upstream/mercurial-mirror Files · contrib/python-zstandard/tests/common.py

copies: add test that makes both the merging csets dirty and fails...

copies: add test that makes both the merging csets dirty and fails This patch is a part of series which is about the case when both the merging csets are not descendant of merge base. The existing code assumes if c1 is dirty there shouldn't be any partial copies from c2 i.e both2['incomplete'] and same for c2, if c2 is dirty both1['incomplete'] should be empty, but this is not the right assumption. Now as we know we can have both c1 and c2 dirty at the same time, it is possible that c1 is dirty and both2['incomplete'] has some value. Or if c2 is dirty and both1['incomplete'] has some value. Added test shows that because of this assumption it could fail. Differential Revision: https://phab.mercurial-scm.org/D5962

Gregory Szorc - - Load All Authors

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      import imp

      import inspect

      import io

      import os

      import types

      try:

          import hypothesis

      except ImportError:

          hypothesis = None

      def make_cffi(cls):

          """Decorator to add CFFI versions of each test method."""

          # The module containing this class definition should

          # `import zstandard as zstd`. Otherwise things may blow up.

          mod = inspect.getmodule(cls)

          if not hasattr(mod, 'zstd'):

              raise Exception('test module does not contain "zstd" symbol')

          if not hasattr(mod.zstd, 'backend'):

              raise Exception('zstd symbol does not have "backend" attribute; did '

                              'you `import zstandard as zstd`?')

          # If `import zstandard` already chose the cffi backend, there is nothing

          # for us to do: we only add the cffi variation if the default backend

          # is the C extension.

          if mod.zstd.backend == 'cffi':

              return cls

          old_env = dict(os.environ)

          os.environ['PYTHON_ZSTANDARD_IMPORT_POLICY'] = 'cffi'

          try:

              try:

                  mod_info = imp.find_module('zstandard')

                  mod = imp.load_module('zstandard_cffi', *mod_info)

              except ImportError:

                  return cls

          finally:

              os.environ.clear()

              os.environ.update(old_env)

          if mod.backend != 'cffi':

              raise Exception('got the zstandard %s backend instead of cffi' % mod.backend)

          # If CFFI version is available, dynamically construct test methods

          # that use it.

          for attr in dir(cls):

              fn = getattr(cls, attr)

              if not inspect.ismethod(fn) and not inspect.isfunction(fn):

                  continue

              if not fn.__name__.startswith('test_'):

                  continue

              name = '%s_cffi' % fn.__name__

              # Replace the "zstd" symbol with the CFFI module instance. Then copy

              # the function object and install it in a new attribute.

              if isinstance(fn, types.FunctionType):

                  globs = dict(fn.__globals__)

                  globs['zstd'] = mod

                  new_fn = types.FunctionType(fn.__code__, globs, name,

                                              fn.__defaults__, fn.__closure__)

                  new_method = new_fn

              else:

                  globs = dict(fn.__func__.func_globals)

                  globs['zstd'] = mod

                  new_fn = types.FunctionType(fn.__func__.func_code, globs, name,

                                              fn.__func__.func_defaults,

                                              fn.__func__.func_closure)

                  new_method = types.UnboundMethodType(new_fn, fn.im_self,

                                                       fn.im_class)

              setattr(cls, name, new_method)

          return cls

      class OpCountingBytesIO(io.BytesIO):

          def __init__(self, *args, **kwargs):

              self._read_count = 0

              self._write_count = 0

              return super(OpCountingBytesIO, self).__init__(*args, **kwargs)

          def read(self, *args):

              self._read_count += 1

              return super(OpCountingBytesIO, self).read(*args)

          def write(self, data):

              self._write_count += 1

              return super(OpCountingBytesIO, self).write(data)

      _source_files = []

      def random_input_data():

          """Obtain the raw content of source files.

          This is used for generating "random" data to feed into fuzzing, since it is

          faster than random content generation.

          """

          if _source_files:

              return _source_files

          for root, dirs, files in os.walk(os.path.dirname(__file__)):

              dirs[:] = list(sorted(dirs))

              for f in sorted(files):

                  try:

                      with open(os.path.join(root, f), 'rb') as fh:

                          data = fh.read()

                          if data:

                              _source_files.append(data)

                  except OSError:

                      pass

          return _source_files

      def generate_samples():

          inputs = [

              b'foo',

              b'bar',

              b'abcdef',

              b'sometext',

              b'baz',

          ]

          samples = []

          for i in range(128):

              samples.append(inputs[i % 5])

              samples.append(inputs[i % 5] * (i + 3))

              samples.append(inputs[-(i % 5)] * (i + 2))

          return samples

      if hypothesis:

          default_settings = hypothesis.settings()

          hypothesis.settings.register_profile('default', default_settings)

          ci_settings = hypothesis.settings(max_examples=2500,

                                            max_iterations=2500)

          hypothesis.settings.register_profile('ci', ci_settings)

          hypothesis.settings.load_profile(

              os.environ.get('HYPOTHESIS_PROFILE', 'default'))

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				import imp
				import inspect
				import io
				import os
				import types

				try:
				import hypothesis
				except ImportError:
				hypothesis = None


				def make_cffi(cls):
				"""Decorator to add CFFI versions of each test method."""

