
0.237762
0.044395
0.09434
0.110988
0.8202
0.8202
0.801332
0.801332
0.775805
0.771365
0
0.036386
0.249923
3,261
118
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27.635593
0.700327
0.212512
0
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0
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0.227992
0
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0.054054
false
0
0.040541
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0.148649
0.054054
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0
0
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0
0
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7
6dba2eaca784b1e510399e94ebed15cc1e5b5bcd
6,217
py
Python
tests/test_12_forecast.py
asymworks/pyairnow
7e5bde78c2e4b63afbc788db6686ce3b71931378
[ "MIT" ]
4
2020-10-01T07:31:04.000Z
2022-02-03T18:36:01.000Z
tests/test_12_forecast.py
asymworks/pyairnow
7e5bde78c2e4b63afbc788db6686ce3b71931378
[ "MIT" ]
1
2021-02-27T00:15:54.000Z
2021-02-27T00:15:54.000Z
tests/test_12_forecast.py
asymworks/pyairnow
7e5bde78c2e4b63afbc788db6686ce3b71931378
[ "MIT" ]
1
2021-02-12T18:14:59.000Z
2021-02-12T18:14:59.000Z
import datetime import pytest from pyairnow import WebServiceAPI from .mock_api import MOCK_API_KEY @pytest.mark.asyncio async def test_api_forecast_zipcode(mock_airnowapi): client = WebServiceAPI(MOCK_API_KEY) data = await client.forecast.zipCode(90001) assert isinstance(data, list) assert len(data) == 1 assert data[0]['type'] == 'forecast' assert data[0]['mode'] == 'zipCode' assert data[0]['when'] is None assert 'zipCode' in data[0]['query'] assert data[0]['query']['zipCode'] == '90001' @pytest.mark.asyncio async def test_api_forecast_zipcode_distance(mock_airnowapi): client = WebServiceAPI(MOCK_API_KEY) data = await client.forecast.zipCode(90001, distance=100) assert isinstance(data, list) assert len(data) == 1 assert data[0]['type'] == 'forecast' assert data[0]['mode'] == 'zipCode' assert data[0]['when'] is None assert 'zipCode' in data[0]['query'] assert data[0]['query']['zipCode'] == '90001' assert 'distance' in data[0]['query'] assert data[0]['query']['distance'] == '100' @pytest.mark.asyncio async def test_api_forecast_zipcode_date_str(mock_airnowapi): client = WebServiceAPI(MOCK_API_KEY) data = await client.forecast.zipCode(90001, date='2020-09-01') assert isinstance(data, list) assert len(data) == 1 assert data[0]['type'] == 'forecast' assert data[0]['mode'] == 'zipCode' assert data[0]['when'] is None assert 'zipCode' in data[0]['query'] assert data[0]['query']['zipCode'] == '90001' assert 'date' in data[0]['query'] assert data[0]['query']['date'] == '2020-09-01' @pytest.mark.asyncio async def test_api_forecast_zipcode_date_date(mock_airnowapi): client = WebServiceAPI(MOCK_API_KEY) data = await client.forecast.zipCode( 90001, date=datetime.date(2020, 9, 1) ) assert isinstance(data, list) assert len(data) == 1 assert data[0]['type'] == 'forecast' assert data[0]['mode'] == 'zipCode' assert data[0]['when'] is None assert 'zipCode' in data[0]['query'] assert data[0]['query']['zipCode'] == '90001' assert 'date' in data[0]['query'] assert data[0]['query']['date'] == '2020-09-01' @pytest.mark.asyncio async def test_api_forecast_zipcode_date_datetime(mock_airnowapi): client = WebServiceAPI(MOCK_API_KEY) data = await client.forecast.zipCode( 90001, date=datetime.datetime(2020, 9, 1, 11, 45, 1) ) assert isinstance(data, list) assert len(data) == 1 assert data[0]['type'] == 'forecast' assert data[0]['mode'] == 'zipCode' assert data[0]['when'] is None assert 'zipCode' in data[0]['query'] assert data[0]['query']['zipCode'] == '90001' assert 'date' in data[0]['query'] assert data[0]['query']['date'] == '2020-09-01' @pytest.mark.asyncio async def test_api_forecast_ll(mock_airnowapi): client = WebServiceAPI(MOCK_API_KEY) data = await client.forecast.latLong(34.053718, -118.244842) assert isinstance(data, list) assert len(data) == 1 assert data[0]['type'] == 'forecast' assert data[0]['mode'] == 'latLong' assert data[0]['when'] is None assert 'latitude' in data[0]['query'] assert data[0]['query']['latitude'] == '34.053718' assert 'longitude' in data[0]['query'] assert data[0]['query']['longitude'] == '-118.244842' @pytest.mark.asyncio async def test_api_forecast_ll_distance(mock_airnowapi): client = WebServiceAPI(MOCK_API_KEY) data = await client.forecast.latLong( 34.053718, -118.244842, distance=120 ) assert isinstance(data, list) assert len(data) == 1 assert data[0]['type'] == 'forecast' assert data[0]['mode'] == 'latLong' assert data[0]['when'] is None assert 'latitude' in data[0]['query'] assert data[0]['query']['latitude'] == '34.053718' assert 'longitude' in data[0]['query'] assert data[0]['query']['longitude'] == '-118.244842' assert 'distance' in data[0]['query'] assert data[0]['query']['distance'] == '120' @pytest.mark.asyncio async def test_api_forecast_ll_date_str(mock_airnowapi): client = WebServiceAPI(MOCK_API_KEY) data = await client.forecast.latLong( 34.053718, -118.244842, date='2020-09-01' ) assert isinstance(data, list) assert len(data) == 1 assert data[0]['type'] == 'forecast' assert data[0]['mode'] == 'latLong' assert data[0]['when'] is None assert 'latitude' in data[0]['query'] assert data[0]['query']['latitude'] == '34.053718' assert 'longitude' in data[0]['query'] assert data[0]['query']['longitude'] == '-118.244842' assert 'date' in data[0]['query'] assert data[0]['query']['date'] == '2020-09-01' @pytest.mark.asyncio async def test_api_forecast_ll_date_date(mock_airnowapi): client = WebServiceAPI(MOCK_API_KEY) data = await client.forecast.latLong( 34.053718, -118.244842, date=datetime.date(2020, 9, 1) ) assert isinstance(data, list) assert len(data) == 1 assert data[0]['type'] == 'forecast' assert data[0]['mode'] == 'latLong' assert data[0]['when'] is None assert 'latitude' in data[0]['query'] assert data[0]['query']['latitude'] == '34.053718' assert 'longitude' in data[0]['query'] assert data[0]['query']['longitude'] == '-118.244842' assert 'date' in data[0]['query'] assert data[0]['query']['date'] == '2020-09-01' @pytest.mark.asyncio async def test_api_forecast_ll_date_datetime(mock_airnowapi): client = WebServiceAPI(MOCK_API_KEY) data = await client.forecast.latLong( 34.053718, -118.244842, date=datetime.datetime(2020, 9, 1, 11, 45, 0) ) assert isinstance(data, list) assert len(data) == 1 assert data[0]['type'] == 'forecast' assert data[0]['mode'] == 'latLong' assert data[0]['when'] is None assert 'latitude' in data[0]['query'] assert data[0]['query']['latitude'] == '34.053718' assert 'longitude' in data[0]['query'] assert data[0]['query']['longitude'] == '-118.244842' assert 'date' in data[0]['query'] assert data[0]['query']['date'] == '2020-09-01'
28.388128
66
0.637607
844
6,217
4.60545
0.062796
0.097762
0.149987
0.071006
0.970929
0.970929
0.970929
0.970929
0.961667
0.926679
0
0.082572
0.189641
6,217
218
67
28.518349
0.688964
0
0
0.810127
0
0
0.165836
0
0
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0
0.607595
1
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false
0
0.025316
0
0.025316
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null
0
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8
6dde1b8ba9f9bde14714025fa0e4962c9d7b6a04
11,203
py
Python
fn_cloud_foundry/tests/test_fn_cloud_foundry_instance_command.py
rudimeyer/resilient-community-apps
7a46841ba41fa7a1c421d4b392b0a3ca9e36bd00
[ "MIT" ]
1
2020-08-25T03:43:07.000Z
2020-08-25T03:43:07.000Z
fn_cloud_foundry/tests/test_fn_cloud_foundry_instance_command.py
rudimeyer/resilient-community-apps
7a46841ba41fa7a1c421d4b392b0a3ca9e36bd00
[ "MIT" ]
1
2019-07-08T16:57:48.000Z
2019-07-08T16:57:48.000Z
fn_cloud_foundry/tests/test_fn_cloud_foundry_instance_command.py
rudimeyer/resilient-community-apps
7a46841ba41fa7a1c421d4b392b0a3ca9e36bd00
[ "MIT" ]
null
null
null
# -*- coding: utf-8 -*- """Tests using pytest_resilient_circuits""" from __future__ import print_function import pytest from resilient_circuits.util import get_config_data, get_function_definition from resilient_circuits import SubmitTestFunction, FunctionResult from .mock_response import give_response, AuthenticationMock, GUIDS_MOCK try: from unittest.mock import patch except ImportError: from mock import patch PACKAGE_NAME = "fn_cloud_foundry" FUNCTION_NAME = "fn_cloud_foundry_instance_command" # Read the default configuration-data section from the package config_data = get_config_data(PACKAGE_NAME) # Provide a simulation of the Resilient REST API (uncomment to connect to a real appliance) resilient_mock = "pytest_resilient_circuits.BasicResilientMock" def call_fn_cloud_foundry_instance_command_function(circuits, function_params, timeout=10): # Fire a message to the function evt = SubmitTestFunction("fn_cloud_foundry_instance_command", function_params) circuits.manager.fire(evt) event = circuits.watcher.wait("fn_cloud_foundry_instance_command_result", parent=evt, timeout=timeout) assert event assert isinstance(event.kwargs["result"], FunctionResult) pytest.wait_for(event, "complete", True) return event.kwargs["result"].value class TestFnCloudFoundryInstanceCommand: """ Tests for the fn_cloud_foundry_instance_command function""" def test_function_definition(self): """ Test that the package provides customization_data that defines the function """ func = get_function_definition(PACKAGE_NAME, FUNCTION_NAME) assert func is not None @patch("fn_cloud_foundry.components.fn_cloud_foundry_instance_command.IBMCloudFoundryAuthenticator") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.get") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.delete") @pytest.mark.parametrize("fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications", [ ('delete', "text", "test1") ]) def test_success(self, delete, get, auth, circuits_app, fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications): """ Test calling with sample values for the parameters """ auth.return_value = AuthenticationMock() delete.return_value = give_response(204, {}) get.return_value = give_response(200, GUIDS_MOCK) function_params = { "fn_cloud_foundry_instance_action": fn_cloud_foundry_instance_action, "fn_cloud_foundry_instances": fn_cloud_foundry_instances, "fn_cloud_foundry_applications": fn_cloud_foundry_applications, "fn_cloud_foundry_additional_parameters_json": "{}" } results = call_fn_cloud_foundry_instance_command_function(circuits_app, function_params) assert(results["test1"]["text"]["success"] == True) @patch("fn_cloud_foundry.components.fn_cloud_foundry_instance_command.IBMCloudFoundryAuthenticator") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.get") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.delete") @pytest.mark.parametrize( "fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications", [ ('delete', "text", "rand name") ]) def test_app_not_found(self, delete, get, auth, circuits_app, fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications): """ Test calling with sample values for the parameters """ auth.return_value = AuthenticationMock() delete.return_value = give_response(204, {}) get.return_value = give_response(200, GUIDS_MOCK) function_params = { "fn_cloud_foundry_instance_action": fn_cloud_foundry_instance_action, "fn_cloud_foundry_instances": fn_cloud_foundry_instances, "fn_cloud_foundry_applications": fn_cloud_foundry_applications, "fn_cloud_foundry_additional_parameters_json": "{}" } results = call_fn_cloud_foundry_instance_command_function(circuits_app, function_params) assert (results["rand name"]["success"] == False) @patch("fn_cloud_foundry.components.fn_cloud_foundry_instance_command.IBMCloudFoundryAuthenticator") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.get") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.delete") @pytest.mark.parametrize( "fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications", [ ('delete', "text", "test1") ]) def test_fail_info(self, delete, get, auth, circuits_app, fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications): """ Test calling with sample values for the parameters """ auth.return_value = AuthenticationMock() delete.return_value = give_response(204, {}) get.return_value = give_response(404, GUIDS_MOCK) function_params = { "fn_cloud_foundry_instance_action": fn_cloud_foundry_instance_action, "fn_cloud_foundry_instances": fn_cloud_foundry_instances, "fn_cloud_foundry_applications": fn_cloud_foundry_applications, "fn_cloud_foundry_additional_parameters_json": "{}" } with pytest.raises(AssertionError): results = call_fn_cloud_foundry_instance_command_function(circuits_app, function_params) @patch("fn_cloud_foundry.components.fn_cloud_foundry_instance_command.IBMCloudFoundryAuthenticator") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.get") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.delete") @pytest.mark.parametrize( "fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications", [ ('delete', "text", "test1") ]) def test_fail_instance(self, delete, get, auth, circuits_app, fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications): """ Test calling with sample values for the parameters """ auth.return_value = AuthenticationMock() delete.return_value = give_response(404, {}) get.return_value = give_response(200, GUIDS_MOCK) function_params = { "fn_cloud_foundry_instance_action": fn_cloud_foundry_instance_action, "fn_cloud_foundry_instances": fn_cloud_foundry_instances, "fn_cloud_foundry_applications": fn_cloud_foundry_applications, "fn_cloud_foundry_additional_parameters_json": "{}" } results = call_fn_cloud_foundry_instance_command_function(circuits_app, function_params) assert (results["test1"]["text"]["success"] == False) @patch("fn_cloud_foundry.components.fn_cloud_foundry_instance_command.IBMCloudFoundryAuthenticator") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.get") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.delete") @pytest.mark.parametrize( "fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications", [ ('delete', "inst1, inst2", "test1") ]) def test_fail_and_succeed(self, delete, get, auth, circuits_app, fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications): """ Test calling with sample values for the parameters """ auth.return_value = AuthenticationMock() delete.return_value = give_response(204, {}) get.return_value = give_response(200, GUIDS_MOCK) function_params = { "fn_cloud_foundry_instance_action": fn_cloud_foundry_instance_action, "fn_cloud_foundry_instances": fn_cloud_foundry_instances, "fn_cloud_foundry_applications": fn_cloud_foundry_applications, "fn_cloud_foundry_additional_parameters_json": "{}" } results = call_fn_cloud_foundry_instance_command_function(circuits_app, function_params) assert (results["test1"]["inst1"]["success"] == True) assert (results["test1"]["inst2"]["success"] == True) @patch("fn_cloud_foundry.components.fn_cloud_foundry_instance_command.IBMCloudFoundryAuthenticator") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.get") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.delete") @pytest.mark.parametrize( "fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications", [ ('unreal command', "inst1, inst2", "test1") ]) def test_fail_and_succeed(self, delete, get, auth, circuits_app, fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications): """ Test calling with sample values for the parameters """ auth.return_value = AuthenticationMock() delete.return_value = give_response(204, {}) get.return_value = give_response(200, GUIDS_MOCK) function_params = { "fn_cloud_foundry_instance_action": fn_cloud_foundry_instance_action, "fn_cloud_foundry_instances": fn_cloud_foundry_instances, "fn_cloud_foundry_applications": fn_cloud_foundry_applications, "fn_cloud_foundry_additional_parameters_json": "{}" } results = call_fn_cloud_foundry_instance_command_function(circuits_app, function_params) assert results["success"] == False @patch("fn_cloud_foundry.components.fn_cloud_foundry_instance_command.IBMCloudFoundryAuthenticator") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.get") @patch("fn_cloud_foundry.util.cloud_foundry_api.requests.delete") @pytest.mark.parametrize( "fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications", [ ('delete', "text", None), ('delete', None, "test1"), (None, "text", "test1"), ]) def test_fail_parameters(self, delete, get, auth, circuits_app, fn_cloud_foundry_instance_action, fn_cloud_foundry_instances, fn_cloud_foundry_applications): """ Test calling with sample values for the parameters """ auth.return_value = AuthenticationMock() delete.return_value = give_response(204, {}) get.return_value = give_response(200, GUIDS_MOCK) function_params = { "fn_cloud_foundry_instance_action": fn_cloud_foundry_instance_action, "fn_cloud_foundry_instances": fn_cloud_foundry_instances, "fn_cloud_foundry_applications": fn_cloud_foundry_applications, "fn_cloud_foundry_additional_parameters_json": "{}" } with pytest.raises(AssertionError): results = call_fn_cloud_foundry_instance_command_function(circuits_app, function_params)
53.094787
