llvm/utils/lit/lit/Test.py - llvm-project - Git at Google

 import itertools
 import os
 from json import JSONEncoder

 from lit.BooleanExpression import BooleanExpression

 # Test result codes.

 class ResultCode(object):
     """Test result codes."""

     # All result codes (including user-defined ones) in declaration order
     _all_codes = []

     @staticmethod
     def all_codes():
         return ResultCode._all_codes

     # We override __new__ and __getnewargs__ to ensure that pickling still
     # provides unique ResultCode objects in any particular instance.
     _instances = {}

     def __new__(cls, name, label, isFailure):
         res = cls._instances.get(name)
         if res is None:
             cls._instances[name] = res = super(ResultCode, cls).__new__(cls)
         return res

     def __getnewargs__(self):
         return (self.name, self.label, self.isFailure)

     def __init__(self, name, label, isFailure):
         self.name = name
         self.label = label
         self.isFailure = isFailure
         ResultCode._all_codes.append(self)

     def __repr__(self):
         return '%s%r' % (self.__class__.__name__,
                          (self.name, self.isFailure))


 # Successes
 EXCLUDED    = ResultCode('EXCLUDED',    'Excluded', False)
 SKIPPED     = ResultCode('SKIPPED',     'Skipped', False)
 UNSUPPORTED = ResultCode('UNSUPPORTED', 'Unsupported', False)
 PASS        = ResultCode('PASS',        'Passed', False)
 FLAKYPASS   = ResultCode('FLAKYPASS',   'Passed With Retry', False)
 XFAIL       = ResultCode('XFAIL',       'Expectedly Failed', False)
 # Failures
 UNRESOLVED  = ResultCode('UNRESOLVED',  'Unresolved', True)
 TIMEOUT     = ResultCode('TIMEOUT',     'Timed Out', True)
 FAIL        = ResultCode('FAIL',        'Failed', True)
 XPASS       = ResultCode('XPASS',       'Unexpectedly Passed', True)


 # Test metric values.

 class MetricValue(object):
     def format(self):
         """
         format() -> str

         Convert this metric to a string suitable for displaying as part of the
         console output.
         """
         raise RuntimeError("abstract method")

     def todata(self):
         """
         todata() -> json-serializable data

         Convert this metric to content suitable for serializing in the JSON test
         output.
         """
         raise RuntimeError("abstract method")

 class IntMetricValue(MetricValue):
     def __init__(self, value):
         self.value = value

     def format(self):
         return str(self.value)

     def todata(self):
         return self.value

 class RealMetricValue(MetricValue):
     def __init__(self, value):
         self.value = value

     def format(self):
         return '%.4f' % self.value

     def todata(self):
         return self.value

 class JSONMetricValue(MetricValue):
     """
         JSONMetricValue is used for types that are representable in the output
         but that are otherwise uninterpreted.
     """
     def __init__(self, value):
         # Ensure the value is a serializable by trying to encode it.
         # WARNING: The value may change before it is encoded again, and may
         #          not be encodable after the change.
         try:
             e = JSONEncoder()
             e.encode(value)
         except TypeError:
             raise
         self.value = value

     def format(self):
         e = JSONEncoder(indent=2, sort_keys=True)
         return e.encode(self.value)

     def todata(self):
         return self.value

 def toMetricValue(value):
     if isinstance(value, MetricValue):
         return value
     elif isinstance(value, int):
         return IntMetricValue(value)
     elif isinstance(value, float):
         return RealMetricValue(value)
     else:
         # 'long' is only present in python2
         try:
             if isinstance(value, long):
                 return IntMetricValue(value)
         except NameError:
             pass

         # Try to create a JSONMetricValue and let the constructor throw
         # if value is not a valid type.
         return JSONMetricValue(value)


 # Test results.

 class Result(object):
     """Wrapper for the results of executing an individual test."""

     def __init__(self, code, output='', elapsed=None):
         # The result code.
         self.code = code
         # The test output.
         self.output = output
         # The wall timing to execute the test, if timing.
         self.elapsed = elapsed
         self.start = None
         self.pid = None
         # The metrics reported by this test.
         self.metrics = {}
         # The micro-test results reported by this test.
         self.microResults = {}

     def addMetric(self, name, value):
         """
         addMetric(name, value)

         Attach a test metric to the test result, with the given name and list of
         values. It is an error to attempt to attach the metrics with the same
         name multiple times.

