Lib/abc.py - platform/external/python/cpython3 - Gitiles

 # Copyright 2007 Google, Inc. All Rights Reserved.
 # Licensed to PSF under a Contributor Agreement.

 """Abstract Base Classes (ABCs) according to PEP 3119."""

 from _weakrefset import WeakSet

 def abstractmethod(funcobj):
     """A decorator indicating abstract methods.

     Requires that the metaclass is ABCMeta or derived from it.  A
     class that has a metaclass derived from ABCMeta cannot be
     instantiated unless all of its abstract methods are overridden.
     The abstract methods can be called using any of the normal
     'super' call mechanisms.

     Usage:

         class C(metaclass=ABCMeta):
             @abstractmethod
             def my_abstract_method(self, ...):
                 ...
     """
     funcobj.__isabstractmethod__ = True
     return funcobj


 class abstractclassmethod(classmethod):
     """A decorator indicating abstract classmethods.

     Similar to abstractmethod.

     Usage:

         class C(metaclass=ABCMeta):
             @abstractclassmethod
             def my_abstract_classmethod(cls, ...):
                 ...
     """

     __isabstractmethod__ = True

     def __init__(self, callable):
         callable.__isabstractmethod__ = True
         super().__init__(callable)


 class abstractstaticmethod(staticmethod):
     """A decorator indicating abstract staticmethods.

     Similar to abstractmethod.

     Usage:

         class C(metaclass=ABCMeta):
             @abstractstaticmethod
             def my_abstract_staticmethod(...):
                 ...
     """

     __isabstractmethod__ = True

     def __init__(self, callable):
         callable.__isabstractmethod__ = True
         super().__init__(callable)


 class abstractproperty(property):
     """A decorator indicating abstract properties.

     Requires that the metaclass is ABCMeta or derived from it.  A
     class that has a metaclass derived from ABCMeta cannot be
     instantiated unless all of its abstract properties are overridden.
     The abstract properties can be called using any of the normal
     'super' call mechanisms.

     Usage:

         class C(metaclass=ABCMeta):
             @abstractproperty
             def my_abstract_property(self):
                 ...

     This defines a read-only property; you can also define a read-write
     abstract property using the 'long' form of property declaration:

         class C(metaclass=ABCMeta):
             def getx(self): ...
             def setx(self, value): ...
             x = abstractproperty(getx, setx)
     """
     __isabstractmethod__ = True


 class ABCMeta(type):

     """Metaclass for defining Abstract Base Classes (ABCs).

     Use this metaclass to create an ABC.  An ABC can be subclassed
     directly, and then acts as a mix-in class.  You can also register
     unrelated concrete classes (even built-in classes) and unrelated
     ABCs as 'virtual subclasses' -- these and their descendants will
     be considered subclasses of the registering ABC by the built-in
     issubclass() function, but the registering ABC won't show up in
     their MRO (Method Resolution Order) nor will method
     implementations defined by the registering ABC be callable (not
     even via super()).

     """

     # A global counter that is incremented each time a class is
     # registered as a virtual subclass of anything.  It forces the
     # negative cache to be cleared before its next use.
     _abc_invalidation_counter = 0

     def __new__(mcls, name, bases, namespace):
         cls = super().__new__(mcls, name, bases, namespace)
         # Compute set of abstract method names
         abstracts = {name
                      for name, value in namespace.items()
                      if getattr(value, "__isabstractmethod__", False)}
         for base in bases:
             for name in getattr(base, "__abstractmethods__", set()):
                 value = getattr(cls, name, None)
                 if getattr(value, "__isabstractmethod__", False):
                     abstracts.add(name)
         cls.__abstractmethods__ = frozenset(abstracts)
         # Set up inheritance registry
         cls._abc_registry = WeakSet()
         cls._abc_cache = WeakSet()
         cls._abc_negative_cache = WeakSet()
         cls._abc_negative_cache_version = ABCMeta._abc_invalidation_counter
         return cls

     def register(cls, subclass):
         """Register a virtual subclass of an ABC."""
         if not isinstance(subclass, type):
             raise TypeError("Can only register classes")
         if issubclass(subclass, cls):
             return  # Already a subclass
         # Subtle: test for cycles *after* testing for "already a subclass";
         # this means we allow X.register(X) and interpret it as a no-op.
         if issubclass(cls, subclass):
             # This would create a cycle, which is bad for the algorithm below
             raise RuntimeError("Refusing to create an inheritance cycle")
         cls._abc_registry.add(subclass)
         ABCMeta._abc_invalidation_counter += 1  # Invalidate negative cache