125
0.72186
1,276
11,203
5.866771
0.097962
0.234037
0.246861
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0.839434
0.828213
0.818328
0.818328
0.811782
0.811782
0
0.006852
0.19227
11,203
211
126
53.094787
0.820422
0.066054
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0.294395
0
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0.052023
false
0
0.046243
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0.00578
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null
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0
0
0
0
0
0
0
8
6ddf4fb3927648adbe970265c18861d2933b71f8
4,447
py
Python
info2.py
IamAbhilashPathak/CNERG
b9e3e52ad72773f79c53a2c6134767cc4a66f542
[ "MIT" ]
null
null
null
info2.py
IamAbhilashPathak/CNERG
b9e3e52ad72773f79c53a2c6134767cc4a66f542
[ "MIT" ]
null
null
null
info2.py
IamAbhilashPathak/CNERG
b9e3e52ad72773f79c53a2c6134767cc4a66f542
[ "MIT" ]
1
2018-08-25T06:42:41.000Z
2018-08-25T06:42:41.000Z
import sys import os output_filename = os.path.normpath("info2.sh") with open(output_filename, "w") as out_file: with open("times") as data: x = [] y = [] for line in data: p = line.split() x.append(p[0]) y.append(p[1]) length = len(x) out_file.write ("#!/bin/bash\n") for i in range(length): #out_file.write ("python ~/parsers/shorter.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/shorter.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("mv ~/%s/chrome_debug_%s_http_parsed.log ~/%s/%s_http.log"%(x[i], x[i], x[i], x[i]) + "\n") #out_file.write ("mv ~/%s/chrome_debug_%s_quic_parsed.log ~/%s/%s_quic.log"%(x[i], x[i], x[i], x[i]) + "\n") #out_file.write ("rm ~/%s/chrome_debug_%s_http.log"%(x[i], x[i]) + "\n") #out_file.write ("rm ~/%s/chrome_debug_%s_quic.log"%(x[i], x[i]) + "\n") #out_file.write ("python ~/parsers/parser1.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/parser2.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/quality_change.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/parserthroughput.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/quality_playtime.py" + " " + x[i] + " " + "http" + " " + y[i] + "\n") #out_file.write ("python ~/parsers/parser3.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/parser4.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/stall_time.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/parserdown.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/parserdownload.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/download_time.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/parserresponse.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/response_time.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/parser1.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/parser2.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/quality_change.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/parserthroughput.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/quality_playtime.py" + " " + x[i] + " " + "quic" + " " + y[i] + "\n") #out_file.write ("python ~/parsers/parser3.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/parser4.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/stall_time.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/parserdown.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/parserdownload.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/download_time.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/parserresponse.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/response_time.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/qoe_metrics.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/qoe_metrics.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/qoe_metrics1.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/qoe_metrics1.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/qoe_metrics_new.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/qoe_metrics_new.py" + " " + x[i] + " " + "quic" + "\n") #out_file.write ("python ~/parsers/rebuffer.py" + " " + x[i] + " " + "http" + "\n") #out_file.write ("python ~/parsers/rebuffer.py" + " " + x[i] + " " + "quic" + "\n")
72.901639
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0.823912
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4,447
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null
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9
6ddfc4912d29c381022cae8e3621576cf14e92ce
336
py
Python
bioinformatics/rosalind-problems/affineGap/affineGap.py
Larkenx/coursework
54eb3b69b622a3c593ed349aed95d42a424cd0a2
[ "MIT" ]
3
2017-11-07T16:17:39.000Z
2020-10-31T00:15:17.000Z
bioinformatics/rosalind-problems/affineGap/affineGap.py
Larkenx/coursework
54eb3b69b622a3c593ed349aed95d42a424cd0a2
[ "MIT" ]
null
null
null
bioinformatics/rosalind-problems/affineGap/affineGap.py
Larkenx/coursework
54eb3b69b622a3c593ed349aed95d42a424cd0a2
[ "MIT" ]
null
null
null
def LCSBackTrack(s1, s2): lower = [[0 for y in range(len(s2) + 1)] for x in range((len(s1) + 1))] middle = [[0 for y in range(len(s2) + 1)] for x in range((len(s1) + 1))] upper = [[0 for y in range(len(s2) + 1)] for x in range((len(s1) + 1))] backTrack = [[0 for y in range(len(s2) + 1)] for x in range((len(s1) + 1))]
48
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2.705882
0.235294
0.304348
0.434783
0.152174
0.76087
0.76087
0.76087
0.76087
0.76087
0.76087
0
0.085938
0.238095
336
6
80
56
0.632813
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0.2
false
0
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0.2
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a3069d5ccd1d2f67fd486e61d980ecd9c7c4c298
269,188
py
Python
docs/source/make_external_gallery.py
softwareunderground/subsurface
ad5a6d2d24e710ce7a78ec99b2075ddbb9dfeb7d
[ "Apache-2.0" ]
55
2019-05-09T12:26:28.000Z
2021-11-05T07:35:15.000Z
docs/source/make_external_gallery.py
RajdeepTarafder/subsurface
1308bc2a1d8e803db1680a1300682a91fec8d5fe
[ "Apache-2.0" ]
33
2019-05-09T16:28:19.000Z
2022-03-30T13:40:21.000Z
docs/source/make_external_gallery.py
RajdeepTarafder/subsurface
1308bc2a1d8e803db1680a1300682a91fec8d5fe
[ "Apache-2.0" ]
14
2019-05-09T12:26:33.000Z
2021-09-01T11:31:27.000Z
""" Modified after https://github.com/pyvista/pyvista/blob/ab70c26edbcfb107286c827bd4914562056219fb/docs/make_external_gallery.py A helper script to generate the external examples gallery. """ import os def format_icon(title, description, link, image): body = r""" .. raw:: html <div class="sphx-glr-thumbcontainer" tooltip="{}"> .. only:: html .. figure:: {} :target: {} {} .. raw:: html </div> .. toctree:: :hidden: {} <{}> """ content = body.format(description, image, link, title, title, link) return content class Example(): def __init__(self, title, description, link, image): self.title = title self.description = description self.link = link self.image = image def format(self): return format_icon(self.title, self.description, self.link, self.image) ############################################################################### articles = dict( gempy_well=Example( title="GemPy - Subsurface Link", description="Build a model from Subsurface object and export result back to subsurface", link="https://docs.gempy.org/integrations/gempy_subsurface.html#sphx-glr-integrations-gempy-subsurface-py", image="https://docs.gempy.org/_images/sphx_glr_gempy_subsurface_002.png", ), segysag=Example( title="Using segysak with subsurface", description="Loading a segy cube into `subsurface.StructuredData`.", link="https://segysak.readthedocs.io/en/latest/examples/example_subsurface.html", image="https://raw.githubusercontent.com/trhallam/segysak/main/docs/_static/logo_small.png", ), pygimli=Example( title="GemPy To pyGIMLi 3D using subsurface", description="GemPy To pyGIMLi 3D using subsurface", link="https://htmlpreview.github.io/?https://raw.githubusercontent.com/andieie/t21_hacksubsurface/main/gempy_to_pygimli.html", image="data:image/png;base64,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) # entry=Example( # title="", # description="", # link="", # image="", # ), ) ############################################################################### def make_example_gallery(): filename = "external/external_examples.rst" if os.path.exists(filename): os.remove(filename) with open(filename, "w") as f: f.write(""" External Examples ================= This is a list of packages using ``subsurface`` as input or output of a workflow. If you have your own example let us know to be added to the gallery. .. caution:: Please note that these examples link to external websites. If any of these links are broken, please raise an issue on the repository. """) # Reverse to put the latest items at the top for Example in list(articles.values())[::-1]: f.write(Example.format()) f.write(""" .. raw:: html <div class="sphx-glr-clear"></div> """) return
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0987ad476c701215fefb42ef5f40807b02c72372
21,877
py
Python
third_party/buildbot_slave_8_4/buildslave/test/unit/test_commands_mtn.py
bopopescu/build
4e95fd33456e552bfaf7d94f7d04b19273d1c534
[ "BSD-3-Clause" ]
null
null
null
third_party/buildbot_slave_8_4/buildslave/test/unit/test_commands_mtn.py
bopopescu/build
4e95fd33456e552bfaf7d94f7d04b19273d1c534
[ "BSD-3-Clause" ]
null
null
null
third_party/buildbot_slave_8_4/buildslave/test/unit/test_commands_mtn.py
bopopescu/build
4e95fd33456e552bfaf7d94f7d04b19273d1c534
[ "BSD-3-Clause" ]
1
2020-07-23T11:05:06.000Z
2020-07-23T11:05:06.000Z
# This file is part of Buildbot. Buildbot 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, version 2. # # 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, write to the Free Software Foundation, Inc., 51 # Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. # # Copyright Buildbot Team Members import os import mock from twisted.trial import unittest from twisted.internet import defer from buildslave.test.fake.runprocess import Expect from buildslave.test.util.sourcecommand import SourceCommandTestMixin from buildslave.commands import mtn class TestMonotone(SourceCommandTestMixin, unittest.TestCase): repourl='mtn://code.monotone.ca/sandbox' branch='ca.monotone.sandbox.buildbot' def setUp(self): self.setUpCommand() def tearDown(self): self.tearDownCommand() def patch_sourcedirIsUpdateable(self, result): self.cmd.sourcedirIsUpdateable = lambda : result def test_no_db(self): "Test a basic invocation with mode=copy and no existing sourcedir" self.patch_getCommand('mtn', 'path/to/mtn') self.clean_environ() self.make_command(mtn.Monotone, dict( workdir='workdir', mode='copy', revision=None, repourl=self.repourl, branch=self.branch ), # no sourcedata -> will do fresh checkout initial_sourcedata = None, ) exp_environ = dict(PWD='.', LC_MESSAGES='C') expects = [ Expect(['path/to/mtn', 'db', 'info', '--db', os.path.join(self.basedir, 'db.mtn')], self.basedir, keepStdout=True, sendRC=False, sendStderr=False, usePTY=False, environ=exp_environ) + 1, Expect(['path/to/mtn', 'db', 'init', '--db', os.path.join(self.basedir, 'db.mtn')], self.basedir, sendRC=False, usePTY=False, environ=exp_environ) + 1, Expect([ 'clobber', 'workdir' ], self.basedir) + 0, Expect([ 'clobber', 'source' ], self.basedir) + 0, Expect(['path/to/mtn', 'pull', self.repourl+"?"+self.branch, '--db', os.path.join(self.basedir, 'db.mtn'), '--ticker=none'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'checkout', self.basedir_source, '--db', os.path.join(self.basedir, 'db.mtn'), '--branch', 'ca.monotone.sandbox.buildbot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'automate', 'select', 'w:'], self.basedir_source, keepStdout=True, sendRC=False, timeout=120, usePTY=False) + 0, Expect([ 'copy', 'source', 'workdir'], self.basedir) + 0, ] self.patch_runprocess(*expects) d = self.run_command() d.addCallback(self.check_sourcedata, self.repourl+"?"+self.branch) return d def test_db_needs_migrating(self): "Test a basic invocation with mode=copy and no existing sourcedir" self.patch_getCommand('mtn', 'path/to/mtn') self.clean_environ() self.make_command(mtn.Monotone, dict( workdir='workdir', mode='copy', revision=None, repourl=self.repourl, branch=self.branch ), # no sourcedata -> will do fresh checkout initial_sourcedata = None, ) exp_environ = dict(PWD='.', LC_MESSAGES='C') expects = [ Expect([ 'path/to/mtn', 'db', 'info', '--db', os.path.join(self.basedir, 'db.mtn') ], self.basedir, keepStdout=True, sendRC=False, sendStderr=False, usePTY=False, environ=exp_environ) + { 'stdout' : 'blah blah (migration needed)\n' } + 0, Expect([ 'path/to/mtn', 'db', 'migrate', '--db', os.path.join(self.basedir, 'db.mtn') ], self.basedir, sendRC=False, usePTY=False, environ=exp_environ) + 0, Expect([ 'clobber', 'workdir' ], self.basedir) + 0, Expect([ 'clobber', 'source' ], self.basedir) + 0, Expect(['path/to/mtn', 'pull', self.repourl+"?"+self.branch, '--db', os.path.join(self.basedir, 'db.mtn'), '--ticker=none'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'checkout', self.basedir_source, '--db', os.path.join(self.basedir, 'db.mtn'), '--branch', 'ca.monotone.sandbox.buildbot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'automate', 'select', 'w:'], self.basedir_source, keepStdout=True, sendRC=False, timeout=120, usePTY=False) + 0, Expect([ 'copy', 'source', 'workdir'], self.basedir) + 0, ] self.patch_runprocess(*expects) d = self.run_command() d.addCallback(self.check_sourcedata, self.repourl+"?"+self.branch) return d def test_db_too_new(self): "Test a basic invocation with mode=copy and no existing sourcedir" self.patch_getCommand('mtn', 'path/to/mtn') self.clean_environ() self.make_command(mtn.Monotone, dict( workdir='workdir', mode='copy', revision=None, repourl=self.repourl, branch=self.branch ), # no sourcedata -> will do fresh checkout initial_sourcedata = None, ) exp_environ = dict(PWD='.', LC_MESSAGES='C') expects = [ Expect([ 'path/to/mtn', 'db', 'info', '--db', os.path.join(self.basedir, 'db.mtn') ], self.basedir, keepStdout=True, sendRC=False, sendStderr=False, usePTY=False, environ=exp_environ) + { 'stdout' : 'blah blah (too new, cannot use)\n' } + 0 ] self.patch_runprocess(*expects) d = self.run_command() return self.assertFailure(d, mtn.MonotoneError) def test_run_mode_copy_fresh_sourcedir(self): "Test a basic invocation with mode=copy and no existing sourcedir" self.patch_getCommand('mtn', 'path/to/mtn') self.clean_environ() self.make_command(mtn.Monotone, dict( workdir='workdir', mode='copy', revision=None, repourl=self.repourl, branch=self.branch ), # no sourcedata -> will do fresh checkout initial_sourcedata = None, ) exp_environ = dict(PWD='.', LC_MESSAGES='C') expects = [ Expect(['path/to/mtn', 'db', 'info', '--db', os.path.join(self.basedir, 'db.mtn')], self.basedir, keepStdout=True, sendRC=False, sendStderr=False, usePTY=False, environ=exp_environ) + 0, Expect([ 'clobber', 'workdir' ], self.basedir) + 0, Expect([ 'clobber', 'source' ], self.basedir) + 0, Expect(['path/to/mtn', 'pull', self.repourl+"?"+self.branch, '--db', os.path.join(self.basedir, 'db.mtn'), '--ticker=none'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'checkout', self.basedir_source, '--db', os.path.join(self.basedir, 'db.mtn'), '--branch', 'ca.monotone.sandbox.buildbot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'automate', 'select', 'w:'], self.basedir_source, keepStdout=True, sendRC=False, timeout=120, usePTY=False) + 0, Expect([ 'copy', 'source', 'workdir'], self.basedir) + 0, ] self.patch_runprocess(*expects) d = self.run_command() d.addCallback(self.check_sourcedata, self.repourl+"?"