upstream/mercurial-mirror Files · mercurial/thirdparty/zope/interface/verify.py

exchange: move disabling of rev-branch-cache bundle part out of narrow...

exchange: move disabling of rev-branch-cache bundle part out of narrow I'm attempting to refactor changegroup code in order to better support alternate storage backends. The narrow extension is performing a lot of monkeypatching to this code and it is making it difficult to reason about how everything works. I'm reasonably certain I would be unable to abstract storage without requiring extensive rework of narrow. I believe it is less effort to move narrow code into core so it can be accounted for when changegroup code is refactored. So I'll be doing that. The first part of this is integrating the disabling of the cache:rev-branch-cache bundle2 part into core. This doesn't seem like it is related to changegroup, but narrow's modifications to changegroup are invasive and also require taking its code for bundle generation and exchange into core in order for the changegroup code to work. Differential Revision: https://phab.mercurial-scm.org/D4007

Gregory Szorc - - Load All Authors

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      ##############################################################################

      #

      # Copyright (c) 2001, 2002 Zope Foundation and Contributors.

      # All Rights Reserved.

      #

      # This software is subject to the provisions of the Zope Public License,

      # Version 2.1 (ZPL).  A copy of the ZPL should accompany this distribution.

      # THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED

      # WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED

      # WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS

      # FOR A PARTICULAR PURPOSE.

      #

      ##############################################################################

      """Verify interface implementations

      """

      from __future__ import absolute_import

      from .exceptions import BrokenImplementation, DoesNotImplement

      from .exceptions import BrokenMethodImplementation

      from types import FunctionType, MethodType

      from .interface import fromMethod, fromFunction, Method

      import sys

      # This will be monkey-patched when running under Zope 2, so leave this

      # here:

      MethodTypes = (MethodType, )

      def _verify(iface, candidate, tentative=0, vtype=None):

          """Verify that 'candidate' might correctly implements 'iface'.

          This involves:

            o Making sure the candidate defines all the necessary methods

            o Making sure the methods have the correct signature

            o Making sure the candidate asserts that it implements the interface

          Note that this isn't the same as verifying that the class does

          implement the interface.

          If optional tentative is true, suppress the "is implemented by" test.

          """

          if vtype == 'c':

              tester = iface.implementedBy

          else:

              tester = iface.providedBy

          if not tentative and not tester(candidate):

              raise DoesNotImplement(iface)

          # Here the `desc` is either an `Attribute` or `Method` instance

          for name, desc in iface.namesAndDescriptions(1):

              try:

                  attr = getattr(candidate, name)

              except AttributeError:

                  if (not isinstance(desc, Method)) and vtype == 'c':

                      # We can't verify non-methods on classes, since the

                      # class may provide attrs in it's __init__.

                      continue

                  raise BrokenImplementation(iface, name)

              if not isinstance(desc, Method):

                  # If it's not a method, there's nothing else we can test

                  continue

              if isinstance(attr, FunctionType):

                  if sys.version_info[0] >= 3 and isinstance(candidate, type):

                      # This is an "unbound method" in Python 3.

                      meth = fromFunction(attr, iface, name=name,

                                          imlevel=1)

                  else:

                      # Nope, just a normal function

                      meth = fromFunction(attr, iface, name=name)

              elif (isinstance(attr, MethodTypes)

                    and type(attr.__func__) is FunctionType):

                  meth = fromMethod(attr, iface, name)

              elif isinstance(attr, property) and vtype == 'c':

                  # We without an instance we cannot be sure it's not a

                  # callable.

                  continue

              else:

                  if not callable(attr):

                      raise BrokenMethodImplementation(name, "Not a method")

                  # sigh, it's callable, but we don't know how to introspect it, so

                  # we have to give it a pass.

                  continue

              # Make sure that the required and implemented method signatures are

              # the same.

              desc = desc.getSignatureInfo()

              meth = meth.getSignatureInfo()

              mess = _incompat(desc, meth)

              if mess:

                  raise BrokenMethodImplementation(name, mess)

          return True

      def verifyClass(iface, candidate, tentative=0):

          return _verify(iface, candidate, tentative, vtype='c')

      def verifyObject(iface, candidate, tentative=0):

          return _verify(iface, candidate, tentative, vtype='o')

      def _incompat(required, implemented):