         Each value must be an instance of a MetricValue subclass.
         """
         if name in self.metrics:
             raise ValueError("result already includes metrics for %r" % (
                     name,))
         if not isinstance(value, MetricValue):
             raise TypeError("unexpected metric value: %r" % (value,))
         self.metrics[name] = value

     def addMicroResult(self, name, microResult):
         """
         addMicroResult(microResult)

         Attach a micro-test result to the test result, with the given name and
         result.  It is an error to attempt to attach a micro-test with the
         same name multiple times.

         Each micro-test result must be an instance of the Result class.
         """
         if name in self.microResults:
             raise ValueError("Result already includes microResult for %r" % (
                    name,))
         if not isinstance(microResult, Result):
             raise TypeError("unexpected MicroResult value %r" % (microResult,))
         self.microResults[name] = microResult


 # Test classes.

 class TestSuite:
     """TestSuite - Information on a group of tests.

     A test suite groups together a set of logically related tests.
     """

     def __init__(self, name, source_root, exec_root, config):
         self.name = name
         self.source_root = source_root
         self.exec_root = exec_root
         # The test suite configuration.
         self.config = config

     def getSourcePath(self, components):
         return os.path.join(self.source_root, *components)

     def getExecPath(self, components):
         return os.path.join(self.exec_root, *components)

 class Test:
     """Test - Information on a single test instance."""

     def __init__(self, suite, path_in_suite, config, file_path = None):
         self.suite = suite
         self.path_in_suite = path_in_suite
         self.config = config
         self.file_path = file_path

         # A list of conditions under which this test is expected to fail.
         # Each condition is a boolean expression of features and target
         # triple parts. These can optionally be provided by test format
         # handlers, and will be honored when the test result is supplied.
         self.xfails = []

         # A list of conditions that must be satisfied before running the test.
         # Each condition is a boolean expression of features. All of them
         # must be True for the test to run.
         # FIXME should target triple parts count here too?
         self.requires = []

         # A list of conditions that prevent execution of the test.
         # Each condition is a boolean expression of features and target
         # triple parts. All of them must be False for the test to run.
         self.unsupported = []

         # An optional number of retries allowed before the test finally succeeds.
         # The test is run at most once plus the number of retries specified here.
         self.allowed_retries = getattr(config, 'test_retry_attempts', 0)

         # The test result, once complete.
         self.result = None

     def setResult(self, result):
         assert self.result is None, "result already set"
         assert isinstance(result, Result), "unexpected result type"
         try:
             expected_to_fail = self.isExpectedToFail()
         except ValueError as err:
             # Syntax error in an XFAIL line.
             result.code = UNRESOLVED
             result.output = str(err)
         else:
             if expected_to_fail:
                 # pass -> unexpected pass
                 if result.code is PASS:
                     result.code = XPASS
                 # fail -> expected fail
                 elif result.code is FAIL:
                     result.code = XFAIL
         self.result = result

     def isFailure(self):
         assert self.result
         return self.result.code.isFailure

     def getFullName(self):
         return self.suite.config.name + ' :: ' + '/'.join(self.path_in_suite)

     def getFilePath(self):
         if self.file_path:
             return self.file_path
         return self.getSourcePath()

     def getSourcePath(self):
         return self.suite.getSourcePath(self.path_in_suite)

     def getExecPath(self):
         return self.suite.getExecPath(self.path_in_suite)

     def isExpectedToFail(self):
         """
         isExpectedToFail() -> bool

         Check whether this test is expected to fail in the current
         configuration. This check relies on the test xfails property which by
         some test formats may not be computed until the test has first been
         executed.
         Throws ValueError if an XFAIL line has a syntax error.
         """

         features = self.config.available_features
         triple = getattr(self.suite.config, 'target_triple', "")

         # Check if any of the xfails match an available feature or the target.
         for item in self.xfails:
             # If this is the wildcard, it always fails.
             if item == '*':
                 return True

             # If this is a True expression of features and target triple parts,
             # it fails.
             try:
                 if BooleanExpression.evaluate(item, features, triple):
                     return True
             except ValueError as e:
                 raise ValueError('Error in XFAIL list:\n%s' % str(e))

         return False

     def isWithinFeatureLimits(self):
         """
         isWithinFeatureLimits() -> bool

         A test is within the feature limits set by run_only_tests if
         1. the test's requirements ARE satisfied by the available features
         2. the test's requirements ARE NOT satisfied after the limiting
            features are removed from the available features

         Throws ValueError if a REQUIRES line has a syntax error.
         """

         if not self.config.limit_to_features:
             return True  # No limits. Run it.