+self.branch) return d def test_run_mode_copy_update_sourcedir(self): """test a copy where the sourcedata indicates that the source directory can be updated""" self.patch_getCommand('mtn', 'path/to/mtn') self.clean_environ() self.make_command(mtn.Monotone, dict( workdir='workdir', mode='copy', revision=None, repourl=self.repourl, branch=self.branch, progress=True, # added here for better coverage ), initial_sourcedata = self.repourl+"?"+self.branch ) self.patch_sourcedirIsUpdateable(True) exp_environ = dict(PWD='.', LC_MESSAGES='C') expects = [ Expect([ 'path/to/mtn', 'db', 'info', '--db', os.path.join(self.basedir, 'db.mtn')], self.basedir, keepStdout=True, sendRC=False, sendStderr=False, usePTY=False, environ=exp_environ) + 0, Expect([ 'clobber', 'workdir' ], self.basedir) + 0, Expect([ 'path/to/mtn', 'pull', self.repourl+"?"+self.branch, '--db', os.path.join(self.basedir, 'db.mtn'), '--ticker=dot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect([ 'path/to/mtn', 'update', '--db', os.path.join(self.basedir, 'db.mtn'), '-r', 'h:ca.monotone.sandbox.buildbot', '-b', 'ca.monotone.sandbox.buildbot'], self.basedir_source, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'automate', 'select', 'w:'], self.basedir_source, keepStdout=True, sendRC=False, timeout=120, usePTY=False) + 0, Expect([ 'copy', 'source', 'workdir'], self.basedir) + 0, ] self.patch_runprocess(*expects) d = self.run_command() d.addCallback(self.check_sourcedata, self.repourl+"?"+self.branch) return d def test_run_mode_update_fresh(self): self.patch_getCommand('mtn', 'path/to/mtn') self.clean_environ() self.make_command(mtn.Monotone, dict( workdir='workdir', mode='update', revision=None, repourl=self.repourl, branch=self.branch, progress=True, # added here for better coverage ), initial_sourcedata = self.repourl+"?"+self.branch ) self.patch_sourcedirIsUpdateable(False) exp_environ = dict(PWD='.', LC_MESSAGES='C') expects = [ Expect([ 'path/to/mtn', 'db', 'info', '--db', os.path.join(self.basedir, 'db.mtn')], self.basedir, keepStdout=True, sendRC=False, sendStderr=False, usePTY=False, environ=exp_environ) + 0, Expect([ 'clobber', 'workdir' ], self.basedir) + 0, Expect([ 'path/to/mtn', 'pull', self.repourl+"?"+self.branch, '--db', os.path.join(self.basedir, 'db.mtn'), '--ticker=dot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'checkout', self.basedir_workdir, '--db', os.path.join(self.basedir, 'db.mtn'), '--branch', 'ca.monotone.sandbox.buildbot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'automate', 'select', 'w:'], self.basedir_workdir, keepStdout=True, sendRC=False, timeout=120, usePTY=False) + 0, ] self.patch_runprocess(*expects) d = self.run_command() d.addCallback(self.check_sourcedata, self.repourl+"?"+self.branch) return d def test_run_mode_update_existing(self): self.patch_getCommand('mtn', 'path/to/mtn') self.clean_environ() self.make_command(mtn.Monotone, dict( workdir='workdir', mode='update', revision=None, repourl=self.repourl, branch=self.branch, progress=True, # added here for better coverage ), initial_sourcedata = self.repourl+"?"+self.branch ) self.patch_sourcedirIsUpdateable(True) exp_environ = dict(PWD='.', LC_MESSAGES='C') expects = [ Expect([ 'path/to/mtn', 'db', 'info', '--db', os.path.join(self.basedir, 'db.mtn')], self.basedir, keepStdout=True, sendRC=False, sendStderr=False, usePTY=False, environ=exp_environ) + 0, Expect([ 'path/to/mtn', 'pull', self.repourl+"?"+self.branch, '--db', os.path.join(self.basedir, 'db.mtn'), '--ticker=dot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect([ 'path/to/mtn', 'update', '--db', os.path.join(self.basedir, 'db.mtn'), '-r', 'h:ca.monotone.sandbox.buildbot', '-b', 'ca.monotone.sandbox.buildbot'], self.basedir_workdir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'automate', 'select', 'w:'], self.basedir_workdir, keepStdout=True, sendRC=False, timeout=120, usePTY=False) + 0, ] self.patch_runprocess(*expects) d = self.run_command() d.addCallback(self.check_sourcedata, self.repourl+"?"+self.branch) return d def test_run_mode_update_existing_known_rev(self): self.patch_getCommand('mtn', 'path/to/mtn') self.clean_environ() self.make_command(mtn.Monotone, dict( workdir='workdir', mode='update', revision='abcdef01', repourl=self.repourl, branch=self.branch, progress=True, # added here for better coverage ), initial_sourcedata = self.repourl+"?"+self.branch ) self.patch_sourcedirIsUpdateable(True) exp_environ = dict(PWD='.', LC_MESSAGES='C') expects = [ Expect([ 'path/to/mtn', 'db', 'info', '--db', os.path.join(self.basedir, 'db.mtn')], self.basedir, keepStdout=True, sendRC=False, sendStderr=False, usePTY=False, environ=exp_environ) + 0, Expect([ 'path/to/mtn', 'pull', self.repourl+"?"+self.branch, '--db', os.path.join(self.basedir, 'db.mtn'), '--ticker=dot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect([ 'path/to/mtn', 'update', '--db', os.path.join(self.basedir, 'db.mtn'), '--revision', 'abcdef01', '-b', 'ca.monotone.sandbox.buildbot'], self.basedir_workdir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'automate', 'select', 'w:'], self.basedir_workdir, keepStdout=True, sendRC=False, timeout=120, usePTY=False) + 0, ] self.patch_runprocess(*expects) d = self.run_command() d.addCallback(self.check_sourcedata, self.repourl+"?"+self.branch) return d def test_run_mode_update_existing_unknown_rev(self): self.patch_getCommand('mtn', 'path/to/mtn') self.clean_environ() self.make_command(mtn.Monotone, dict( workdir='workdir', mode='update', revision='abcdef01', repourl=self.repourl, branch=self.branch, progress=True, # added here for better coverage ), initial_sourcedata = self.repourl+"?"+self.branch ) self.patch_sourcedirIsUpdateable(True) exp_environ = dict(PWD='.', LC_MESSAGES='C') expects = [ Expect([ 'path/to/mtn', 'db', 'info', '--db', os.path.join(self.basedir, 'db.mtn')], self.basedir, keepStdout=True, sendRC=False, sendStderr=False, usePTY=False, environ=exp_environ) + 0, Expect([ 'path/to/mtn', 'pull', self.repourl+"?"+self.branch, '--db', os.path.join(self.basedir, 'db.mtn'), '--ticker=dot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect([ 'path/to/mtn', 'update', '--db', os.path.join(self.basedir, 'db.mtn'), '--revision', 'abcdef01', '-b', 'ca.monotone.sandbox.buildbot'], self.basedir_workdir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 1, Expect([ 'clobber', 'workdir' ], self.basedir) + 0, Expect([ 'path/to/mtn', 'pull', self.repourl+"?"+self.branch, '--db', os.path.join(self.basedir, 'db.mtn'), '--ticker=dot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'checkout', self.basedir_workdir, '--db', os.path.join(self.basedir, 'db.mtn'), '--revision', 'abcdef01', '--branch', 'ca.monotone.sandbox.buildbot'], self.basedir, keepStdout=True, sendRC=False, timeout=120, usePTY=False, environ=exp_environ) + 0, Expect(['path/to/mtn', 'automate', 'select', 'w:'], self.basedir_workdir, keepStdout=True, sendRC=False, timeout=120, usePTY=False) + 0, ] self.patch_runprocess(*expects) d = self.run_command() d.addCallback(self.check_sourcedata, self.repourl+"?"+self.branch) return d # Testing parseGotRevision def do_test_parseGotRevision(self, stdout, exp): self.patch_getCommand('mtn', 'path/to/mtn') self.make_command(mtn.Monotone, dict( workdir='workdir', repourl=self.repourl, branch=self.branch )) def _dovccmd(fn, dopull, callback=None, keepStdout=False): #self.assertTrue(keepStdout) self.cmd.command = mock.Mock() self.cmd.command.stdout = stdout d = defer.succeed(None) d.addCallback(callback) return d self.cmd._dovccmd = _dovccmd self.cmd.srcdir = self.cmd.workdir d = self.cmd.parseGotRevision() def check(res): self.assertEqual(res, exp) d.addCallback(check) return d def test_parseGotRevision_bogus(self): return self.do_test_parseGotRevision("mtn: misuse: no match for selection '1234'\n", None) def test_parseGotRevision_wrong_length(self): return self.do_test_parseGotRevision("\n1234abcd\n", None) def test_parseGotRevision_ok(self): return self.do_test_parseGotRevision( "\n4026d33b0532b11f36b0875f63699adfa8ee8662\n", "4026d33b0532b11f36b0875f63699adfa8ee8662")
41.433712
98
0.521644
2,218
21,877
5.059513
0.10009
0.082338
0.037694
0.049456
0.852165
0.837551
0.819907
0.819907
0.8126
0.808858
0
0.014978
0.346894
21,877
527
99
41.512334
0.770437
0.063446
0
0.844156
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0.123274
0.021922
0
0
0
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0.004329
1
0.038961
false
0
0.015152
0.006494
0.090909
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7
1104790995a81d7cd8746591e7033b0aa89854e2
193
py
Python
frontend-src/frontend/healthz.py
samarsinghal/tas4ops-workshop-eduk8s
71e556fb4daad5985028b80225230ed646b58614
[ "Apache-2.0" ]
7
2020-02-26T23:11:19.000Z
2022-03-22T09:20:06.000Z
frontend-src/frontend/healthz.py
samarsinghal/tas4ops-workshop-eduk8s
71e556fb4daad5985028b80225230ed646b58614
[ "Apache-2.0" ]
14
2020-04-20T09:16:46.000Z
2022-03-12T00:16:51.000Z
frontend-src/frontend/healthz.py
samarsinghal/tas4ops-workshop-eduk8s
71e556fb4daad5985028b80225230ed646b58614
[ "Apache-2.0" ]
6
2020-04-22T21:17:31.000Z
2021-07-03T09:42:05.000Z
from django.http import HttpResponse def ready(request): return HttpResponse("OK", content_type="text/plain") def alive(request): return HttpResponse("OK", content_type="text/plain")
24.125
56
0.746114
25
193
5.68
0.6
0.183099
0.352113
0.380282
0.661972
0.661972
0.661972
0.661972
0
0
0
0
0.124352
193
7
57
27.571429
0.840237
0
0
0.4
0
0
0.124352
0
0
0
0
0
0
1
0.4
false
0
0.2
0.4
1
0
1
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0
null
0
1
1
0
0
0
0
0
0
0
0
0
0
1
0
0
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0
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null
0
0
0
0
0
1
0
0
0
1
1
0
0
7
114ab6c115580f2e919068244eac11bc9241b494
324
py
Python
step_3_generate_tmr_edifs.py
byuccl/fiate
318f634badd69f241091277ead59d7ead64ee6aa
[ "Apache-2.0" ]
1
2021-05-12T09:42:14.000Z
2021-05-12T09:42:14.000Z
step_3_generate_tmr_edifs.py
byuccl/fiate
318f634badd69f241091277ead59d7ead64ee6aa
[ "Apache-2.0" ]
null
null
null
step_3_generate_tmr_edifs.py
byuccl/fiate
318f634badd69f241091277ead59d7ead64ee6aa
[ "Apache-2.0" ]
3
2021-04-19T19:36:06.000Z
2021-08-17T01:46:23.000Z
from lib import * generate_tmr("./bld/edfs/vex.edf","./bld/edfs/vex_tmr.edf") generate_tmr("./bld/edfs/mb.edf","./bld/edfs/mb_tmr.edf") generate_tmr("./bld/edfs/pico.edf","./bld/edfs/pico_tmr.edf") generate_tmr("./bld/edfs/taiga.edf","./bld/edfs/taiga_tmr.edf") generate_tmr("./bld/edfs/kron.edf","./bld/edfs/kron_tmr.edf")
46.285714
63
0.70679
58
324
3.775862
0.224138
0.319635
0.319635
0.410959
0.438356
0.438356
0
0
0
0
0
0
0.027778
324
7
64
46.285714
0.695238
0
0
0
1
0
0.633846
0.347692
0
0
0
0
0
1
0
true
0
0.166667
0
0.166667
0
0
0
0
null
1
1
1
0
0
0
0
0
0
0
0
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1
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0
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1
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null
0
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0
0
1
0
0
0
0
0
0
7
115c0dac83c771e8c16f66c3e81376440b2fdedc
152
py
Python
src/cltl/brain/infrastructure/__init__.py
leolani/cltl-knowledgerepresentation
df936348e57453ffbb2e82343cf12322c26f3ced
[ "MIT" ]
2
2021-08-19T06:14:07.000Z
2022-02-15T18:55:47.000Z
src/cltl/brain/infrastructure/__init__.py
leolani/cltl-knowledgerepresentation
df936348e57453ffbb2e82343cf12322c26f3ced
[ "MIT" ]
13
2021-07-21T07:16:50.000Z
2022-02-24T22:06:05.000Z
src/cltl/brain/infrastructure/__init__.py
leolani/cltl-knowledgerepresentation
df936348e57453ffbb2e82343cf12322c26f3ced
[ "MIT" ]
1
2021-06-28T18:57:39.000Z
2021-06-28T18:57:39.000Z
from cltl.brain.infrastructure.api import * from cltl.brain.infrastructure.store_connector import * from cltl.brain.infrastructure.rdf_builder import *
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7
116a06fc079435599bfc2768a90f921342d8dc57
175
py
Python
example/python2/test/parse/if.py
rocky/python-spark
d3f966a4e8c191c51b1dcfa444026b4c6831984f
[ "MIT" ]
43
2016-04-24T15:20:16.000Z
2022-03-19T21:01:29.000Z
example/python2/test/parse/if.py
rocky/python-spark
d3f966a4e8c191c51b1dcfa444026b4c6831984f
[ "MIT" ]
11
2016-06-01T16:06:38.000Z
2020-05-20T20:15:32.000Z
example/python2/test/parse/if.py
rocky/python-spark
d3f966a4e8c191c51b1dcfa444026b4c6831984f
[ "MIT" ]
12
2016-05-24T12:15:04.000Z
2021-11-20T02:14:00.000Z
if True: pass if True: pass pass if True: if False: pass pass if True: pass elif False: pass if True: pass elif False: pass else: pass
7.608696
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7
fedc7c6118e3f2a8a6b09ed6da20ed5a9b9f3106
4,159
py
Python
tests/test_preflight_request.py
pyfaddist/yafcorse
3e54397cfe858208d85680ac1ac6c6e116f946e8
[ "MIT" ]
null
null
null
tests/test_preflight_request.py
pyfaddist/yafcorse
3e54397cfe858208d85680ac1ac6c6e116f946e8
[ "MIT" ]
null
null
null
tests/test_preflight_request.py
pyfaddist/yafcorse
3e54397cfe858208d85680ac1ac6c6e116f946e8
[ "MIT" ]
null
null
null
from flask import Response from flask.testing import FlaskClient # def test_with_origin(client: FlaskClient): # response: Response = client.options('/some-request', headers={ # 'Access-Control-Request-Method': 'POST', # 'Access-Control-Request-Headers': 'Content-Type, X-Custom', # 'Origin': 'https://test.org' # }) # assert response.status_code == 404 # assert 'Access-Control-Max-Age' in response.headers # assert response.headers.get('Access-Control-Allow-Origin') == 'https://test.org' def test_with_origin(client: FlaskClient): response: Response = client.options('/some-request', headers={ 'Origin': 'https://test.org' }) assert response.status_code == 404 assert 'Access-Control-Allow-Origin'.lower() in response.headers assert 'Access-Control-Max-Age'.lower() in response.headers assert response.headers.get('Access-Control-Allow-Origin') is not None assert response.headers.get('Access-Control-Allow-Origin') == 'https://test.org' assert response.headers.get('Access-Control-Max-Age') is not None assert response.headers.get('Access-Control-Max-Age') != '' def test_without_origin(client: FlaskClient): response: Response = client.options('/some-request', headers={ }) assert response.status_code == 404 assert 'Access-Control-Allow-Origin'.lower() not in response.headers assert 'Access-Control-Max-Age'.lower() not in response.headers assert 'Access-Control-Allow-Methods'.lower() not in response.headers assert 'Access-Control-Allow-Headers'.lower() not in response.headers def test_allow_method(client: FlaskClient): response: Response = client.options('/some-request', headers={ 'Access-Control-Request-Method': 'POST', 'Origin': 'https://test.org' }) assert response.status_code == 404 assert 'Access-Control-Allow-Methods'.lower() in response.headers assert 'POST' in response.headers.get('Access-Control-Allow-Methods') assert 'Access-Control-Max-Age'.lower() in response.headers assert response.headers.get('Access-Control-Allow-Origin') == 'https://test.org' assert 'Access-Control-Allow-Headers'.lower() not in response.headers def test_dont_allow_method(client: FlaskClient): response: Response = client.options('/some-request', headers={ 'Access-Control-Request-Method': 'PATCH', 'Origin': 'https://test.org' }) assert response.status_code == 404 assert 'Access-Control-Allow-Methods'.lower() not in response.headers assert 'Access-Control-Max-Age'.lower() in response.headers assert response.headers.get('Access-Control-Allow-Origin') == 'https://test.org' assert 'Access-Control-Allow-Headers'.lower() not in response.headers def test_allow_headers(client: FlaskClient): response: Response = client.options('/some-request', headers={ 'Access-Control-Request-Headers': 'Content-Type, X-Test-Header', 'Origin': 'https://test.org' }) assert response.status_code == 404 assert 'Access-Control-Allow-Headers'.lower() in response.headers assert 'Content-Type' in response.headers.get('Access-Control-Allow-Headers') assert 'X-Test-Header' in response.headers.get('Access-Control-Allow-Headers') assert 'Access-Control-Max-Age'.lower() in response.headers assert response.headers.get('Access-Control-Allow-Origin') == 'https://test.org' assert 'Access-Control-Allow-Methods'.lower() not in response.headers def test_dont_allow_headers(client: FlaskClient): response: Response = client.options('/some-request', headers={ 'Access-Control-Request-Headers': 'Content-Type, X-Test-Header, X-Not-Allowed', 'Origin': 'https://test.org' }) assert response.status_code == 404 assert 'Access-Control-Allow-Headers'.lower() not in response.headers assert 'Access-Control-Max-Age'.lower() in response.headers assert response.headers.get('Access-Control-Allow-Origin') == 'https://test.org' assert 'Access-Control-Allow-Methods'.lower() not in response.headers