          #if (required['positional'] !=

          #    implemented['positional'][:len(required['positional'])]

          #    and implemented['kwargs'] is None):

          #    return 'imlementation has different argument names'

          if len(implemented['required']) > len(required['required']):

              return 'implementation requires too many arguments'

          if ((len(implemented['positional']) < len(required['positional']))

              and not implemented['varargs']):

              return "implementation doesn't allow enough arguments"

          if required['kwargs'] and not implemented['kwargs']:

              return "implementation doesn't support keyword arguments"

          if required['varargs'] and not implemented['varargs']:

              return "implementation doesn't support variable arguments"

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				##############################################################################
				#
				# Copyright (c) 2001, 2002 Zope Foundation and Contributors.
				# All Rights Reserved.
				#
				# This software is subject to the provisions of the Zope Public License,
				# Version 2.1 (ZPL). A copy of the ZPL should accompany this distribution.
				# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
				# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
				# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
				# FOR A PARTICULAR PURPOSE.
				#
				##############################################################################
				"""Verify interface implementations
				"""
				from __future__ import absolute_import

				from .exceptions import BrokenImplementation, DoesNotImplement
				from .exceptions import BrokenMethodImplementation
				from types import FunctionType, MethodType
				from .interface import fromMethod, fromFunction, Method
				import sys

				# This will be monkey-patched when running under Zope 2, so leave this
				# here:
				MethodTypes = (MethodType, )


				def _verify(iface, candidate, tentative=0, vtype=None):
				"""Verify that 'candidate' might correctly implements 'iface'.

				This involves:

				o Making sure the candidate defines all the necessary methods

				o Making sure the methods have the correct signature

				o Making sure the candidate asserts that it implements the interface

				Note that this isn't the same as verifying that the class does
				implement the interface.

				If optional tentative is true, suppress the "is implemented by" test.
				"""

				if vtype == 'c':
				tester = iface.implementedBy
				else:
				tester = iface.providedBy

				if not tentative and not tester(candidate):
				raise DoesNotImplement(iface)

				# Here the `desc` is either an `Attribute` or `Method` instance
				for name, desc in iface.namesAndDescriptions(1):
				try:
				attr = getattr(candidate, name)
				except AttributeError:
				if (not isinstance(desc, Method)) and vtype == 'c':
				# We can't verify non-methods on classes, since the
				# class may provide attrs in it's __init__.
				continue

				raise BrokenImplementation(iface, name)

				if not isinstance(desc, Method):
				# If it's not a method, there's nothing else we can test
				continue

				if isinstance(attr, FunctionType):
				if sys.version_info[0] >= 3 and isinstance(candidate, type):
				# This is an "unbound method" in Python 3.
				meth = fromFunction(attr, iface, name=name,
				imlevel=1)
				else:
				# Nope, just a normal function
				meth = fromFunction(attr, iface, name=name)
				elif (isinstance(attr, MethodTypes)
				and type(attr.__func__) is FunctionType):
				meth = fromMethod(attr, iface, name)
				elif isinstance(attr, property) and vtype == 'c':
				# We without an instance we cannot be sure it's not a
				# callable.
				continue
				else:
				if not callable(attr):
				raise BrokenMethodImplementation(name, "Not a method")
				# sigh, it's callable, but we don't know how to introspect it, so
				# we have to give it a pass.
				continue

				# Make sure that the required and implemented method signatures are
				# the same.
				desc = desc.getSignatureInfo()
				meth = meth.getSignatureInfo()

				mess = _incompat(desc, meth)
				if mess:
				raise BrokenMethodImplementation(name, mess)

				return True

				def verifyClass(iface, candidate, tentative=0):
				return _verify(iface, candidate, tentative, vtype='c')

				def verifyObject(iface, candidate, tentative=0):
				return _verify(iface, candidate, tentative, vtype='o')

				def _incompat(required, implemented):
				#if (required['positional'] !=
				# implemented['positional'][:len(required['positional'])]
				# and implemented['kwargs'] is None):
				# return 'imlementation has different argument names'
				if len(implemented['required']) > len(required['required']):
				return 'implementation requires too many arguments'
				if ((len(implemented['positional']) < len(required['positional']))
				and not implemented['varargs']):
				return "implementation doesn't allow enough arguments"
				if required['kwargs'] and not implemented['kwargs']:
				return "implementation doesn't support keyword arguments"
				if required['varargs'] and not implemented['varargs']:
				return "implementation doesn't support variable arguments"