python/google/protobuf/internal/testing_refleaks.py - third_party/github/protocolbuffers/protobuf - Git at Google

 # Protocol Buffers - Google's data interchange format
 # Copyright 2008 Google Inc.  All rights reserved.
 #
 # Use of this source code is governed by a BSD-style
 # license that can be found in the LICENSE file or at
 # https://developers.google.com/open-source/licenses/bsd

 """A subclass of unittest.TestCase which checks for reference leaks.

 To use:
 - Use testing_refleak.BaseTestCase instead of unittest.TestCase
 - Configure and compile Python with --with-pydebug

 If sys.gettotalrefcount() is not available (because Python was built without
 the Py_DEBUG option), then this module is a no-op and tests will run normally.
 """

 import copyreg
 import gc
 import sys
 import unittest


 class LocalTestResult(unittest.TestResult):
   """A TestResult which forwards events to a parent object, except for Skips."""

   def __init__(self, parent_result):
     unittest.TestResult.__init__(self)
     self.parent_result = parent_result

   def addError(self, test, error):
     self.parent_result.addError(test, error)

   def addFailure(self, test, error):
     self.parent_result.addFailure(test, error)

   def addSkip(self, test, reason):
     pass


 class ReferenceLeakCheckerMixin(object):
   """A mixin class for TestCase, which checks reference counts."""

   NB_RUNS = 3

   def run(self, result=None):
     testMethod = getattr(self, self._testMethodName)
     expecting_failure_method = getattr(testMethod, "__unittest_expecting_failure__", False)
     expecting_failure_class = getattr(self, "__unittest_expecting_failure__", False)
     if expecting_failure_class or expecting_failure_method:
       return

     # python_message.py registers all Message classes to some pickle global
     # registry, which makes the classes immortal.
     # We save a copy of this registry, and reset it before we could references.
     self._saved_pickle_registry = copyreg.dispatch_table.copy()

     # Run the test twice, to warm up the instance attributes.
     super(ReferenceLeakCheckerMixin, self).run(result=result)
     super(ReferenceLeakCheckerMixin, self).run(result=result)

     oldrefcount = 0
     local_result = LocalTestResult(result)
     num_flakes = 0

     refcount_deltas = []
     while len(refcount_deltas) < self.NB_RUNS:
       oldrefcount = self._getRefcounts()
       super(ReferenceLeakCheckerMixin, self).run(result=local_result)
       newrefcount = self._getRefcounts()
       # If the GC was able to collect some objects after the call to run() that
       # it could not collect before the call, then the counts won't match.
       if newrefcount < oldrefcount and num_flakes < 2:
         # This result is (probably) a flake -- garbage collectors aren't very
         # predictable, but a lower ending refcount is the opposite of the
         # failure we are testing for. If the result is repeatable, then we will
         # eventually report it, but not after trying to eliminate it.
         num_flakes += 1
         continue
       num_flakes = 0
       refcount_deltas.append(newrefcount - oldrefcount)
     print(refcount_deltas, self)

     try:
       self.assertEqual(refcount_deltas, [0] * self.NB_RUNS)
     except Exception:  # pylint: disable=broad-except
       result.addError(self, sys.exc_info())

   def _getRefcounts(self):
     copyreg.dispatch_table.clear()
     copyreg.dispatch_table.update(self._saved_pickle_registry)
     # It is sometimes necessary to gc.collect() multiple times, to ensure
     # that all objects can be collected.
     gc.collect()
     gc.collect()
     gc.collect()
     return sys.gettotalrefcount()


 if hasattr(sys, 'gettotalrefcount'):

   def TestCase(test_class):
     new_bases = (ReferenceLeakCheckerMixin,) + test_class.__bases__
     new_class = type(test_class)(
         test_class.__name__, new_bases, dict(test_class.__dict__))
     return new_class
   SkipReferenceLeakChecker = unittest.skip

 else:
   # When PyDEBUG is not enabled, run the tests normally.

   def TestCase(test_class):
     return test_class

   def SkipReferenceLeakChecker(reason):
     del reason  # Don't skip, so don't need a reason.
     def Same(func):
       return func
     return Same
	# Protocol Buffers - Google's data interchange format
	# Copyright 2008 Google Inc. All rights reserved.
	#
	# Use of this source code is governed by a BSD-style
	# license that can be found in the LICENSE file or at
	# https://developers.google.com/open-source/licenses/bsd

	"""A subclass of unittest.TestCase which checks for reference leaks.