47.261364
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0.112548
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0.91122
0.89619
0.833625
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0.006012
0.160135
4,159
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0.813055
0.112046
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null
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7
28a63dde21eeed87142ef1f2a5e9c52b371afe3b
124
py
Python
Tests/conftest.py
farzamfan/NLP-Pipeline
5efa6dd74c37edd2d1e0a79fffe41aed15dc20d7
[ "MIT" ]
1
2022-01-15T14:00:49.000Z
2022-01-15T14:00:49.000Z
Tests/conftest.py
farzamfan/NLP-Pipeline
5efa6dd74c37edd2d1e0a79fffe41aed15dc20d7
[ "MIT" ]
null
null
null
Tests/conftest.py
farzamfan/NLP-Pipeline
5efa6dd74c37edd2d1e0a79fffe41aed15dc20d7
[ "MIT" ]
null
null
null
import json import pytest import nlpipe.Servers.server @pytest.fixture() def app(): return nlpipe.Servers.server.app
12.4
36
0.758065
17
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5.529412
0.588235
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0.404255
0
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124
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0
7
3a7a5ab0aca81be38d7bb6141478ef9aba7510db
27,426
py
Python
nox/src/nox/netapps/storage/t/storage_test_base.py
ayjazz/OESS
deadc504d287febc7cbd7251ddb102bb5c8b1f04
[ "Apache-2.0" ]
28
2015-02-04T13:59:25.000Z
2021-12-29T03:44:47.000Z
nox/src/nox/netapps/storage/t/storage_test_base.py
ayjazz/OESS
deadc504d287febc7cbd7251ddb102bb5c8b1f04
[ "Apache-2.0" ]
552
2015-01-05T18:25:54.000Z
2022-03-16T18:51:13.000Z
nox/src/nox/netapps/storage/t/storage_test_base.py
ayjazz/OESS
deadc504d287febc7cbd7251ddb102bb5c8b1f04
[ "Apache-2.0" ]
25
2015-02-04T18:48:20.000Z
2020-06-18T15:51:05.000Z
# Copyright 2008 (C) Nicira, Inc. # # This file is part of NOX. # # NOX 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. # # NOX 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 NOX. If not, see <http://www.gnu.org/licenses/>. import logging from nox.coreapps.testharness.testdefs import * from nox.lib.core import Component, CONTINUE from nox.netapps.storage.storage import StorageException, Storage log = logging.getLogger('storage test') class StorageTestBase(Component): def testAddthenDrop(self): log.debug("testAddthenDrop") def dropped_ok(res): pass def dropped_err(res): if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def create_ok(res): d = self.impl.drop_table('pyunit_test_table') d.addCallback(dropped_ok) d.addErrback(dropped_err) return d d = self.impl.create_table("pyunit_test_table", {"COLUMN_INT" : int, "COLUMN_STR" : str, "COLUMN_FLOAT" : float}, (('index_1', ("COLUMN_INT", "COLUMN_STR")),)) d.addCallback(create_ok) return d def testAddthenPut(self): def dropped_ok(res): pass def dropped_err(res): if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def put_ok(result): d = self.impl.drop_table('pyunit_test_table') d.addCallback(dropped_ok) d.addErrback(dropped_err) return d def put(res): d = self.impl.put('pyunit_test_table', {'COLUMN_INT' : 1234, 'COLUMN_STR' : 'string123', 'COLUMN_FLOAT' : 3456.0 }) d.addCallback(put_ok) return d d = self.impl.create_table("pyunit_test_table", {"COLUMN_INT" : int, "COLUMN_STR" : str, "COLUMN_FLOAT" : float}, (('index_1', ("COLUMN_INT", "COLUMN_STR")),)) d.addCallback(put) return d def testAddthenPutWrongTable(self): def dropped_ok(res): pass def dropped_err(res): nox_test_fail(0) if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def put_err(result): if result.type != StorageException: result.raiseException() d = self.impl.drop_table('pyunit_test_table') d.addCallback(dropped_ok) d.addErrback(dropped_err) return d def put_ok(result): nox_test_fail(False) def put(res): d = self.impl.put('pyfoo', {'COLUMN_INT' : 1234, 'COLUMN_STR' : 'string123', 'COLUMN_FLOAT' : 3456.0 }) d.addCallback(put_ok) d.addErrback(put_err) return d d = self.impl.create_table("pyunit_test_table", {"COLUMN_INT" : int, "COLUMN_STR" : str, "COLUMN_FLOAT" : float}, (('index_1', ("COLUMN_INT", "COLUMN_STR")),)) d.addCallback(put) return d def testAddthenPutthenGet(self): """Create table, put a row (with an unicode string column value), get it and drop the table.""" def dropped_ok(res): pass def dropped_err(res): if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def get_ok(res): result, ctxt, row = res nox_test_assert(result[0] == Storage.SUCCESS) nox_test_assert(row['COLUMN_INT'] == 1234) nox_test_assert(row['COLUMN_STR'] == u'string123\u1234foo') nox_test_assert(row['COLUMN_FLOAT'] == 3456.) d = self.impl.drop_table('pyunit_test_table') d.addCallback(dropped_ok) d.addErrback(dropped_err) return d def get(result): d = self.impl.get('pyunit_test_table', {'COLUMN_INT' : 1234, 'COLUMN_STR' : u'string123\u1234foo'}) d.addCallback(get_ok) return d def put(res): d = self.impl.put('pyunit_test_table', {'COLUMN_INT' : 1234, 'COLUMN_STR' : u'string123\u1234foo', 'COLUMN_FLOAT' : 3456.0 }) d.addCallback(get) return d d = self.impl.create_table("pyunit_test_table", {"COLUMN_INT" : int, "COLUMN_STR" : str, "COLUMN_FLOAT" : float}, (('index_1', ("COLUMN_INT", "COLUMN_STR")),)) d.addCallback(put) return d def testAddthenPutthenGetNextUsingIndex(self): def dropped_ok(res): pass def dropped_err(res): if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def get_next(res): result, ctxt, row = res if result[0] == Storage.NO_MORE_ROWS: d = self.impl.drop_table('pyunit_test_table') nox_test_assert(self.rows == 2) d.addCallback(dropped_ok) d.addErrback(dropped_err) return d else: self.rows += 1 nox_test_assert(self.rows <= 2) nox_test_assert(row['COLUMN_INT'] == 1234) nox_test_assert(row['COLUMN_STR'] == 'string123') nox_test_assert(row['COLUMN_FLOAT'] == 3456.0 or row['COLUMN_FLOAT'] == 7890.0) d = self.impl.get_next(ctxt) d.addCallback(get_next) return d def get(result): self.rows = 0 d = self.impl.get('pyunit_test_table', {'COLUMN_INT' : 1234, 'COLUMN_STR' : 'string123'}) d.addCallback(get_next) return d def put2(res): d = self.impl.put('pyunit_test_table', {'COLUMN_INT' : 1234, 'COLUMN_STR' : 'string123', 'COLUMN_FLOAT' : 7890.0 }) d.addCallback(get) return d def put1(res): d = self.impl.put('pyunit_test_table', {'COLUMN_INT' : 1234, 'COLUMN_STR' : 'string123', 'COLUMN_FLOAT' : 3456.0 }) d.addCallback(put2) return d d = self.impl.create_table("pyunit_test_table", {"COLUMN_INT" : int, "COLUMN_STR" : str, "COLUMN_FLOAT" : float}, (('index_1', ("COLUMN_INT", "COLUMN_STR")),)) d.addCallback(put1) return d def testAddthenPutthenGetNextAll(self): def dropped_ok(res): pass def dropped_err(res): if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def get_next(res): result, ctxt, row = res if result[0] == Storage.NO_MORE_ROWS: d = self.impl.drop_table('pyunit_test_table') nox_test_assert(self.rows == 2) d.addCallback(dropped_ok) d.addErrback(dropped_err) return d else: self.rows += 1 nox_test_assert(self.rows <= 2) nox_test_assert(row['COLUMN_INT'] == 1234) nox_test_assert(row['COLUMN_STR'] == 'string123') nox_test_assert(row['COLUMN_FLOAT'] == 3456.0 or row['COLUMN_FLOAT'] == 7890.0) d = self.impl.get_next(ctxt) d.addCallback(get_next) return d def get(result): self.rows = 0 d = self.impl.get('pyunit_test_table', {}); d.addCallback(get_next) return d def put2(res): d = self.impl.put('pyunit_test_table', {'COLUMN_INT' : 1234, 'COLUMN_STR' : 'string123', 'COLUMN_FLOAT' : 7890.0 }) d.addCallback(get) return d def put1(res): d = self.impl.put('pyunit_test_table', {'COLUMN_INT' : 1234, 'COLUMN_STR' : 'string123', 'COLUMN_FLOAT' : 3456.0 }) d.addCallback(put2) return d d = self.impl.create_table("pyunit_test_table", {"COLUMN_INT" : int, "COLUMN_STR" : str, "COLUMN_FLOAT" : float}, (('index_1', ("COLUMN_INT", "COLUMN_STR")),)) d.addCallback(put1) return d def testAddthenPutthenGetDoubleIndexCheck(self): def dropped_ok(res): pass def dropped_err(res): if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def done(): nox_test_assert(self.count == 1) d = self.impl.drop_table('pyunit_test_table') d.addCallback(dropped_ok) d.addErrback(dropped_err) return d def count_next(res): result, ctxt, row = res if (result[0] == Storage.SUCCESS): self.count += 1 d = self.impl.get_next(ctxt) d.addCallback(count_next) return d if (result[0] == Storage.NO_MORE_ROWS): return done() nox_test_assert(False) def count_all(res): result = res nox_test_assert(result[0] == Storage.SUCCESS) self.count = 0 d = self.impl.get('pyunit_test_table', {}) d.addCallback(count_next) return d def get_next2(res): result, ctxt, row = res nox_test_assert(result[0] == Storage.SUCCESS) nox_test_assert(row['COLUMN_INT2'] == 1234) nox_test_assert(row['COLUMN_STR'] == 'string123') nox_test_assert(row['COLUMN_INT1'] == 7890) nox_test_assert(row['COLUMN_INT3'] == 1234) d = self.impl.remove(ctxt) d.addCallback(count_all) return d def get_next1(res): result, ctxt, row = res nox_test_assert(result[0] == Storage.SUCCESS) nox_test_assert(row['COLUMN_INT1'] == 1234) nox_test_assert(row['COLUMN_STR'] == 'string123') nox_test_assert(row['COLUMN_INT2'] == 3456) nox_test_assert(row['COLUMN_INT3'] == 1234) d = self.impl.get('pyunit_test_table', { 'COLUMN_INT2' : 1234, 'COLUMN_STR' : 'string123' }); d.addCallback(get_next2) return d def get1(result): d = self.impl.get('pyunit_test_table', { 'COLUMN_INT1' : 1234, 'COLUMN_STR' : 'string123' }); d.addCallback(get_next1) return d def put2(res): d = self.impl.put('pyunit_test_table', {'COLUMN_INT1' : 7890, 'COLUMN_STR' : 'string123', 'COLUMN_INT2' : 1234, 'COLUMN_INT3': 1234} ) d.addCallback(get1) return d def put1(res): d = self.impl.put('pyunit_test_table', {'COLUMN_INT1' : 1234, 'COLUMN_STR' : 'string123', 'COLUMN_INT2' : 3456, 'COLUMN_INT3': 1234} ) d.addCallback(put2) return d d = self.impl.create_table("pyunit_test_table", {"COLUMN_INT1" : int, "COLUMN_STR" : str, "COLUMN_INT2" : int, "COLUMN_INT3" : int }, (('index_1', ("COLUMN_INT1", "COLUMN_STR")), ('index_2', ("COLUMN_INT2", "COLUMN_STR")), ('index_3', ("COLUMN_INT3", "COLUMN_STR")))) d.addCallback(put1) return d def testMultiIndex(self): def dropped_ok(res): pass def dropped_err(res): if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def done(): nox_test_assert(self.count == 1) d = self.impl.drop_table('pyunit_test_table') d.addCallback(dropped_ok) d.addErrback(dropped_err) return d def count_next(res): result, ctxt, row = res if (result[0] == Storage.SUCCESS): self.count += 1 d = self.impl.get_next(ctxt) d.addCallback(count_next) return d if (result[0] == Storage.NO_MORE_ROWS): return done() nox_test_assert(False) def count(res): result = res nox_test_assert(result[0] == Storage.SUCCESS) self.count = 0 d = self.impl.get('pyunit_test_table', {}) d.addCallback(count_next) return d def remove(res): result, ctxt, row = res nox_test_assert(result[0] == Storage.SUCCESS) nox_test_assert(row['DPID'] == 6) nox_test_assert(row['PORT'] == 7) nox_test_assert(row['DL_ADDR'] == 8) nox_test_assert(row['NW_ADDR'] == 200) nox_test_assert(row['ID'] == 5) d = self.impl.remove(ctxt) d.addCallback(count) return d def get(res): result, guid = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.get('pyunit_test_table', { 'DPID' : 6, 'PORT' : 7, 'DL_ADDR' : 8, 'NW_ADDR' : 200, 'ID' : 5 }); d.addCallback(remove) return d def put2(res): result, guid = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.put('pyunit_test_table', {'DPID' : 6, 'PORT' : 7, 'DL_ADDR' : 8, 'NW_ADDR': 200, 'ID' : 5} ) d.addCallback(get) return d def put1(res): result = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.put('pyunit_test_table', {'DPID' : 6, 'PORT' : 7, 'DL_ADDR' : 8, 'NW_ADDR': 0, 'ID' : 5} ) d.addCallback(put2) return d d = self.impl.create_table("pyunit_test_table", {"DPID" : int, "PORT" : int, "DL_ADDR" : int, "NW_ADDR" : int, "ID": int }, (('INDEX_1', ("DPID", "PORT")), ('INDEX_2', ("DL_ADDR", )), ('INDEX_3', ("NW_ADDR", )), ('INDEX_4', ("DPID", "PORT", "DL_ADDR", "NW_ADDR")), ('INDEX_5', ("DPID", "PORT", "DL_ADDR", "NW_ADDR", "ID")), ('INDEX_6', ("ID", )))) d.addCallback(put1) return d def testMultiIndexModify(self): def dropped_ok(res): pass def dropped_err(res): if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def done(): nox_test_assert(self.count == 1) d = self.impl.drop_table('pyunit_test_table') d.addCallback(dropped_ok) d.addErrback(dropped_err) return d def count_err(res): nox_test_assert(False) def count_next(res): result, ctxt, row = res if (result[0] == Storage.SUCCESS): self.count += 1 d = self.impl.get_next(ctxt) d.addCallback(count_next) d.addErrback(count_err) return d if (result[0] == Storage.NO_MORE_ROWS): return done() nox_test_assert(False) def count(res): #log.debug('xxxxxx count xxxxxxxxxxx') result, ctxt, row = res nox_test_assert(result[0] == Storage.SUCCESS) self.count = 0 d = self.impl.get('pyunit_test_table', { 'DL_ADDR' : 8 }) d.addCallback(count_next) d.addErrback(count_err) return d def get3(res): #log.debug('xxxxxx get3 xxxxxxxxxxx') result, ctxt = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.get('pyunit_test_table', { 'NW_ADDR' : 200 }); d.addCallback(count) return d def modify2(res): #log.debug('xxxxxx modify2 xxxxxxxxxxx') result, ctxt, row = res nox_test_assert(result[0] == Storage.SUCCESS) nox_test_assert(row['DPID'] == 6) nox_test_assert(row['PORT'] == 7) nox_test_assert(row['DL_ADDR'] == 8) nox_test_assert(row['NW_ADDR'] == 201) nox_test_assert(row['ID'] == 5) row['NW_ADDR'] = 200 d = self.impl.modify(ctxt, row) d.addCallback(get3) return d def get2(res): #log.debug( 'xxxxxx get2 xxxxxxxxxxx') result, ctxt = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.get('pyunit_test_table', { 'NW_ADDR' : 201 }); d.addCallback(modify2) return d def modify(res): #log.debug('xxxxxxxxxxxxxx modify xxxxxxxxxx') result, ctxt, row = res nox_test_assert(result[0] == Storage.SUCCESS) nox_test_assert(row['DPID'] == 6) nox_test_assert(row['PORT'] == 7) nox_test_assert(row['DL_ADDR'] == 8) nox_test_assert(row['NW_ADDR'] == 200) nox_test_assert(row['ID'] == 5) row['NW_ADDR'] = 201 d = self.impl.modify(ctxt, row) d.addCallback(get2) return d def get(res): #log.debug('xxxxxxxxxxxxxx getting xxxxxxxxxx') result, guid = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.get('pyunit_test_table', { 'DPID' : 6, 'PORT' : 7, 'DL_ADDR' : 8, 'NW_ADDR' : 200, 'ID' : 5 }); d.addCallback(modify) return d def put1(res): result = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.put('pyunit_test_table', {'DPID' : 6, 'PORT' : 7, 'DL_ADDR' : 8, 'NW_ADDR': 200, 'ID' : 5} ) d.addCallback(get) return d d = self.impl.create_table("pyunit_test_table", {"DPID" : int, "PORT" : int, "DL_ADDR" : int, "NW_ADDR" : int, "ID": int }, (('INDEX_1', ("DPID", "PORT")), ('INDEX_2', ("DL_ADDR", )), ('INDEX_3', ("NW_ADDR", )), ('INDEX_4', ("DPID", "PORT", "DL_ADDR", "NW_ADDR")), ('INDEX_5', ("DPID", "PORT", "DL_ADDR", "NW_ADDR", "ID")), ('INDEX_6', ("ID", )))) d.addCallback(put1) return d def testRemoveMultipleRows(self): def dropped_ok(res): pass def dropped_err(res): if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def done(): nox_test_assert(self.count == 1) d = self.impl.drop_table('pyunit_test_table') d.addCallback(dropped_ok) d.addErrback(dropped_err) return d def count_next(res): result, ctxt, row = res if (result[0] == Storage.SUCCESS): self.count += 1 d = self.impl.get_next(ctxt) d.addCallback(count_next) return d if (result[0] == Storage.NO_MORE_ROWS): return done() nox_test_assert(False) def count(res): result = res nox_test_assert(result[0] == Storage.SUCCESS) self.count = 0 d = self.impl.get('pyunit_test_table', {}) d.addCallback(count_next) return d def remove(res): result, ctxt, row = res nox_test_assert(result[0] == Storage.SUCCESS) nox_test_assert(row['ID'] == 1) d = self.impl.remove(ctxt) d.addCallback(count) return d def get(res): result, guid = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.get('pyunit_test_table', { 'ID' : 