				# The module containing this class definition should
				# `import zstandard as zstd`. Otherwise things may blow up.
				mod = inspect.getmodule(cls)
				if not hasattr(mod, 'zstd'):
				raise Exception('test module does not contain "zstd" symbol')

				if not hasattr(mod.zstd, 'backend'):
				raise Exception('zstd symbol does not have "backend" attribute; did '
				'you `import zstandard as zstd`?')

				# If `import zstandard` already chose the cffi backend, there is nothing
				# for us to do: we only add the cffi variation if the default backend
				# is the C extension.
				if mod.zstd.backend == 'cffi':
				return cls

				old_env = dict(os.environ)
				os.environ['PYTHON_ZSTANDARD_IMPORT_POLICY'] = 'cffi'
				try:
				try:
				mod_info = imp.find_module('zstandard')
				mod = imp.load_module('zstandard_cffi', *mod_info)
				except ImportError:
				return cls
				finally:
				os.environ.clear()
				os.environ.update(old_env)

				if mod.backend != 'cffi':
				raise Exception('got the zstandard %s backend instead of cffi' % mod.backend)

				# If CFFI version is available, dynamically construct test methods
				# that use it.

				for attr in dir(cls):
				fn = getattr(cls, attr)
				if not inspect.ismethod(fn) and not inspect.isfunction(fn):
				continue

				if not fn.__name__.startswith('test_'):
				continue

				name = '%s_cffi' % fn.__name__

				# Replace the "zstd" symbol with the CFFI module instance. Then copy
				# the function object and install it in a new attribute.
				if isinstance(fn, types.FunctionType):
				globs = dict(fn.__globals__)
				globs['zstd'] = mod
				new_fn = types.FunctionType(fn.__code__, globs, name,
				fn.__defaults__, fn.__closure__)
				new_method = new_fn
				else:
				globs = dict(fn.__func__.func_globals)
				globs['zstd'] = mod
				new_fn = types.FunctionType(fn.__func__.func_code, globs, name,
				fn.__func__.func_defaults,
				fn.__func__.func_closure)
				new_method = types.UnboundMethodType(new_fn, fn.im_self,
				fn.im_class)

				setattr(cls, name, new_method)

				return cls


				class OpCountingBytesIO(io.BytesIO):
				def __init__(self, args, *kwargs):
				self._read_count = 0
				self._write_count = 0
				return super(OpCountingBytesIO, self).__init__(args, *kwargs)

				def read(self, *args):
				self._read_count += 1
				return super(OpCountingBytesIO, self).read(*args)

				def write(self, data):
				self._write_count += 1
				return super(OpCountingBytesIO, self).write(data)


				_source_files = []


				def random_input_data():
				"""Obtain the raw content of source files.

				This is used for generating "random" data to feed into fuzzing, since it is
				faster than random content generation.
				"""
				if _source_files:
				return _source_files

				for root, dirs, files in os.walk(os.path.dirname(__file__)):
				dirs[:] = list(sorted(dirs))
				for f in sorted(files):
				try:
				with open(os.path.join(root, f), 'rb') as fh:
				data = fh.read()
				if data:
				_source_files.append(data)
				except OSError:
				pass

				return _source_files


				def generate_samples():
				inputs = [
				b'foo',
				b'bar',
				b'abcdef',
				b'sometext',
				b'baz',
				]

				samples = []

				for i in range(128):
				samples.append(inputs[i % 5])
				samples.append(inputs[i % 5] * (i + 3))
				samples.append(inputs[-(i % 5)] * (i + 2))

				return samples


				if hypothesis:
				default_settings = hypothesis.settings()
				hypothesis.settings.register_profile('default', default_settings)

				ci_settings = hypothesis.settings(max_examples=2500,
				max_iterations=2500)
				hypothesis.settings.register_profile('ci', ci_settings)

				hypothesis.settings.load_profile(
				os.environ.get('HYPOTHESIS_PROFILE', 'default'))