     def _dump_registry(cls, file=None):
         """Debug helper to print the ABC registry."""
         print("Class: %s.%s" % (cls.__module__, cls.__name__), file=file)
         print("Inv.counter: %s" % ABCMeta._abc_invalidation_counter, file=file)
         for name in sorted(cls.__dict__.keys()):
             if name.startswith("_abc_"):
                 value = getattr(cls, name)
                 print("%s: %r" % (name, value), file=file)

     def __instancecheck__(cls, instance):
         """Override for isinstance(instance, cls)."""
         # Inline the cache checking
         subclass = instance.__class__
         if subclass in cls._abc_cache:
             return True
         subtype = type(instance)
         if subtype is subclass:
             if (cls._abc_negative_cache_version ==
                 ABCMeta._abc_invalidation_counter and
                 subclass in cls._abc_negative_cache):
                 return False
             # Fall back to the subclass check.
             return cls.__subclasscheck__(subclass)
         return any(cls.__subclasscheck__(c) for c in {subclass, subtype})

     def __subclasscheck__(cls, subclass):
         """Override for issubclass(subclass, cls)."""
         # Check cache
         if subclass in cls._abc_cache:
             return True
         # Check negative cache; may have to invalidate
         if cls._abc_negative_cache_version < ABCMeta._abc_invalidation_counter:
             # Invalidate the negative cache
             cls._abc_negative_cache = WeakSet()
             cls._abc_negative_cache_version = ABCMeta._abc_invalidation_counter
         elif subclass in cls._abc_negative_cache:
             return False
         # Check the subclass hook
         ok = cls.__subclasshook__(subclass)
         if ok is not NotImplemented:
             assert isinstance(ok, bool)
             if ok:
                 cls._abc_cache.add(subclass)
             else:
                 cls._abc_negative_cache.add(subclass)
             return ok
         # Check if it's a direct subclass
         if cls in getattr(subclass, '__mro__', ()):
             cls._abc_cache.add(subclass)
             return True
         # Check if it's a subclass of a registered class (recursive)
         for rcls in cls._abc_registry:
             if issubclass(subclass, rcls):
                 cls._abc_cache.add(subclass)
                 return True
         # Check if it's a subclass of a subclass (recursive)
         for scls in cls.__subclasses__():
             if issubclass(subclass, scls):
                 cls._abc_cache.add(subclass)
                 return True
         # No dice; update negative cache
         cls._abc_negative_cache.add(subclass)
         return False
	# Copyright 2007 Google, Inc. All Rights Reserved.
	# Licensed to PSF under a Contributor Agreement.

	"""Abstract Base Classes (ABCs) according to PEP 3119."""

	from _weakrefset import WeakSet

	def abstractmethod(funcobj):
	"""A decorator indicating abstract methods.

	Requires that the metaclass is ABCMeta or derived from it. A
	class that has a metaclass derived from ABCMeta cannot be
	instantiated unless all of its abstract methods are overridden.
	The abstract methods can be called using any of the normal
	'super' call mechanisms.

	Usage:

	class C(metaclass=ABCMeta):
	@abstractmethod
	def my_abstract_method(self, ...):
	...
	"""
	funcobj.__isabstractmethod__ = True
	return funcobj


	class abstractclassmethod(classmethod):
	"""A decorator indicating abstract classmethods.

	Similar to abstractmethod.

	Usage:

	class C(metaclass=ABCMeta):
	@abstractclassmethod
	def my_abstract_classmethod(cls, ...):
	...
	"""

	__isabstractmethod__ = True

	def __init__(self, callable):
	callable.__isabstractmethod__ = True
	super().__init__(callable)


	class abstractstaticmethod(staticmethod):
	"""A decorator indicating abstract staticmethods.

	Similar to abstractmethod.

	Usage:

	class C(metaclass=ABCMeta):
	@abstractstaticmethod
	def my_abstract_staticmethod(...):
	...
	"""

	__isabstractmethod__ = True

	def __init__(self, callable):
	callable.__isabstractmethod__ = True
	super().__init__(callable)


	class abstractproperty(property):
	"""A decorator indicating abstract properties.