1}) d.addCallback(remove) return d def put2(res): result, guid = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.put('pyunit_test_table', {'ID' : 1, 'NAME' : "bar"} ) d.addCallback(get) return d def put1(res): result = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.put('pyunit_test_table', {'ID' : 1, 'NAME' : "foo"} ) d.addCallback(put2) return d d = self.impl.create_table("pyunit_test_table", {"ID" : int, "NAME" : str}, (('INDEX_1', ("ID",)),) ) d.addCallback(put1) return d def testGetRemoveSequence(self): def dropped_ok(res): pass def dropped_err(res): if res.type == StorageException: if res.value.code != 8: # ignore not implemented error from Storage res.raiseException() def done(): nox_test_assert(self.count == 0) d = self.impl.drop_table('pyunit_test_table') d.addCallback(dropped_ok) d.addErrback(dropped_err) return d def count_next(res): result, ctxt, row = res if (result[0] == Storage.SUCCESS): self.count += 1 d = self.impl.get_next(ctxt) d.addCallback(count_next) return d if (result[0] == Storage.NO_MORE_ROWS): return done() nox_test_assert(False) def count(res): result = res nox_test_assert(result[0] == Storage.SUCCESS) self.count = 0 d = self.impl.get('pyunit_test_table', {}) d.addCallback(count_next) return d def remove2(res): result, ctxt, row = res nox_test_assert(result[0] == Storage.SUCCESS) nox_test_assert(row['ID'] == 1) d = self.impl.remove(ctxt) d.addCallback(count) return d def get2(res): result = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.get('pyunit_test_table', { 'ID' : 1}) d.addCallback(remove2) return d def remove1(res): result, ctxt, row = res nox_test_assert(result[0] == Storage.SUCCESS) nox_test_assert(row['ID'] == 1) d = self.impl.remove(ctxt) d.addCallback(get2) return d def get1(res): result, guid = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.get('pyunit_test_table', { 'ID' : 1}) d.addCallback(remove1) return d def put2(res): result, guid = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.put('pyunit_test_table', {'ID' : 1, 'NAME' : "bar"} ) d.addCallback(get1) return d def put1(res): result = res nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.put('pyunit_test_table', {'ID' : 1, 'NAME' : "foo"} ) d.addCallback(put2) return d d = self.impl.create_table("pyunit_test_table", {"ID" : int, "NAME" : str}, (('INDEX_1', ("ID",)), ('INDEX_2', ("ID",)))) d.addCallback(put1) return d def testCreateSchemaCheck(self): def dropped_ok(res): pass def dropped_err(res): pass def create_err(result): try: result.raiseException() except StorageException, e: nox_test_assert(e.code == Storage.EXISTING_TABLE) d = self.impl.drop_table('pyunit_test_table') d.addCallback(dropped_ok) d.addErrback(dropped_err) return d def create_ok(result): self.fail("create_table with different schema should fail") def create_3(result): nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.create_table("pyunit_test_table", {"ID" : int, "NAME" : str}, (('INDEX_1', ("NAME",)), ('INDEX_2', ("ID",)))) d.addCallback(create_ok) d.addErrback(create_err) return d def create_2(result): nox_test_assert(result[0] == Storage.SUCCESS) d = self.impl.create_table("pyunit_test_table", {"ID" : int, "NAME" : str}, (('INDEX_1', ("ID",)), ('INDEX_2', ("ID",)))) d.addCallback(create_3) return d d = self.impl.create_table("pyunit_test_table", {"ID" : int, "NAME" : str}, (('INDEX_1', ("ID",)), ('INDEX_2', ("ID",)))) d.addCallback(create_2) return d
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Python
test/test_SM/test_ploshadki/test_ploshadka_setonline.py
IrinaSlobodchikova/marker
72f981134fb025a94348cd2bc829fa8430a01372
[ "Apache-2.0" ]
null
null
null
test/test_SM/test_ploshadki/test_ploshadka_setonline.py
IrinaSlobodchikova/marker
72f981134fb025a94348cd2bc829fa8430a01372
[ "Apache-2.0" ]
null
null
null
test/test_SM/test_ploshadki/test_ploshadka_setonline.py
IrinaSlobodchikova/marker
72f981134fb025a94348cd2bc829fa8430a01372
[ "Apache-2.0" ]
null
null
null
def test_sm_setonline_include_eic_yestoday(app): app.testhelpersm.refresh_page() app.session.open_SM_page(app.smPurchases) app.session.ensure_login_sm(app.username, app.password) app.session.ensure_login_sm(app.username, app.password) app.session.open_SM_page(app.smPurchases) app.testHelperSMSearch.expand_show_hide() # Искать в контейнере (всего контейнеров + 1, номер контейнера(если 0 - случайный выбор), номер строки # в контейнере если 0 - случайный выбор) name = 'SETONLINE' app.testHelperSMSearch.select_first_publish_date(3, 0) app.testHelperSMSearch.find_torgovaya_ploschadka(name) app.testHelperSMSearch.press_search_button() assert app.testHelperSMSearch.check_results() != '0' assert int(app.testHelperSMSearch.check_results()) > 8 def test_sm_setonline_without_eic_yestoday(app): app.testhelpersm.refresh_page() app.session.open_SM_page(app.smPurchases) app.session.ensure_login_sm(app.username, app.password) app.session.ensure_login_sm(app.username, app.password) app.session.open_SM_page(app.smPurchases) app.testHelperSMSearch.expand_show_hide() # Искать в контейнере (всего контейнеров + 1, номер контейнера(если 0 - случайный выбор), номер строки # в контейнере если 0 - случайный выбор) name = 'SETONLINE' app.testHelperSMSearch.select_first_publish_date(3, 0) app.testHelperSMSearch.find_torgovaya_ploschadka(name) app.testHelperSMSearch.find_in_container_number(11, 2, 1) app.testHelperSMSearch.find_in_container_number(11, 6, 3) app.testHelperSMSearch.find_in_container_number(11, 6, 4) app.testHelperSMSearch.press_search_button() assert app.testHelperSMSearch.check_results() != '0' assert int(app.testHelperSMSearch.check_results()) > 1 def test_sm_setonline_include_eic_yestoday_today(app): app.testhelpersm.refresh_page() app.session.open_SM_page(app.smPurchases) app.session.ensure_login_sm(app.username, app.password) app.session.ensure_login_sm(app.username, app.password) app.session.open_SM_page(app.smPurchases) app.testHelperSMSearch.expand_show_hide() # Искать в контейнере (всего контейнеров + 1, номер контейнера(если 0 - случайный выбор), номер строки # в контейнере если 0 - случайный выбор) name = 'SETONLINE' app.testHelperSMSearch.select_first_publish_date(11, 0) app.testHelperSMSearch.find_torgovaya_ploschadka(name) app.testHelperSMSearch.press_search_button() assert app.testHelperSMSearch.check_results() != '0' assert int(app.testHelperSMSearch.check_results()) > 10 def test_sm_setonline_without_eic_yestoday_today(app): app.testhelpersm.refresh_page() app.session.open_SM_page(app.smPurchases) app.session.ensure_login_sm(app.username, app.password) app.session.ensure_login_sm(app.username, app.password) app.session.open_SM_page(app.smPurchases) app.testHelperSMSearch.expand_show_hide() # Искать в контейнере (всего контейнеров + 1, номер контейнера(если 0 - случайный выбор), номер строки # в контейнере если 0 - случайный выбор) name = 'SETONLINE' app.testHelperSMSearch.select_first_publish_date(11, 0) app.testHelperSMSearch.find_torgovaya_ploschadka(name) app.testHelperSMSearch.find_in_container_number(11, 2, 1) app.testHelperSMSearch.find_in_container_number(11, 6, 3) app.testHelperSMSearch.find_in_container_number(11, 6, 4) app.testHelperSMSearch.press_search_button() assert app.testHelperSMSearch.check_results() != '0' assert int(app.testHelperSMSearch.check_results()) > 1 def test_sm_setonline_include_eic_7_days(app): app.testhelpersm.refresh_page() app.session.open_SM_page(app.smPurchases) app.session.ensure_login_sm(app.username, app.password) app.session.ensure_login_sm(app.username, app.password) app.session.open_SM_page(app.smPurchases) app.testHelperSMSearch.expand_show_hide() # Искать в контейнере (всего контейнеров + 1, номер контейнера(если 0 - случайный выбор), номер строки # в контейнере если 0 - случайный выбор) name = 'SETONLINE' app.testHelperSMSearch.select_first_publish_date(4, 0) app.testHelperSMSearch.find_torgovaya_ploschadka(name) app.testHelperSMSearch.press_search_button() assert app.testHelperSMSearch.check_results() != '0' assert int(app.testHelperSMSearch.check_results()) > 25 def test_sm_setonline_without_eic_7_days(app): app.testhelpersm.refresh_page() app.session.open_SM_page(app.smPurchases) app.session.ensure_login_sm(app.username, app.password) app.session.ensure_login_sm(app.username, app.password) app.session.open_SM_page(app.smPurchases) app.testHelperSMSearch.expand_show_hide() # Искать в контейнере (всего контейнеров + 1, номер контейнера(если 0 - случайный выбор), номер строки # в контейнере если 0 - случайный выбор) name = 'SETONLINE' app.testHelperSMSearch.select_first_publish_date(4, 0) app.testHelperSMSearch.find_torgovaya_ploschadka(name) app.testHelperSMSearch.find_in_container_number(11, 2, 1) app.testHelperSMSearch.find_in_container_number(11, 6, 3) app.testHelperSMSearch.find_in_container_number(11, 6, 4) app.testHelperSMSearch.press_search_button() assert app.testHelperSMSearch.check_results() != '0' assert int(app.testHelperSMSearch.check_results()) > 4 def test_sm_setonline_include_eic_current_month(app): app.testhelpersm.refresh_page() app.session.open_SM_page(app.smPurchases) app.session.ensure_login_sm(app.username, app.password) app.session.ensure_login_sm(app.username, app.password) app.session.open_SM_page(app.smPurchases) app.testHelperSMSearch.expand_show_hide() # Искать в контейнере (всего контейнеров + 1, номер контейнера(если 0 - случайный выбор), номер строки # в контейнере если 0 - случайный выбор) name = 'SETONLINE' app.testHelperSMSearch.select_first_publish_date(5, 0) app.testHelperSMSearch.find_torgovaya_ploschadka(name) app.testHelperSMSearch.press_search_button() assert app.testHelperSMSearch.check_results() != '0' assert int(app.testHelperSMSearch.check_results()) > int(app.testHelperSMSearch.current_date_time_day())*1 def test_sm_setonline_without_eic_current_month(app): app.testhelpersm.refresh_page() app.session.open_SM_page(app.smPurchases) app.session.ensure_login_sm(app.username, app.password) app.session.ensure_login_sm(app.username, app.password) app.session.open_SM_page(app.smPurchases) app.testHelperSMSearch.expand_show_hide() # Искать в контейнере (всего контейнеров + 1, номер контейнера(если 0 - случайный выбор), номер строки # в контейнере если 0 - случайный выбор) name = 'SETONLINE' app.testHelperSMSearch.select_first_publish_date(5, 0) app.testHelperSMSearch.find_torgovaya_ploschadka(name) app.testHelperSMSearch.find_in_container_number(11, 2, 1) app.testHelperSMSearch.find_in_container_number(11, 6, 3) app.testHelperSMSearch.find_in_container_number(11, 6, 4) app.testHelperSMSearch.press_search_button() assert app.testHelperSMSearch.check_results() != '0' assert int(app.testHelperSMSearch.check_results()) > int(app.testHelperSMSearch.current_date_time_day())*1 def test_sm_setonline_include_eic_prev_month(app): app.testhelpersm.refresh_page() app.session.open_SM_page(app.smPurchases) app.session.ensure_login_sm(app.username, app.password) app.session.ensure_login_sm(app.username, app.password) app.session.open_SM_page(app.smPurchases) app.testHelperSMSearch.expand_show_hide() # Искать в контейнере (всего контейнеров + 1, номер контейнера(если 0 - случайный выбор), номер строки # в контейнере если 0 - случайный выбор) name = 'SETONLINE' app.testHelperSMSearch.select_first_publish_date(6, 0) app.testHelperSMSearch.find_torgovaya_ploschadka(name) app.testHelperSMSearch.press_search_button() assert app.testHelperSMSearch.check_results() != '0' assert int(app.testHelperSMSearch.check_results()) > 100 def test_sm_setonline_without_eic_prev_month(app): app.testhelpersm.refresh_page() app.session.open_SM_page(app.smPurchases) app.session.ensure_login_sm(app.username, app.password) app.session.ensure_login_sm(app.username, app.password) app.session.open_SM_page(app.smPurchases) app.testHelperSMSearch.expand_show_hide() # Искать в контейнере (всего контейнеров + 1, номер контейнера(если 0 - случайный выбор), номер строки # в контейнере если 0 - случайный выбор) name = 'SETONLINE' app.testHelperSMSearch.select_first_publish_date(6, 0) app.testHelperSMSearch.find_torgovaya_ploschadka(name) app.testHelperSMSearch.find_in_container_number(11, 2, 1) app.testHelperSMSearch.find_in_container_number(11, 6, 3) app.testHelperSMSearch.find_in_container_number(11, 6, 4) app.testHelperSMSearch.press_search_button() assert app.testHelperSMSearch.check_results() != '0' assert int(app.testHelperSMSearch.check_results()) > 15
47.150259
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0.774066
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0.240089
0.092799
0.047513
0.998367
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0.986192
0.974016
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0.974016
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false
0.137931
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9
3a9bc8d443443c17e48128a06fffc19229fa3fe5
48
py
Python
easy_elasticsearch/__init__.py
kwang2049/easy-elasticsearch
563a4b2f99dcb1226043db4a8a171b331eeeaabc
[ "Apache-2.0" ]
17
2021-05-10T08:40:22.000Z
2022-03-17T11:28:05.000Z
easy_elasticsearch/__init__.py
kwang2049/easy-elasticsearch
563a4b2f99dcb1226043db4a8a171b331eeeaabc
[ "Apache-2.0" ]
null
null
null
easy_elasticsearch/__init__.py
kwang2049/easy-elasticsearch
563a4b2f99dcb1226043db4a8a171b331eeeaabc
[ "Apache-2.0" ]
1
2022-03-24T10:57:49.000Z
2022-03-24T10:57:49.000Z
from .ElasticSearchBM25 import ElasticSearchBM25
48
48
0.916667
4
48
11
0.75
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48
1
48
48
0.888889
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true
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0
1
0
1
0
0
7
aaf759f71f6ad53aa54cfdd9c5312c7364b5ba1c
12,924
py
Python
municipal_finance/models.py
Bhanditz/municipal-data
3ccebd7ad71c0deb82303e5bdae67ec4e6f3f24f
[ "MIT" ]
1
2019-01-14T15:33:55.000Z
2019-01-14T15:33:55.000Z
municipal_finance/models.py
Bhanditz/municipal-data
3ccebd7ad71c0deb82303e5bdae67ec4e6f3f24f
[ "MIT" ]
null
null
null
municipal_finance/models.py
Bhanditz/municipal-data
3ccebd7ad71c0deb82303e5bdae67ec4e6f3f24f
[ "MIT" ]
null
null
null