	To use:
	- Use testing_refleak.BaseTestCase instead of unittest.TestCase
	- Configure and compile Python with --with-pydebug

	If sys.gettotalrefcount() is not available (because Python was built without
	the Py_DEBUG option), then this module is a no-op and tests will run normally.
	"""

	import copyreg
	import gc
	import sys
	import unittest


	class LocalTestResult(unittest.TestResult):
	"""A TestResult which forwards events to a parent object, except for Skips."""

	def __init__(self, parent_result):
	unittest.TestResult.__init__(self)
	self.parent_result = parent_result

	def addError(self, test, error):
	self.parent_result.addError(test, error)

	def addFailure(self, test, error):
	self.parent_result.addFailure(test, error)

	def addSkip(self, test, reason):
	pass


	class ReferenceLeakCheckerMixin(object):
	"""A mixin class for TestCase, which checks reference counts."""

	NB_RUNS = 3

	def run(self, result=None):
	testMethod = getattr(self, self._testMethodName)
	expecting_failure_method = getattr(testMethod, "__unittest_expecting_failure__", False)
	expecting_failure_class = getattr(self, "__unittest_expecting_failure__", False)
	if expecting_failure_class or expecting_failure_method:
	return

	# python_message.py registers all Message classes to some pickle global
	# registry, which makes the classes immortal.
	# We save a copy of this registry, and reset it before we could references.
	self._saved_pickle_registry = copyreg.dispatch_table.copy()

	# Run the test twice, to warm up the instance attributes.
	super(ReferenceLeakCheckerMixin, self).run(result=result)
	super(ReferenceLeakCheckerMixin, self).run(result=result)

	oldrefcount = 0
	local_result = LocalTestResult(result)
	num_flakes = 0

	refcount_deltas = []
	while len(refcount_deltas) < self.NB_RUNS:
	oldrefcount = self._getRefcounts()
	super(ReferenceLeakCheckerMixin, self).run(result=local_result)
	newrefcount = self._getRefcounts()
	# If the GC was able to collect some objects after the call to run() that
	# it could not collect before the call, then the counts won't match.
	if newrefcount < oldrefcount and num_flakes < 2:
	# This result is (probably) a flake -- garbage collectors aren't very
	# predictable, but a lower ending refcount is the opposite of the
	# failure we are testing for. If the result is repeatable, then we will
	# eventually report it, but not after trying to eliminate it.
	num_flakes += 1
	continue
	num_flakes = 0
	refcount_deltas.append(newrefcount - oldrefcount)
	print(refcount_deltas, self)

	try:
	self.assertEqual(refcount_deltas, [0] * self.NB_RUNS)
	except Exception: # pylint: disable=broad-except
	result.addError(self, sys.exc_info())

	def _getRefcounts(self):
	copyreg.dispatch_table.clear()
	copyreg.dispatch_table.update(self._saved_pickle_registry)
	# It is sometimes necessary to gc.collect() multiple times, to ensure
	# that all objects can be collected.
	gc.collect()
	gc.collect()
	gc.collect()
	return sys.gettotalrefcount()


	if hasattr(sys, 'gettotalrefcount'):

	def TestCase(test_class):
	new_bases = (ReferenceLeakCheckerMixin,) + test_class.__bases__
	new_class = type(test_class)(
	test_class.__name__, new_bases, dict(test_class.__dict__))
	return new_class
	SkipReferenceLeakChecker = unittest.skip

	else:
	# When PyDEBUG is not enabled, run the tests normally.

	def TestCase(test_class):
	return test_class

	def SkipReferenceLeakChecker(reason):
	del reason # Don't skip, so don't need a reason.
	def Same(func):
	return func
	return Same