         # Check the requirements as-is (#1)
         if self.getMissingRequiredFeatures():
             return False

         # Check the requirements after removing the limiting features (#2)
         featuresMinusLimits = [f for f in self.config.available_features
                                if not f in self.config.limit_to_features]
         if not self.getMissingRequiredFeaturesFromList(featuresMinusLimits):
             return False

         return True

     def getMissingRequiredFeaturesFromList(self, features):
         try:
             return [item for item in self.requires
                     if not BooleanExpression.evaluate(item, features)]
         except ValueError as e:
             raise ValueError('Error in REQUIRES list:\n%s' % str(e))

     def getMissingRequiredFeatures(self):
         """
         getMissingRequiredFeatures() -> list of strings

         Returns a list of features from REQUIRES that are not satisfied."
         Throws ValueError if a REQUIRES line has a syntax error.
         """

         features = self.config.available_features
         return self.getMissingRequiredFeaturesFromList(features)

     def getUnsupportedFeatures(self):
         """
         getUnsupportedFeatures() -> list of strings

         Returns a list of features from UNSUPPORTED that are present
         in the test configuration's features or target triple.
         Throws ValueError if an UNSUPPORTED line has a syntax error.
         """

         features = self.config.available_features
         triple = getattr(self.suite.config, 'target_triple', "")

         try:
             return [item for item in self.unsupported
                     if BooleanExpression.evaluate(item, features, triple)]
         except ValueError as e:
             raise ValueError('Error in UNSUPPORTED list:\n%s' % str(e))

     def getUsedFeatures(self):
         """
         getUsedFeatures() -> list of strings

         Returns a list of all features appearing in XFAIL, UNSUPPORTED and
         REQUIRES annotations for this test.
         """
         import lit.TestRunner
         parsed = lit.TestRunner._parseKeywords(self.getSourcePath(), require_script=False)
         feature_keywords = ('UNSUPPORTED:', 'REQUIRES:', 'XFAIL:')
         boolean_expressions = itertools.chain.from_iterable(
             parsed[k] or [] for k in feature_keywords
         )
         tokens = itertools.chain.from_iterable(
             BooleanExpression.tokenize(expr) for expr in
                 boolean_expressions if expr != '*'
         )
         identifiers = set(filter(BooleanExpression.isIdentifier, tokens))
         return identifiers

     def isEarlyTest(self):
         """
         isEarlyTest() -> bool

         Check whether this test should be executed early in a particular run.
         This can be used for test suites with long running tests to maximize
         parallelism or where it is desirable to surface their failures early.
         """
         return self.suite.config.is_early
	import itertools
	import os
	from json import JSONEncoder

	from lit.BooleanExpression import BooleanExpression

	# Test result codes.

	class ResultCode(object):
	"""Test result codes."""

	# All result codes (including user-defined ones) in declaration order
	_all_codes = []

	@staticmethod
	def all_codes():
	return ResultCode._all_codes

	# We override __new__ and __getnewargs__ to ensure that pickling still
	# provides unique ResultCode objects in any particular instance.
	_instances = {}

	def __new__(cls, name, label, isFailure):
	res = cls._instances.get(name)
	if res is None:
	cls._instances[name] = res = super(ResultCode, cls).__new__(cls)
	return res

	def __getnewargs__(self):
	return (self.name, self.label, self.isFailure)

	def __init__(self, name, label, isFailure):
	self.name = name
	self.label = label
	self.isFailure = isFailure
	ResultCode._all_codes.append(self)

	def __repr__(self):
	return '%s%r' % (self.__class__.__name__,
	(self.name, self.isFailure))


	# Successes
	EXCLUDED = ResultCode('EXCLUDED', 'Excluded', False)
	SKIPPED = ResultCode('SKIPPED', 'Skipped', False)
	UNSUPPORTED = ResultCode('UNSUPPORTED', 'Unsupported', False)
	PASS = ResultCode('PASS', 'Passed', False)
	FLAKYPASS = ResultCode('FLAKYPASS', 'Passed With Retry', False)
	XFAIL = ResultCode('XFAIL', 'Expectedly Failed', False)
	# Failures
	UNRESOLVED = ResultCode('UNRESOLVED', 'Unresolved', True)
	TIMEOUT = ResultCode('TIMEOUT', 'Timed Out', True)
	FAIL = ResultCode('FAIL', 'Failed', True)
	XPASS = ResultCode('XPASS', 'Unexpectedly Passed', True)