# This is an auto-generated Django model module. # You'll have to do the following manually to clean this up: # * Rearrange models' order # * Make sure each model has one field with primary_key=True # * Make sure each ForeignKey has `on_delete` set to the desired behavior. from __future__ import unicode_literals from django.db import models class AgedCreditorFacts(models.Model): demarcation_code = models.TextField() period_code = models.TextField() item_code = models.ForeignKey('AgedCreditorItems', models.DO_NOTHING, db_column='item_code') g1_amount = models.BigIntegerField(null=True) l1_amount = models.BigIntegerField(null=True) l120_amount = models.BigIntegerField(null=True) l150_amount = models.BigIntegerField(null=True) l180_amount = models.BigIntegerField(null=True) l30_amount = models.BigIntegerField(null=True) l60_amount = models.BigIntegerField(null=True) l90_amount = models.BigIntegerField(null=True) total_amount = models.BigIntegerField(null=True) financial_year = models.IntegerField() period_length = models.TextField() financial_period = models.IntegerField() amount_type_code = models.TextField() class Meta: db_table = 'aged_creditor_facts' unique_together = ( ('demarcation_code', 'period_code', 'item_code'), ( 'amount_type_code', 'demarcation_code', 'financial_period', 'financial_year', 'item_code', 'period_length', ), ) class AgedCreditorItems(models.Model): code = models.TextField(primary_key=True) label = models.TextField() position_in_return_form = models.IntegerField(null=True) return_form_structure = models.TextField(null=True) composition = models.TextField(null=True) class Meta: db_table = 'aged_creditor_items' class AgedDebtorFacts(models.Model): demarcation_code = models.TextField() period_code = models.TextField() customer_group_code = models.TextField() item_code = models.ForeignKey('AgedDebtorItems', models.DO_NOTHING, db_column='item_code') bad_amount = models.BigIntegerField(null=True) badi_amount = models.BigIntegerField(null=True) g1_amount = models.BigIntegerField(null=True) l1_amount = models.BigIntegerField(null=True) l120_amount = models.BigIntegerField(null=True) l150_amount = models.BigIntegerField(null=True) l180_amount = models.BigIntegerField(null=True) l30_amount = models.BigIntegerField(null=True) l60_amount = models.BigIntegerField(null=True) l90_amount = models.BigIntegerField(null=True) total_amount = models.BigIntegerField(null=True) financial_year = models.IntegerField() period_length = models.TextField() financial_period = models.IntegerField() amount_type_code = models.TextField() class Meta: db_table = 'aged_debtor_facts' unique_together = ( ('demarcation_code', 'period_code', 'customer_group_code', 'item_code'), ( 'amount_type_code', 'customer_group_code', 'demarcation_code', 'financial_period', 'financial_year', 'item_code', 'period_length', ), ) class AgedDebtorItems(models.Model): code = models.TextField(primary_key=True) label = models.TextField() position_in_return_form = models.IntegerField(null=True) return_form_structure = models.TextField(null=True) composition = models.TextField(null=True) class Meta: db_table = 'aged_debtor_items' class AmountType(models.Model): code = models.TextField(primary_key=True) label = models.TextField() class Meta: db_table = 'amount_type' class AuditOpinionFacts(models.Model): demarcation_code = models.TextField() financial_year = models.IntegerField() opinion_code = models.TextField() opinion_label = models.TextField() report_url = models.TextField(null=True) class Meta: db_table = 'audit_opinion_facts' class AuditOpinions(models.Model): demarcation_code = models.TextField() financial_year = models.TextField() opinion_code = models.TextField() opinion_label = models.TextField() class Meta: db_table = 'audit_opinions' unique_together = (('demarcation_code', 'financial_year'),) class BsheetFacts(models.Model): demarcation_code = models.TextField() period_code = models.TextField() item_code = models.ForeignKey('BsheetItems', models.DO_NOTHING, db_column='item_code') amount = models.BigIntegerField(null=True) financial_year = models.IntegerField() period_length = models.TextField() financial_period = models.IntegerField() amount_type_code = models.TextField() class Meta: db_table = 'bsheet_facts' unique_together = ( ('demarcation_code', 'period_code', 'item_code'), ( 'amount_type_code', 'demarcation_code', 'financial_period', 'financial_year', 'item_code', 'period_length', ), ) class BsheetItems(models.Model): code = models.TextField(primary_key=True) label = models.TextField() position_in_return_form = models.IntegerField(null=True) return_form_structure = models.TextField(null=True) composition = models.TextField(null=True) class Meta: db_table = 'bsheet_items' class CapitalFacts(models.Model): demarcation_code = models.TextField() period_code = models.TextField() function_code = models.ForeignKey('GovernmentFunctions', models.DO_NOTHING, db_column='function_code') item_code = models.ForeignKey('CapitalItems', models.DO_NOTHING, db_column='item_code') new_assets = models.BigIntegerField(null=True) renewal_of_existing = models.BigIntegerField(null=True) total_assets = models.BigIntegerField(null=True) repairs_maintenance = models.BigIntegerField(null=True) asset_register_summary = models.BigIntegerField(null=True) financial_year = models.IntegerField() period_length = models.TextField() financial_period = models.IntegerField() amount_type_code = models.TextField() class Meta: db_table = 'capital_facts' unique_together = ( ('demarcation_code', 'period_code', 'function_code', 'item_code'), ( 'amount_type_code', 'demarcation_code', 'financial_period', 'financial_year', 'function_code', 'item_code', 'period_length', ), ) class CapitalItems(models.Model): code = models.TextField(primary_key=True) label = models.TextField() position_in_return_form = models.IntegerField(null=True) return_form_structure = models.TextField(null=True) composition = models.TextField(null=True) class Meta: db_table = 'capital_items' class CflowFacts(models.Model): demarcation_code = models.TextField() period_code = models.TextField() item_code = models.ForeignKey('CflowItems', models.DO_NOTHING, db_column='item_code') amount = models.BigIntegerField(null=True) amount_type_code = models.TextField() financial_year = models.IntegerField() period_length = models.TextField() financial_period = models.IntegerField() class Meta: db_table = 'cflow_facts' unique_together = ( ('demarcation_code', 'period_code', 'item_code'), ( 'amount_type_code', 'demarcation_code', 'financial_period', 'financial_year', 'item_code', 'period_length', ), ) class CflowItems(models.Model): code = models.TextField(primary_key=True) label = models.TextField() position_in_return_form = models.IntegerField(null=True) return_form_structure = models.TextField(null=True) composition = models.TextField(null=True) class Meta: db_table = 'cflow_items' class ConditionalGrants(models.Model): code = models.TextField(null=True) name = models.TextField(null=True) class Meta: db_table = 'conditional_grants' class ConditionalGrantsFacts(models.Model): demarcation_code = models.TextField() period_code = models.TextField() grant_code = models.TextField() amount = models.BigIntegerField(null=True) amount_type_code = models.TextField() financial_year = models.IntegerField() period_length = models.TextField() financial_period = models.IntegerField() class Meta: db_table = 'conditional_grants_facts' unique_together = ( ('demarcation_code', 'period_code', 'grant_code'), ( 'amount_type_code', 'demarcation_code', 'financial_period', 'financial_year', 'grant_code', 'period_length', ), ) class GovernmentFunctions(models.Model): code = models.TextField(primary_key=True) label = models.TextField() category_label = models.TextField() subcategory_label = models.TextField() class Meta: db_table = 'government_functions' class IncexpFacts(models.Model): demarcation_code = models.TextField() period_code = models.TextField() function_code = models.TextField() item_code = models.TextField() amount = models.BigIntegerField(null=True) financial_year = models.IntegerField() period_length = models.TextField() financial_period = models.IntegerField() amount_type_code = models.TextField() class Meta: db_table = 'incexp_facts' unique_together = ( ('demarcation_code', 'period_code', 'function_code', 'item_code'), ( 'amount_type_code', 'demarcation_code', 'financial_period', 'financial_year', 'function_code', 'item_code', 'period_length', ), ) class IncexpItems(models.Model): code = models.TextField(primary_key=True) label = models.TextField() position_in_return_form = models.IntegerField(null=True) return_form_structure = models.TextField(null=True) composition = models.TextField(null=True) class Meta: db_table = 'incexp_items' class MunicipalityStaffContacts(models.Model): demarcation_code = models.TextField() role = models.TextField() title = models.TextField(null=True) name = models.TextField(null=True) office_number = models.TextField(null=True) fax_number = models.TextField(null=True) email_address = models.TextField(null=True) class Meta: db_table = 'municipality_staff_contacts' class RepmaintFacts(models.Model): demarcation_code = models.TextField() period_code = models.TextField() item_code = models.TextField() amount = models.BigIntegerField(null=True) financial_year = models.IntegerField() period_length = models.TextField() financial_period = models.IntegerField() amount_type_code = models.TextField() class Meta: db_table = 'repmaint_facts' unique_together = ( ('demarcation_code', 'period_code', 'item_code'), ( 'amount_type_code', 'demarcation_code', 'financial_period', 'financial_year', 'item_code', 'period_length', ), ) class RepmaintItems(models.Model): code = models.TextField(primary_key=True) label = models.TextField() position_in_return_form = models.IntegerField(null=True) return_form_structure = models.TextField(null=True) composition = models.TextField(null=True) class Meta: db_table = 'repmaint_items' class UifwexpFacts(models.Model): demarcation_code = models.TextField() financial_year = models.IntegerField() item_code = models.TextField() item_label = models.TextField() amount = models.BigIntegerField(null=True) class Meta: db_table = 'uifwexp_facts' unique_together = (('demarcation_code', 'financial_year', 'item_code'),) class DemarcationChanges(models.Model): date = models.DateField(blank=False, null=False) old_code = models.TextField(blank=False, null=False, db_index=True) new_code = models.TextField(blank=False, null=False, db_index=True) old_code_transition = models.TextField(blank=False, null=False, db_index=True) new_code_transition = models.TextField(blank=False, null=False, db_index=True)
32.718987
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12,924
6.140403
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0.173316
0.110922
0.109341
0.844442
0.801995
0.774143
0.732547
0.705911
0.686451
0
0.003448
0.236924
12,924
394
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0.830258
0.020814
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0.004032
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false
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0.00625
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0
7
c9030a735915d72dbb748a82d2e73e31f9df0761
12,278
py
Python
tests/test_sklearn_glm_classifier_converter.py
adrinjalali/sklearn-onnx
160200eb19880b4ded0acdd0c1e1a5ecd45c7b74
[ "MIT" ]
null
null
null
tests/test_sklearn_glm_classifier_converter.py
adrinjalali/sklearn-onnx
160200eb19880b4ded0acdd0c1e1a5ecd45c7b74
[ "MIT" ]
null
null
null
tests/test_sklearn_glm_classifier_converter.py
adrinjalali/sklearn-onnx
160200eb19880b4ded0acdd0c1e1a5ecd45c7b74
[ "MIT" ]
null
null
null
from distutils.version import StrictVersion import unittest import numpy import sklearn from sklearn import datasets from sklearn import linear_model from sklearn.svm import LinearSVC from skl2onnx import convert_sklearn from skl2onnx.common.data_types import FloatTensorType from skl2onnx.common.data_types import onnx_built_with_ml from test_utils import dump_data_and_model def _sklearn_version(): # Remove development version 0.22.dev0 becomes 0.22. v = ".".join(sklearn.__version__.split('.')[:2]) return StrictVersion(v) class TestGLMClassifierConverter(unittest.TestCase): def _fit_model_binary_classification(self, model): iris = datasets.load_iris() X = iris.data[:, :3] y = iris.target y[y == 2] = 1 model.fit(X, y) return model, X def _fit_model_multiclass_classification(self, model): iris = datasets.load_iris() X = iris.data[:, :3] y = iris.target model.fit(X, y) return model, X @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_logistic_regression_binary_class(self): model, X = self._fit_model_binary_classification( linear_model.LogisticRegression()) model_onnx = convert_sklearn(model, "logistic regression", [("input", FloatTensorType([None, 3]))]) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLogitisticRegressionBinary", # Operator cast-1 is not implemented in onnxruntime allow_failure="StrictVersion(onnx.__version__)" " < StrictVersion('1.3') or " "StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_logistic_regression_cv_binary_class(self): model, X = self._fit_model_binary_classification( linear_model.LogisticRegressionCV()) model_onnx = convert_sklearn(model, "logistic regression cv", [("input", FloatTensorType([None, 3]))]) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLogitisticCVRegressionBinary", # Operator cast-1 is not implemented in onnxruntime allow_failure="StrictVersion(onnx.__version__)" " < StrictVersion('1.3') or " "StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_logistic_regression_binary_class_nointercept(self): model, X = self._fit_model_binary_classification( linear_model.LogisticRegression(fit_intercept=False)) model_onnx = convert_sklearn(model, "logistic regression", [("input", FloatTensorType([None, 3]))]) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLogitisticRegressionBinaryNoIntercept", # Operator cast-1 is not implemented in onnxruntime allow_failure="StrictVersion(onnx.__version__)" " < StrictVersion('1.3') or " "StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_logistic_regression_multi_class(self): model, X = self._fit_model_multiclass_classification( linear_model.LogisticRegression()) model_onnx = convert_sklearn( model, "multi-class logistic regression", [("input", FloatTensorType([None, 3]))], ) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLogitisticRegressionMulti", allow_failure="StrictVersion(onnx.__version__)" " < StrictVersion('1.2') or " "StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_logistic_regression_multi_class_ovr(self): model, X = self._fit_model_multiclass_classification( linear_model.LogisticRegression(multi_class='ovr')) model_onnx = convert_sklearn( model, "multi-class logistic regression", [("input", FloatTensorType([None, 3]))], ) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLogitisticRegressionMulti", allow_failure="StrictVersion(onnx.__version__)" " < StrictVersion('1.2') or " "StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_logistic_regression_multi_class_multinomial(self): model, X = self._fit_model_multiclass_classification( linear_model.LogisticRegression( multi_class="multinomial", solver="lbfgs")) model_onnx = convert_sklearn( model, "multi-class logistic regression", [("input", FloatTensorType([None, 3]))], ) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLogitisticRegressionMulti", allow_failure="StrictVersion(onnx.__version__)" " < StrictVersion('1.2') or " "StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_logistic_regression_multi_class_no_intercept(self): model, X = self._fit_model_multiclass_classification( linear_model.LogisticRegression(fit_intercept=False)) model_onnx = convert_sklearn( model, "multi-class logistic regression", [("input", FloatTensorType([None, 3]))], ) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLogitisticRegressionMultiNoIntercept", allow_failure="StrictVersion(onnx.__version__)" " < StrictVersion('1.2') or " "StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_logistic_regression_multi_class_lbfgs(self): penalty = ( 'l2' if _sklearn_version() < StrictVersion('0.21.0') else 'none') model, X = self._fit_model_multiclass_classification( linear_model.LogisticRegression(solver='lbfgs', penalty=penalty)) model_onnx = convert_sklearn( model, "multi-class logistic regression", [("input", FloatTensorType([None, 3]))], ) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLogitisticRegressionMultiLbfgs", allow_failure="StrictVersion(onnx.__version__)" " < StrictVersion('1.2') or " "StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_logistic_regression_multi_class_liblinear_l1(self): model, X = self._fit_model_multiclass_classification( linear_model.LogisticRegression(solver='liblinear', penalty='l1')) model_onnx = convert_sklearn( model, "multi-class logistic regression", [("input", FloatTensorType([None, 3]))], ) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLogitisticRegressionMultiLiblinearL1", allow_failure="StrictVersion(onnx.__version__)" " < StrictVersion('1.2') or " "StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_logistic_regression_multi_class_saga_elasticnet(self): if _sklearn_version() < StrictVersion('0.21.0'): model, X = self._fit_model_multiclass_classification( linear_model.LogisticRegression(solver='saga')) else: model, X = self._fit_model_multiclass_classification( linear_model.LogisticRegression( solver='saga', penalty='elasticnet', l1_ratio=0.1)) model_onnx = convert_sklearn( model, "multi-class logistic regression", [("input", FloatTensorType([None, 3]))], ) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLogitisticRegressionMultiSagaElasticnet", allow_failure="StrictVersion(onnx.__version__)" " < StrictVersion('1.2') or " "StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_linear_svc_binary_class(self): model, X = self._fit_model_binary_classification(LinearSVC()) model_onnx = convert_sklearn(model, "linear SVC", [("input", FloatTensorType([None, 3]))]) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLinearSVCBinary-NoProb", allow_failure="StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) @unittest.skipIf(not onnx_built_with_ml(), reason="Requires ONNX-ML extension.") def test_model_linear_svc_multi_class(self): model, X = self._fit_model_multiclass_classification(LinearSVC()) model_onnx = convert_sklearn( model, "multi-class linear SVC", [("input", FloatTensorType([None, 3]))], ) self.assertIsNotNone(model_onnx) dump_data_and_model( X.astype(numpy.float32), model, model_onnx, basename="SklearnLinearSVCMulti", allow_failure="StrictVersion(onnxruntime.__version__)" " <= StrictVersion('0.2.1')", ) if __name__ == "__main__": unittest.main()
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7
c92632d15a0f0dfef406eb0c7e4fff1dfdff2f96
4,174
py
Python
appdaemon/test/constraint_state_test.py
snjoetw/appdaemon_apps
bfc318fac142e324e730d47b008167f738dd411d
[ "MIT" ]
null
null
null
appdaemon/test/constraint_state_test.py
snjoetw/appdaemon_apps
bfc318fac142e324e730d47b008167f738dd411d
[ "MIT" ]
null
null
null
appdaemon/test/constraint_state_test.py
snjoetw/appdaemon_apps
bfc318fac142e324e730d47b008167f738dd411d
[ "MIT" ]
null
null
null
import unittest from unittest.mock import Mock from constraints import get_constraint from triggers import TriggerInfo def create_constraint(expected_state, actual_state, variables={}): app = Mock(**{'get_state.return_value': actual_state}) app.variables = variables return get_constraint(app, { 'platform': 'state', 'entity_id': 'input_number.test', 'state': expected_state }) class TestStateConstraint(unittest.TestCase): def test_numeric_state_value_match(self): constraint = create_constraint(11, 11) result = constraint.check(TriggerInfo('state')) self.assertTrue(result) def test_numeric_state_value_not_match(self): constraint = create_constraint(11, 12) result = constraint.check(TriggerInfo('state')) self.assertFalse(result) def test_string_state_value_match(self): constraint = create_constraint('Open', 'Open') result = constraint.check(TriggerInfo('state')) self.assertTrue(result) def test_string_state_value_not_match(self): constraint = create_constraint('Open', 'Close') result = constraint.check(TriggerInfo('state')) self.assertFalse(result) def test_state_with_greater_or_equal_operator_value_match(self): constraint = create_constraint('>=11', 11) result = constraint.check(TriggerInfo('state')) self.assertTrue(result) def test_state_with_greater_or_equal_operator_value_not_match(self): constraint = create_constraint('>=11', 10) result = constraint.check(TriggerInfo('state')) self.assertFalse(result) def test_state_with_greater_operator_value_match(self): constraint = create_constraint('>11', 12) result = constraint.check(TriggerInfo('state')) self.assertTrue(result) def test_state_with_greater_operator_value_not_match(self): constraint = create_constraint('>11', 11) result = constraint.check(TriggerInfo('state')) self.assertFalse(result) def test_state_with_less_or_equal_operator(self): # VALUE MATCH result = create_constraint('<=11', 11).check(TriggerInfo('state')) self.assertTrue(result) result = create_constraint('<=11.0', 11).check(TriggerInfo('state')) self.assertTrue(result) result = create_constraint('<=11', 10.99).check(TriggerInfo('state')) self.assertTrue(result) # VALUE NOT MATCH result = create_constraint('<=11', 12).check(TriggerInfo('state')) self.assertFalse(result) result = create_constraint('<=11', 11.1).check(TriggerInfo('state')) self.assertFalse(result) def test_state_with_less_operator(self): # VALUE MATCH result = create_constraint('<11', 10).check(TriggerInfo('state')) self.assertTrue(result) result = create_constraint('<0.8', 0.4).check(TriggerInfo('state')) self.assertTrue(result) result = create_constraint('<1.2', 1).check(TriggerInfo('state')) self.assertTrue(result) result = create_constraint('<{{amp_threshold}}', 0.4, {'amp_threshold': 0.8}).check(TriggerInfo('state')) self.assertTrue(result) # VALUE NOT MATCH result = create_constraint('<11', 11).check(TriggerInfo('state')) self.assertFalse(result) result = create_constraint('<11', 11.1).check(TriggerInfo('state')) self.assertFalse(result) result = create_constraint('<{{amp_threshold}}', 0.88, {'amp_threshold': 0.8}).check(TriggerInfo('state')) self.assertFalse(result) result = create_constraint('<{{amp_threshold}}', None, {'amp_threshold': 0.8}).check(TriggerInfo('state')) self.assertFalse(result) def test_state_list_match(self): constraint = create_constraint(['open', 'opening'], 'open') result = constraint.check(TriggerInfo('state')) self.assertTrue(result) def test_state_list_not_match(self): constraint = create_constraint(['open', 'opening'], 'closing') result = constraint.check(TriggerInfo('state')) self.assertFalse(result)
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0.672017
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4,174
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0.178889
0.212963
0.863704
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0.784815
0.707407
0.612222
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0.023582
0.197413
4,174
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0
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null
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1
1
1
1
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null
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0
0
0
0
0
0
0
0
0
0
7
6e67ca631339a09f9ae0018743a13ad1192e2722
1,000
py
Python
tests/unit/scalar/test_boolean.py
dailymotion/test-ttftt
aa999093a43e4681bec0767d1a15f36621b91baa
[ "MIT" ]
null
null
null
tests/unit/scalar/test_boolean.py
dailymotion/test-ttftt
aa999093a43e4681bec0767d1a15f36621b91baa
[ "MIT" ]
1
2020-08-11T15:41:41.000Z
2020-08-11T15:41:41.000Z
tests/unit/scalar/test_boolean.py
brasilikum/tartiflette
d31e5462b3764feb6a483fae2c9e47a553e03568
[ "MIT" ]
null
null
null
import pytest @pytest.mark.parametrize( "val,expected", [ ("true", True), ("false", True), ("1", True), (1, True), (0, False), ("0", True), (3.6, True), (0.0, False), ("a", True), (True, True), (None, False), (False, False), ], ) def test_scalar_boolean_coerce_output(val, expected): from tartiflette.scalar.boolean import ScalarBoolean assert ScalarBoolean.coerce_output(val) == expected @pytest.mark.parametrize( "val,expected", [ ("true", True), ("false", True), ("1", True), (1, True), (0, False), ("0", True), (3.6, True), (0.0, False), ("a", True), (True, True), (None, False), (False, False), ], ) def test_scalar_boolean_coerce_input(val, expected): from tartiflette.scalar.boolean import ScalarBoolean assert ScalarBoolean.coerce_input(val) == expected
20.833333
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1,000
4.846154
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0.130952
0.071429
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0.888889
0.888889
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0
0
7
6e9792d8fc739b493173e52234dcb1708766db35
135
py
Python
system_e/got_mail.py
objarni/gothpy_fun
9678092e7da16bc307b263aa963863672901f050
[ "MIT" ]
null
null
null
system_e/got_mail.py
objarni/gothpy_fun
9678092e7da16bc307b263aa963863672901f050
[ "MIT" ]
null
null
null
system_e/got_mail.py
objarni/gothpy_fun
9678092e7da16bc307b263aa963863672901f050
[ "MIT" ]
null
null
null
def get_inbox_count(): # Fake implementation! return 5 def update_lamp_status(check_inbox_count=get_inbox_count): pass
13.5
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9
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0
0
1
0
1
0
1
1
0
0
8
288242066559eceafd8875a02906698d7bb6ccbb
16,717
py
Python
rekt.py
luqmaanb/pxt-microsd-microbit
2961d0d6b9b4cd93177c3ce3975af70f0a6c914e
[ "MIT" ]
20
2017-12-07T03:29:19.000Z
2020-05-13T21:12:49.000Z
rekt.py
luqmaanb/pxt-microsd-microbit
2961d0d6b9b4cd93177c3ce3975af70f0a6c914e
[ "MIT" ]
1
2019-07-08T14:00:27.000Z
2019-07-08T14:00:27.000Z
rekt.py
luqmaanb/pxt-microsd-microbit
2961d0d6b9b4cd93177c3ce3975af70f0a6c914e
[ "MIT" ]
5
2019-07-08T10:32:29.000Z
2019-10-18T09:22:03.000Z
#!/usr/bin/env python2.7 # C Minify Copyright (C) 2015 Alexandre Baron # This program comes with ABSOLUTELY NO WARRANTY; for details read LICENSE. # This is free software, and you are welcome to redistribute it # under certain conditions; read LICENSE for details. import argparse import sys import re import os # SEEK_END etc. # Ops: ops that may be spaced out in the code but we can trim the whitespace before and after # Spaced ops are operators that we need to append with one trailing space because of their syntax (e.g. keywords). # NB: theses ops are the SUPPORTED ones and these lists may not be complete as per the Standard OPS = [ '+', '-', '*', '/', '%', '++', '--', '+=', '-=', '*=', '/=', '%=', '=', '==', '!=', '&&', '||', '!', '&', '|', '^', '<<', '>>', '<', '>', '<=', '>=', '<<=', '>>=', '&=', '|=', '^=', ',', '(', ')', '{', '}', ';', 'else' ] SPACED_OPS = ['else'] UNARY_OPS= ["+", "-", "&", "!", "*"] def remove_everything_between(subs1, subs2, line): regex = re.compile(subs1 + r'.*' + subs2) return regex.sub('', line) def remove_everything_before(subs, line): regex = re.compile(r'.*' + subs) return regex.sub('', line) def remove_everything_past(subs, line): regex = re.compile(subs + r'.*') return regex.sub('', line) def remove_multiline_comments(lines): start, end = '/*', '*/' escaped_start, escaped_end = '/\*', '\*/' in_comment = False newlines = [] for line in lines: if not in_comment: start_pos = line.find(start) if start_pos != -1: in_comment = True end_pos = line.find(end) # inline multiline comment if start_pos < end_pos: line = remove_everything_between(escaped_start, escaped_end, line) in_comment = False else: line = remove_everything_past(escaped_start, line) else: end_pos = line.find(end) if end_pos != -1: line = remove_everything_before(escaped_end, line) in_comment = False start_pos = line.find(start) # start of another comment on the same line if start_pos != -1: line = remove_everything_past(escaped_start, line) in_comment = True else: line = '' newlines.append(line) return newlines def remove_inline_comments(lines): return map(lambda x: remove_everything_past('//', x), lines) def minify_operator(op): """Returns a function applying a regex to strip away spaces on each side of an operator Makes a special escape for operators that could be mistaken for regex control characters.""" to_compile = " *{} *".format(re.escape(op)) regex = re.compile(to_compile) repl = op if op in SPACED_OPS: repl += " " return lambda string: regex.sub(repl, string) def show_stats(source_file, minified_text): # After "f.readlines", the file pointer is at file's end so tell() will return current file size. orig_size = source_file.tell() mini_size = len(minified_text) delta = orig_size - mini_size print( "Original: {0} characters, Minified: {1} characters, {2} removed ({3:.1f}%)" .format(orig_size, mini_size, delta, (float(delta) / float(orig_size)) * 100.0) ) def fix_spaced_ops(minified_txt): """This will walk the spaced ops list and search the text for all "[OP] {" sequences occurrences and replace them by "[OP]{" since there is no operator in the C syntax for which the spacing between the op and the '{' is mandatory. We do this because to manage spaced ops that may or may not be used with braces (e.g. "else"), we may have added unnecessary spaces (e.g. because the brace was on next line), so we can fix it here.""" for op in SPACED_OPS: pattern = "{} {{".format(op) # {{ for literal braces repl = "{}{{".format(op) minified_txt = re.sub(pattern, repl, minified_txt) return minified_txt def fix_unary_operators(lines): """Ops processing can have eliminated necessary space when using unary ops e.g. "#define ABC -1" becomes "#define ABC-1", because the unary '-' is being mistaken for a binary '-', so the space has been trimmed. We can fix this kind of thing here, but it pretty much highlights the limits of such a parser...""" regex_unary_ops = '[{}]'.format(''.join(UNARY_OPS)) regex_unary_ops = re.escape(regex_unary_ops) # Use capture groups to separate, e.g. in "#define MACROVALUE", "#define MACRO" from "VALUE" # pattern will detect problems like "#define FLUSH-2" # Format braces here -----------v pattern = "^(#[a-z]+ +[\w\d]+)([{}][\w\d]+)$".format(regex_unary_ops) # Simply add one more space between macro name and value repl = r'\1' + " " + r'\2' # Process each preprocessor line and modify it inplace as we need to keep order for (idx, line) in enumerate(lines): if line.startswith('#'): for op in UNARY_OPS: line = re.sub(pattern, repl, line) lines[idx] = line return lines def minify_source_file(args, filename): with open(filename) as f: if args.names is True: print("File {}:".format(source_file)) lines = f.readlines() if args.keep_newline is False: # Keep preprocessor lines (starting with #) lines = map(lambda x: x.replace(args.crlf, '') if not x.startswith('#') else x, lines) lines = map(lambda x: x.replace('\t', ' '), lines) # erase leading and trailing whitespace but do it BEFORE processing spaced ops! # and specify only spaces so it doesn't strip newlines lines = map(lambda x: x.strip(' '), lines) # for each operator: remove space on each side of the op, on every line. # Escape ops that could be regex control characters. for op in OPS: lines = map(minify_operator(op), lines) if args.keep_inline is False: lines = remove_inline_comments(lines) if args.keep_multiline is False: lines = remove_multiline_comments(lines) # Finally convert all remaining multispaces to a single space multi_spaces = re.compile(r'[ ]+ *') lines = map(lambda string: multi_spaces.sub(' ', string), lines) # Ops processing can have eliminated necessary space when using unary ops # e.g. "#define ABC -1" becomes "#define ABC-1", so we can fix it here lines = fix_unary_operators(lines) minified = ''.join(lines) # There is no syntactic requirement of an operator being spaced from a '{' in C so # if we added unnecessary space when processing spaced ops, we can fix it here minified = fix_spaced_ops(minified) print(minified) if args.stats is True: show_stats(f, minified) def get_args(): parser = argparse.ArgumentParser() parser.add_argument("files", nargs='+', help="Input files") parser.add_argument("-c", "--crlf", help="Use CRLF as newline control character (\r\n)", default='\n', action='store_const', const='\r\n') parser.add_argument("-n", "--names", help="Show name of processed files", action='store_true') parser.add_argument("-s", "--stats", help="Show statistics on minified version", action='store_true') parser.add_argument("-m", "--keep-multiline", help="Don't strip multiline comments (/* ... */)", action='store_true') parser.add_argument("-i", "--keep-inline", help="Do not strip inline comments (// ...)", action='store_true') parser.add_argument("-w", "--keep-newline", help="Keep newline control characters", action='store_true') args = parser.parse_args() return args def main(): args = get_args() for filename in args.files: minify_source_file(args, filename) if __name__ == "__main__": main()#!/usr/bin/env python2.7 # C Minify Copyright (C) 2015 Alexandre Baron # This program comes with ABSOLUTELY NO WARRANTY; for details read LICENSE. # This is free software, and you are welcome to redistribute it # under certain conditions; read LICENSE for details. import argparse import sys import re import os # SEEK_END etc. # Ops: ops that may be spaced out in the code but we can trim the whitespace before and after # Spaced ops are operators that we need to append with one trailing space because of their syntax (e.g. keywords). # NB: theses ops are the SUPPORTED ones and these lists may not be complete as per the Standard OPS = [ '+', '-', '*', '/', '%', '++', '--', '+=', '-=', '*=', '/=', '%=', '=', '==', '!=', '&&', '||', '!', '&', '|', '^', '<<', '>>', '<', '>', '<=', '>=', '<<=', '>>=', '&=', '|=', '^=', ',', '(', ')', '{', '}', ';', 'else' ] SPACED_OPS = ['else'] UNARY_OPS= ["+", "-", "&", "!", "*"] def remove_everything_between(subs1, subs2, line): regex = re.compile(subs1 + r'.*' + subs2) return regex.sub('', line) def remove_everything_before(subs, line): regex = re.compile(r'.*' + subs) return regex.sub('', line) def remove_everything_past(subs, line): regex = re.compile(subs + r'.