	# Test metric values.

	class MetricValue(object):
	def format(self):
	"""
	format() -> str

	Convert this metric to a string suitable for displaying as part of the
	console output.
	"""
	raise RuntimeError("abstract method")

	def todata(self):
	"""
	todata() -> json-serializable data

	Convert this metric to content suitable for serializing in the JSON test
	output.
	"""
	raise RuntimeError("abstract method")

	class IntMetricValue(MetricValue):
	def __init__(self, value):
	self.value = value

	def format(self):
	return str(self.value)

	def todata(self):
	return self.value

	class RealMetricValue(MetricValue):
	def __init__(self, value):
	self.value = value

	def format(self):
	return '%.4f' % self.value

	def todata(self):
	return self.value

	class JSONMetricValue(MetricValue):
	"""
	JSONMetricValue is used for types that are representable in the output
	but that are otherwise uninterpreted.
	"""
	def __init__(self, value):
	# Ensure the value is a serializable by trying to encode it.
	# WARNING: The value may change before it is encoded again, and may
	# not be encodable after the change.
	try:
	e = JSONEncoder()
	e.encode(value)
	except TypeError:
	raise
	self.value = value

	def format(self):
	e = JSONEncoder(indent=2, sort_keys=True)
	return e.encode(self.value)

	def todata(self):
	return self.value

	def toMetricValue(value):
	if isinstance(value, MetricValue):
	return value
	elif isinstance(value, int):
	return IntMetricValue(value)
	elif isinstance(value, float):
	return RealMetricValue(value)
	else:
	# 'long' is only present in python2
	try:
	if isinstance(value, long):
	return IntMetricValue(value)
	except NameError:
	pass

	# Try to create a JSONMetricValue and let the constructor throw
	# if value is not a valid type.
	return JSONMetricValue(value)


	# Test results.

	class Result(object):
	"""Wrapper for the results of executing an individual test."""

	def __init__(self, code, output='', elapsed=None):
	# The result code.
	self.code = code
	# The test output.
	self.output = output
	# The wall timing to execute the test, if timing.
	self.elapsed = elapsed
	self.start = None
	self.pid = None
	# The metrics reported by this test.
	self.metrics = {}
	# The micro-test results reported by this test.
	self.microResults = {}

	def addMetric(self, name, value):
	"""
	addMetric(name, value)

	Attach a test metric to the test result, with the given name and list of
	values. It is an error to attempt to attach the metrics with the same
	name multiple times.

	Each value must be an instance of a MetricValue subclass.
	"""
	if name in self.metrics:
	raise ValueError("result already includes metrics for %r" % (
	name,))
	if not isinstance(value, MetricValue):
	raise TypeError("unexpected metric value: %r" % (value,))
	self.metrics[name] = value

	def addMicroResult(self, name, microResult):
	"""
	addMicroResult(microResult)

	Attach a micro-test result to the test result, with the given name and
	result. It is an error to attempt to attach a micro-test with the
	same name multiple times.

	Each micro-test result must be an instance of the Result class.
	"""
	if name in self.microResults:
	raise ValueError("Result already includes microResult for %r" % (
	name,))
	if not isinstance(microResult, Result):
	raise TypeError("unexpected MicroResult value %r" % (microResult,))
	self.microResults[name] = microResult


	# Test classes.

	class TestSuite:
	"""TestSuite - Information on a group of tests.

	A test suite groups together a set of logically related tests.
	"""

	def __init__(self, name, source_root, exec_root, config):
	self.name = name
	self.source_root = source_root
	self.exec_root = exec_root
	# The test suite configuration.
	self.config = config

	def getSourcePath(self, components):
	return os.path.join(self.source_root, *components)

	def getExecPath(self, components):
	return os.path.join(self.exec_root, *components)

	class Test:
	"""Test - Information on a single test instance."""

	def __init__(self, suite, path_in_suite, config, file_path = None):
	self.suite = suite
	self.path_in_suite = path_in_suite
	self.config = config
	self.file_path = file_path

	# A list of conditions under which this test is expected to fail.
	# Each condition is a boolean expression of features and target
	# triple parts. These can optionally be provided by test format
	# handlers, and will be honored when the test result is supplied.
	self.xfails = []

	# A list of conditions that must be satisfied before running the test.
	# Each condition is a boolean expression of features. All of them
	# must be True for the test to run.
	# FIXME should target triple parts count here too?
	self.requires = []

	# A list of conditions that prevent execution of the test.
	# Each condition is a boolean expression of features and target
	# triple parts. All of them must be False for the test to run.
	self.unsupported = []

	# An optional number of retries allowed before the test finally succeeds.
	# The test is run at most once plus the number of retries specified here.
	self.allowed_retries = getattr(config, 'test_retry_attempts', 0)