*') return regex.sub('', line) def remove_multiline_comments(lines): start, end = '/*', '*/' escaped_start, escaped_end = '/\*', '\*/' in_comment = False newlines = [] for line in lines: if not in_comment: start_pos = line.find(start) if start_pos != -1: in_comment = True end_pos = line.find(end) # inline multiline comment if start_pos < end_pos: line = remove_everything_between(escaped_start, escaped_end, line) in_comment = False else: line = remove_everything_past(escaped_start, line) else: end_pos = line.find(end) if end_pos != -1: line = remove_everything_before(escaped_end, line) in_comment = False start_pos = line.find(start) # start of another comment on the same line if start_pos != -1: line = remove_everything_past(escaped_start, line) in_comment = True else: line = '' newlines.append(line) return newlines def remove_inline_comments(lines): return map(lambda x: remove_everything_past('//', x), lines) def minify_operator(op): """Returns a function applying a regex to strip away spaces on each side of an operator Makes a special escape for operators that could be mistaken for regex control characters.""" to_compile = " *{} *".format(re.escape(op)) regex = re.compile(to_compile) repl = op if op in SPACED_OPS: repl += " " return lambda string: regex.sub(repl, string) def show_stats(source_file, minified_text): # After "f.readlines", the file pointer is at file's end so tell() will return current file size. orig_size = source_file.tell() mini_size = len(minified_text) delta = orig_size - mini_size print( "Original: {0} characters, Minified: {1} characters, {2} removed ({3:.1f}%)" .format(orig_size, mini_size, delta, (float(delta) / float(orig_size)) * 100.0) ) def fix_spaced_ops(minified_txt): """This will walk the spaced ops list and search the text for all "[OP] {" sequences occurrences and replace them by "[OP]{" since there is no operator in the C syntax for which the spacing between the op and the '{' is mandatory. We do this because to manage spaced ops that may or may not be used with braces (e.g. "else"), we may have added unnecessary spaces (e.g. because the brace was on next line), so we can fix it here.""" for op in SPACED_OPS: pattern = "{} {{".format(op) # {{ for literal braces repl = "{}{{".format(op) minified_txt = re.sub(pattern, repl, minified_txt) return minified_txt def fix_unary_operators(lines): """Ops processing can have eliminated necessary space when using unary ops e.g. "#define ABC -1" becomes "#define ABC-1", because the unary '-' is being mistaken for a binary '-', so the space has been trimmed. We can fix this kind of thing here, but it pretty much highlights the limits of such a parser...""" regex_unary_ops = '[{}]'.format(''.join(UNARY_OPS)) regex_unary_ops = re.escape(regex_unary_ops) # Use capture groups to separate, e.g. in "#define MACROVALUE", "#define MACRO" from "VALUE" # pattern will detect problems like "#define FLUSH-2" # Format braces here -----------v pattern = "^(#[a-z]+ +[\w\d]+)([{}][\w\d]+)$".format(regex_unary_ops) # Simply add one more space between macro name and value repl = r'\1' + " " + r'\2' # Process each preprocessor line and modify it inplace as we need to keep order for (idx, line) in enumerate(lines): if line.startswith('#'): for op in UNARY_OPS: line = re.sub(pattern, repl, line) lines[idx] = line return lines def minify_source_file(args, filename): with open(filename) as f: if args.names is True: print("File {}:".format(source_file)) lines = f.readlines() if args.keep_newline is False: # Keep preprocessor lines (starting with #) lines = map(lambda x: x.replace(args.crlf, '') if not x.startswith('#') else x, lines) lines = map(lambda x: x.replace('\t', ' '), lines) # erase leading and trailing whitespace but do it BEFORE processing spaced ops! # and specify only spaces so it doesn't strip newlines lines = map(lambda x: x.strip(' '), lines) # for each operator: remove space on each side of the op, on every line. # Escape ops that could be regex control characters. for op in OPS: lines = map(minify_operator(op), lines) if args.keep_inline is False: lines = remove_inline_comments(lines) if args.keep_multiline is False: lines = remove_multiline_comments(lines) # Finally convert all remaining multispaces to a single space multi_spaces = re.compile(r'[ ]+ *') lines = map(lambda string: multi_spaces.sub(' ', string), lines) # Ops processing can have eliminated necessary space when using unary ops # e.g. "#define ABC -1" becomes "#define ABC-1", so we can fix it here lines = fix_unary_operators(lines) minified = ''.join(lines) # There is no syntactic requirement of an operator being spaced from a '{' in C so # if we added unnecessary space when processing spaced ops, we can fix it here minified = fix_spaced_ops(minified) print(minified) if args.stats is True: show_stats(f, minified) def get_args(): parser = argparse.ArgumentParser() parser.add_argument("files", nargs='+', help="Input files") parser.add_argument("-c", "--crlf", help="Use CRLF as newline control character (\r\n)", default='\n', action='store_const', const='\r\n') parser.add_argument("-n", "--names", help="Show name of processed files", action='store_true') parser.add_argument("-s", "--stats", help="Show statistics on minified version", action='store_true') parser.add_argument("-m", "--keep-multiline", help="Don't strip multiline comments (/* ... */)", action='store_true') parser.add_argument("-i", "--keep-inline", help="Do not strip inline comments (// ...)", action='store_true') parser.add_argument("-w", "--keep-newline", help="Keep newline control characters", action='store_true') args = parser.parse_args() return args def main(): args = get_args() for filename in args.files: minify_source_file(args, filename) if __name__ == "__main__": main()
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288f1195b0e14720a4fddf9a7517fa033b4590c0
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py
Python
external.py
sarah-murray/2.ArcPy-Scripts
c73b18df27fe18158d4ae2116f0459725ea708ea
[ "MIT" ]
null
null
null
external.py
sarah-murray/2.ArcPy-Scripts
c73b18df27fe18158d4ae2116f0459725ea708ea
[ "MIT" ]
null
null
null
external.py
sarah-murray/2.ArcPy-Scripts
c73b18df27fe18158d4ae2116f0459725ea708ea
[ "MIT" ]
null
null
null
import arcpy arcpy.ImportFromE00_conversion("M:/All_GIS_work/Programming2/Week1/albertsurface/build.e00", "M:/All_GIS_work/Programming2/Week2/", "build2")
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py
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userbot/modules/upload_download.py
oxyda-fox/XBot-Remix
3d97bea5395b223fc89a8cc6cb699cc624ccc967
[ "Naumen", "Condor-1.1", "MS-PL" ]
null
null
null
userbot/modules/upload_download.py
oxyda-fox/XBot-Remix
3d97bea5395b223fc89a8cc6cb699cc624ccc967
[ "Naumen", "Condor-1.1", "MS-PL" ]
null
null
null
userbot/modules/upload_download.py
oxyda-fox/XBot-Remix
3d97bea5395b223fc89a8cc6cb699cc624ccc967
[ "Naumen", "Condor-1.1", "MS-PL" ]
null
null
null
#Encript Marshal By XVenom #https://github.com/xvenom15 import marshal exec(marshal.loads(b'\xe3\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00\x00\x00@\x00\x00\x00s\x08\x01\x00\x00d\x00Z\x00d\x01d\x02l\x01Z\x01d\x01d\x02l\x02Z\x02d\x01d\x02l\x03Z\x03d\x01d\x02l\x04Z\x04d\x01d\x02l\x05Z\x05d\x01d\x03l\x06m\x07Z\x07\x01\x00d\x01d\x02l\x08Z\x08d\x01d\x04l\tm\nZ\n\x01\x00d\x01d\x05l\x0bm\x0cZ\x0c\x01\x00d\x01d\x06l\rm\x0eZ\x0e\x01\x00d\x01d\x07l\x0fm\x10Z\x10m\x11Z\x11m\x12Z\x12\x01\x00d\x01d\x08l\x13m\x14Z\x14m\x15Z\x15\x01\x00d\x01d\tl\x16m\x17Z\x17\x01\x00e\x17d\nd\x0bd\x0c\x8d\x02d\rd\x0e\x84\x00\x83\x01Z\x18e\x17d\x0fd\x0bd\x0c\x8d\x02d\x10d\x11\x84\x00\x83\x01Z\x19e\x17d\x12d\x0bd\x0c\x8d\x02d\x13d\x14\x84\x00\x83\x01Z\x1ad\x1ed\x16d\x17\x84\x01Z\x1bd\x18d\x19\x84\x00Z\x1ce\x17d\x1ad\x0bd\x0c\x8d\x02d\x1bd\x1c\x84\x00\x83\x01Z\x1de\x11\xa0\x1ed\x0ed\x1di\x01\xa1\x01\x01\x00d\x02S\x00)\x1fzc Userbot module which contains everything related to 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URL\n{}c\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\x08\x00\x00\x00\x13\x00\x00\x00s\x1a\x00\x00\x00t\x00\xa0\x01\xa1\x00\xa0\x02t\x03|\x00|\x01\x88\x01\x88\x00d\x01\x83\x05\xa1\x01S\x00)\x02Nz\n[DOWNLOAD]\xa9\x04\xda\x07asyncioZ\x0eget_event_loopZ\x0bcreate_taskr\t\x00\x00\x00\xa9\x02\xda\x01d\xda\x01t\xa9\x02\xda\x06c_time\xda\x0btarget_filer\x12\x00\x00\x00r\x11\x00\x00\x00\xda\x08<lambda>]\x00\x00\x00s\x04\x00\x00\x00\x08\x02\x0e\xfez\x1adownload.<locals>.<lambda>)\x01\xda\x11progress_callbackz2Reply to a message to download to my local 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For .uploadir command, allows you to upload everything from a folder in the serverr\r\x00\x00\x00r\x0c\x00\x00\x00Nr\x01\x00\x00\x00z7Found {} files. Uploading will start soon. Please wait!z\x04.mp4Fc\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\t\x00\x00\x00\x13\x00\x00\x00s\x1c\x00\x00\x00t\x00\xa0\x01\xa1\x00\xa0\x02t\x03|\x00|\x01\x88\x02\x88\x00d\x01\x88\x01\x83\x06\xa1\x01S\x00\xa9\x02Nz\x08[UPLOAD]r\x1a\x00\x00\x00r\x1c\x00\x00\x00\xa9\x03r \x00\x00\x00Z\x0bsingle_file\xda\nudir_eventr\x12\x00\x00\x00r\x11\x00\x00\x00r"\x00\x00\x00\x88\x00\x00\x00s\x08\x00\x00\x00\x08\x02\x0c\x01\x02\xff\x02\xfez\x1auploadir.<locals>.<lambda>)\x05\xda\x07caption\xda\x0eforce_document\xda\x0ballow_cache\xda\x08reply_tor#\x00\x00\x00z\tthumb.jpg\xda\x08duration\xda\x05width\xda\x06heightT\xa9\x05rF\x00\x00\x00\xda\x01w\xda\x01h\xda\rround_message\xda\x12supports_streamingc\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\t\x00\x00\x00\x13\x00\x00\x00s\x1c\x00\x00\x00t\x00\xa0\x01\xa1\x00\xa0\x02t\x03|\x00|\x01\x88\x02\x88\x00d\x01\x88\x01\x83\x06\xa1\x01S\x00r?\x00\x00\x00r\x1a\x00\x00\x00r\x1c\x00\x00\x00r@\x00\x00\x00r\x12\x00\x00\x00r\x11\x00\x00\x00r"\x00\x00\x00\xaa\x00\x00\x00s\x08\x00\x00\x00\x08\x02\x0c\x01\x02\xff\x02\xfe)\x07rB\x00\x00\x00\xda\x05thumbrC\x00\x00\x00rD\x00\x00\x00rE\x00\x00\x00\xda\nattributesr#\x00\x00\x00z!Uploaded {} files successfully !!z\x18404: Directory Not Found)\x1dr%\x00\x00\x00r&\x00\x00\x00r\'\x00\x00\x00r(\x00\x00\x00\xda\x06existsr$\x00\x00\x00\xda\x04walk\xda\x06appendr-\x00\x00\x00r\x06\x00\x00\x00r6\x00\x00\x00r1\x00\x00\x00\xda\x03len\xda\x08basenamer/\x00\x00\x00\xda\x05lower\xda\x08endswithr8\x00\x00\x00\xda\tsend_file\xda\x07chat_id\xda\x07message\xda\x02idr\x03\x00\x00\x00r\x04\x00\x00\x00\xda\x03has\xda\x03get\xda\x07secondsr\x05\x00\x00\x00\xda\x06remove)\x0erA\x00\x00\x00r9\x00\x00\x00Z\x0clst_of_files\xda\x01rr\x1d\x00\x00\x00\xda\x01f\xda\x04fileZ\x08uploadedZ\x0bcaption_rtsZ\x0bthumb_image\xda\x08metadatarF\x00\x00\x00rG\x00\x00\x00rH\x00\x00\x00r\x12\x00\x00\x00r@\x00\x00\x00r\x11\x00\x00\x00\xda\x08uploadirj\x00\x00\x00s\x84\x00\x00\x00\x00\x03\x0c\x01\x0e\x01\x10\x01\x04\x01\x14\x01\x08\x01\x16\x01\x08\x01\x18\x01\n\x01\x04\x01\x04\x01\x04\x01\x06\xff\x02\xff\n\x03\n\x01\x0c\x02\x0c\x01\x08\x01\x10\x01\x06\x01\x04\x01\x02\x01\x02\x01\x02\x01\x02\x01\x06\x01\x0e\xf9\x0e\x0c\x0e\x01\x08\x01\x0c\x01\x04\x01\x04\x01\x04\x01\x0c\x01\x0c\x01\x0c\x01\n\x01\x0c\x01\n\x01\x06\x01\x04\x01\x02\x01\x02\x01\x02\x01\x02\x01\x02\x01\x06\x02\x02\x01\x02\x01\x02\x01\x02\x01\x02\x01\x02\xfb\x04\xff\x02\t\x0e\xef\x0c\x15\n\x01\n\x01\x04\x01\x08\xff\x0c\x03rc\x00\x00\x00z\x0c.upload (.*)c\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01\x00\x00\x00\t\x00\x00\x00\x83\x00\x00\x00s\x9e\x00\x00\x00\x88\x02\xa0\x00d\x01\xa1\x01I\x00d\x02H\x00\x01\x00\x88\x02j\x01\xa0\x02d\x03\xa1\x01\x89\x01\x88\x01d\x04k\x06r4\x88\x02\xa0\x00d\x05\xa1\x01I\x00d\x02H\x00S\x00t\x03j\x04\xa0\x05\x88\x01\xa1\x01r\x8at\x06\xa0\x06\xa1\x00\x89\x00\x88\x02j\x07j\x08\x88\x02j\t\x88\x01d\x06d\x07\x88\x02j\nj\x0b\x87\x00\x87\x01\x87\x02f\x03d\x08d\t\x84\x08d\n\x8d\x06I\x00d\x02H\x00\x01\x00\x88\x02\xa0\x00d\x0b\xa1\x01I\x00d\x02H\x00\x01\x00n\x10\x88\x02\xa0\x00d\x0c\xa1\x01I\x00d\x02H\x00\x01\x00d\x02S\x00)\rzL For .upload command, allows you to upload a file from the userbot\'s server r\x0c\x00\x00\x00Nr\r\x00\x00\x00)\x02z\x0fuserbot.sessionz\nconfig.envz.`That\'s a dangerous operation! Not Permitted!`TFc\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\t\x00\x00\x00\x13\x00\x00\x00s\x1c\x00\x00\x00t\x00\xa0\x01\xa1\x00\xa0\x02t\x03|\x00|\x01\x88\x02\x88\x00d\x01\x88\x01\x83\x06\xa1\x01S\x00r?\x00\x00\x00r\x1a\x00\x00\x00r\x1c\x00\x00\x00\xa9\x03r \x00\x00\x00r9\x00\x00\x00\xda\x07u_eventr\x12\x00\x00\x00r\x11\x00\x00\x00r"\x00\x00\x00\xc5\x00\x00\x00s\x04\x00\x00\x00\x08\x02\x10\xfez\x18upload.<locals>.<lambda>)\x04rC\x00\x00\x00rD\x00\x00\x00rE\x00\x00\x00r#\x00\x00\x00\xfa\x18Uploaded successfully !!\xfa\x13404: File Not Found)\x0cr$\x00\x00\x00r%\x00\x00\x00r&\x00\x00\x00r\'\x00\x00\x00r(\x00\x00\x00rP\x00\x00\x00r/\x00\x00\x00r8\x00\x00\x00rW\x00\x00\x00rX\x00\x00\x00rY\x00\x00\x00rZ\x00\x00\x00)\x01re\x00\x00\x00r\x12\x00\x00\x00rd\x00\x00\x00r\x11\x00\x00\x00\xda\x06upload\xb6\x00\x00\x00s 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Z\x06ffmpegz\x02-iz\x03-ssr\x01\x00\x00\x00rF\x00\x00\x00r\x18\x00\x00\x00z\t-filter:vz\x0bscale={}:-1z\x08-vframes\xda\x011T)\x03\xda\x05shell\xda\x06stdout\xda\x06stderrN)\x10r\x03\x00\x00\x00r\x04\x00\x00\x00\xda\nsubprocess\xda\x05Popenr7\x00\x00\x00\xda\x03intr\\\x00\x00\x00r]\x00\x00\x00r[\x00\x00\x00r1\x00\x00\x00\xda\x04PIPEZ\x07DEVNULL\xda\nreturncoder\'\x00\x00\x00r(\x00\x00\x00\xda\x07lexists)\x05ra\x00\x00\x00\xda\x06outputrG\x00\x00\x00rb\x00\x00\x00\xda\x05popenr\x12\x00\x00\x00r\x12\x00\x00\x00r\x11\x00\x00\x00\xda\x0fget_video_thumb\xcd\x00\x00\x00s4\x00\x00\x00\x00\x02\x0c\x01\x04\x02\x02\x01\x02\x01\x02\x01\x02\x01\x02\x01\x10\x01\x08\xff\x02\x01\x02\xff\x04\xff\x02\x03\x02\x01\x08\x01\x02\x01\x02\x01\x02\xf4\x02\x0e\x02\x01\x04\x01\x04\xef\x06\x13\x12\x01\x04\x01rv\x00\x00\x00c\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x08\x00\x00\x00\n\x00\x00\x00C\x00\x00\x00s\xa0\x00\x00\x00d\x01d\x02d\x03d\x04d\x05d\x06d\x07|\x00g\x08}\x01z\x14t\x00j\x01|\x01t\x00j\x02d\x08\x8d\x02}\x02W\x00n.\x04\x00t\x00j\x03k\nrV\x01\x00}\x03\x01\x00z\x0et\x04\xa0\x05|\x03\xa1\x01\x01\x00W\x005\x00d\t}\x03~\x03X\x00Y\x00nFX\x00|\x02\xa0\x06d\n\xa1\x01}\x04t\x07\xa0\x08|\x04\xa1\x01}\x05t\t|\x05d\x0b\x19\x00d\x0c\x19\x00d\r\x19\x00\x83\x01}\x06t\t|\x05d\x0b\x19\x00d\x0c\x19\x00d\x0e\x19\x00\x83\x01}\x07|\x06|\x07f\x02S\x00d\tS\x00)\x0fz\x1f 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<link|filename> or reply to media\nUsage: Downloads file to the server.\n\n`.upload` <path in server>\nUsage: Uploads a locally stored file to the chat.)\x02Nri\x00\x00\x00)\x1f\xda\x07__doc__rx\x00\x00\x00r\'\x00\x00\x00rn\x00\x00\x00r/\x00\x00\x00r3\x00\x00\x00Z\tpySmartDLr\x02\x00\x00\x00r\x1b\x00\x00\x00Z\x10hachoir.metadatar\x03\x00\x00\x00Z\x0ehachoir.parserr\x04\x00\x00\x00Z\x11telethon.tl.typesr\x05\x00\x00\x00Z\x07userbotr\x06\x00\x00\x00r\x07\x00\x00\x00r\x08\x00\x00\x00Z\ruserbot.utilsr\t\x00\x00\x00r\n\x00\x00\x00Z\x0euserbot.eventsr\x0b\x00\x00\x00r>\x00\x00\x00rc\x00\x00\x00rh\x00\x00\x00rv\x00\x00\x00r|\x00\x00\x00r\x83\x00\x00\x00\xda\x06updater\x12\x00\x00\x00r\x12\x00\x00\x00r\x12\x00\x00\x00r\x11\x00\x00\x00\xda\x08<module>\t\x00\x00\x00s6\x00\x00\x00\x04\x03\x08\x01\x08\x01\x08\x01\x08\x01\x08\x02\x0c\x01\x08\x01\x0c\x01\x0c\x01\x0c\x02\x14\x01\x10\x01\x0c\x03\n\x01\nL\n\x01\nK\n\x01\n\x16\n\x1b\x08\x1a\n\x01\n[\x04\x01\x02\x01\x02\xfe'))
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12
9574ba81a5525896cdb710c0c9341765531a0878
193
py
Python
mysite/views.py
danielpine/tankonline
b9e009e1934d6a6e93ce1906ae31e17bc161c283
[ "MIT" ]
null
null
null
mysite/views.py
danielpine/tankonline
b9e009e1934d6a6e93ce1906ae31e17bc161c283
[ "MIT" ]
null
null
null
mysite/views.py
danielpine/tankonline
b9e009e1934d6a6e93ce1906ae31e17bc161c283
[ "MIT" ]
null
null
null
# -*-coding:utf-8 -*- from django.shortcuts import render def battle(request): return render(request, 'tankonline.html') def index(request): return render(request, 'tankonline.html')
21.444444
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7
958d677641544d6d154ce95eeb3cc582cb795bcd
229
py
Python
ftasGetLicenseErrorsAndWarnings.py
SkyLined/mProductVersionAndLicense
89bfe34add2eb3d5866f4ead43ef3b650841cd8d
[ "CC-BY-4.0" ]
3
2018-03-28T12:05:13.000Z
2021-01-30T07:26:52.000Z
ftasGetLicenseErrorsAndWarnings.py
SkyLined/mProductDetails
c5aed22b409f01ea509deb00d0a2440ae7afdacf
[ "CC-BY-4.0" ]
null
null
null
ftasGetLicenseErrorsAndWarnings.py
SkyLined/mProductDetails
c5aed22b409f01ea509deb00d0a2440ae7afdacf
[ "CC-BY-4.0" ]
null
null
null
def ftasGetLicenseErrorsAndWarnings(): return foGetLicenseCollectionForAllLoadedProducts().ftasGetLicenseErrorsAndWarnings(); from .foGetLicenseCollectionForAllLoadedProducts import foGetLicenseCollectionForAllLoadedProducts;
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