	# The test result, once complete.
	self.result = None

	def setResult(self, result):
	assert self.result is None, "result already set"
	assert isinstance(result, Result), "unexpected result type"
	try:
	expected_to_fail = self.isExpectedToFail()
	except ValueError as err:
	# Syntax error in an XFAIL line.
	result.code = UNRESOLVED
	result.output = str(err)
	else:
	if expected_to_fail:
	# pass -> unexpected pass
	if result.code is PASS:
	result.code = XPASS
	# fail -> expected fail
	elif result.code is FAIL:
	result.code = XFAIL
	self.result = result

	def isFailure(self):
	assert self.result
	return self.result.code.isFailure

	def getFullName(self):
	return self.suite.config.name + ' :: ' + '/'.join(self.path_in_suite)

	def getFilePath(self):
	if self.file_path:
	return self.file_path
	return self.getSourcePath()

	def getSourcePath(self):
	return self.suite.getSourcePath(self.path_in_suite)

	def getExecPath(self):
	return self.suite.getExecPath(self.path_in_suite)

	def isExpectedToFail(self):
	"""
	isExpectedToFail() -> bool

	Check whether this test is expected to fail in the current
	configuration. This check relies on the test xfails property which by
	some test formats may not be computed until the test has first been
	executed.
	Throws ValueError if an XFAIL line has a syntax error.
	"""

	features = self.config.available_features
	triple = getattr(self.suite.config, 'target_triple', "")

	# Check if any of the xfails match an available feature or the target.
	for item in self.xfails:
	# If this is the wildcard, it always fails.
	if item == '*':
	return True

	# If this is a True expression of features and target triple parts,
	# it fails.
	try:
	if BooleanExpression.evaluate(item, features, triple):
	return True
	except ValueError as e:
	raise ValueError('Error in XFAIL list:\n%s' % str(e))

	return False

	def isWithinFeatureLimits(self):
	"""
	isWithinFeatureLimits() -> bool

	A test is within the feature limits set by run_only_tests if
	1. the test's requirements ARE satisfied by the available features
	2. the test's requirements ARE NOT satisfied after the limiting
	features are removed from the available features

	Throws ValueError if a REQUIRES line has a syntax error.
	"""

	if not self.config.limit_to_features:
	return True # No limits. Run it.

	# Check the requirements as-is (#1)
	if self.getMissingRequiredFeatures():
	return False

	# Check the requirements after removing the limiting features (#2)
	featuresMinusLimits = [f for f in self.config.available_features
	if not f in self.config.limit_to_features]
	if not self.getMissingRequiredFeaturesFromList(featuresMinusLimits):
	return False

	return True

	def getMissingRequiredFeaturesFromList(self, features):
	try:
	return [item for item in self.requires
	if not BooleanExpression.evaluate(item, features)]
	except ValueError as e:
	raise ValueError('Error in REQUIRES list:\n%s' % str(e))

	def getMissingRequiredFeatures(self):
	"""
	getMissingRequiredFeatures() -> list of strings

	Returns a list of features from REQUIRES that are not satisfied."
	Throws ValueError if a REQUIRES line has a syntax error.
	"""

	features = self.config.available_features
	return self.getMissingRequiredFeaturesFromList(features)

	def getUnsupportedFeatures(self):
	"""
	getUnsupportedFeatures() -> list of strings

	Returns a list of features from UNSUPPORTED that are present
	in the test configuration's features or target triple.
	Throws ValueError if an UNSUPPORTED line has a syntax error.
	"""

	features = self.config.available_features
	triple = getattr(self.suite.config, 'target_triple', "")

	try:
	return [item for item in self.unsupported
	if BooleanExpression.evaluate(item, features, triple)]
	except ValueError as e:
	raise ValueError('Error in UNSUPPORTED list:\n%s' % str(e))

	def getUsedFeatures(self):
	"""
	getUsedFeatures() -> list of strings

	Returns a list of all features appearing in XFAIL, UNSUPPORTED and
	REQUIRES annotations for this test.
	"""
	import lit.TestRunner
	parsed = lit.TestRunner._parseKeywords(self.getSourcePath(), require_script=False)
	feature_keywords = ('UNSUPPORTED:', 'REQUIRES:', 'XFAIL:')
	boolean_expressions = itertools.chain.from_iterable(
	parsed[k] or [] for k in feature_keywords
	)
	tokens = itertools.chain.from_iterable(
	BooleanExpression.tokenize(expr) for expr in
	boolean_expressions if expr != '*'
	)
	identifiers = set(filter(BooleanExpression.isIdentifier, tokens))
	return identifiers

	def isEarlyTest(self):
	"""
	isEarlyTest() -> bool

	Check whether this test should be executed early in a particular run.
	This can be used for test suites with long running tests to maximize
	parallelism or where it is desirable to surface their failures early.
	"""
	return self.suite.config.is_early