	Requires that the metaclass is ABCMeta or derived from it. A
	class that has a metaclass derived from ABCMeta cannot be
	instantiated unless all of its abstract properties are overridden.
	The abstract properties can be called using any of the normal
	'super' call mechanisms.

	Usage:

	class C(metaclass=ABCMeta):
	@abstractproperty
	def my_abstract_property(self):
	...

	This defines a read-only property; you can also define a read-write
	abstract property using the 'long' form of property declaration:

	class C(metaclass=ABCMeta):
	def getx(self): ...
	def setx(self, value): ...
	x = abstractproperty(getx, setx)
	"""
	__isabstractmethod__ = True


	class ABCMeta(type):

	"""Metaclass for defining Abstract Base Classes (ABCs).

	Use this metaclass to create an ABC. An ABC can be subclassed
	directly, and then acts as a mix-in class. You can also register
	unrelated concrete classes (even built-in classes) and unrelated
	ABCs as 'virtual subclasses' -- these and their descendants will
	be considered subclasses of the registering ABC by the built-in
	issubclass() function, but the registering ABC won't show up in
	their MRO (Method Resolution Order) nor will method
	implementations defined by the registering ABC be callable (not
	even via super()).

	"""

	# A global counter that is incremented each time a class is
	# registered as a virtual subclass of anything. It forces the
	# negative cache to be cleared before its next use.
	_abc_invalidation_counter = 0

	def __new__(mcls, name, bases, namespace):
	cls = super().__new__(mcls, name, bases, namespace)
	# Compute set of abstract method names
	abstracts = {name
	for name, value in namespace.items()
	if getattr(value, "__isabstractmethod__", False)}
	for base in bases:
	for name in getattr(base, "__abstractmethods__", set()):
	value = getattr(cls, name, None)
	if getattr(value, "__isabstractmethod__", False):
	abstracts.add(name)
	cls.__abstractmethods__ = frozenset(abstracts)
	# Set up inheritance registry
	cls._abc_registry = WeakSet()
	cls._abc_cache = WeakSet()
	cls._abc_negative_cache = WeakSet()
	cls._abc_negative_cache_version = ABCMeta._abc_invalidation_counter
	return cls

	def register(cls, subclass):
	"""Register a virtual subclass of an ABC."""
	if not isinstance(subclass, type):
	raise TypeError("Can only register classes")
	if issubclass(subclass, cls):
	return # Already a subclass
	# Subtle: test for cycles after testing for "already a subclass";
	# this means we allow X.register(X) and interpret it as a no-op.
	if issubclass(cls, subclass):
	# This would create a cycle, which is bad for the algorithm below
	raise RuntimeError("Refusing to create an inheritance cycle")
	cls._abc_registry.add(subclass)
	ABCMeta._abc_invalidation_counter += 1 # Invalidate negative cache

	def _dump_registry(cls, file=None):
	"""Debug helper to print the ABC registry."""
	print("Class: %s.%s" % (cls.__module__, cls.__name__), file=file)
	print("Inv.counter: %s" % ABCMeta._abc_invalidation_counter, file=file)
	for name in sorted(cls.__dict__.keys()):
	if name.startswith("_abc_"):
	value = getattr(cls, name)
	print("%s: %r" % (name, value), file=file)

	def __instancecheck__(cls, instance):
	"""Override for isinstance(instance, cls)."""
	# Inline the cache checking
	subclass = instance.__class__
	if subclass in cls._abc_cache:
	return True
	subtype = type(instance)
	if subtype is subclass:
	if (cls._abc_negative_cache_version ==
	ABCMeta._abc_invalidation_counter and
	subclass in cls._abc_negative_cache):
	return False
	# Fall back to the subclass check.
	return cls.__subclasscheck__(subclass)
	return any(cls.__subclasscheck__(c) for c in {subclass, subtype})

	def __subclasscheck__(cls, subclass):
	"""Override for issubclass(subclass, cls)."""
	# Check cache
	if subclass in cls._abc_cache:
	return True
	# Check negative cache; may have to invalidate
	if cls._abc_negative_cache_version < ABCMeta._abc_invalidation_counter:
	# Invalidate the negative cache
	cls._abc_negative_cache = WeakSet()
	cls._abc_negative_cache_version = ABCMeta._abc_invalidation_counter
	elif subclass in cls._abc_negative_cache:
	return False
	# Check the subclass hook
	ok = cls.__subclasshook__(subclass)
	if ok is not NotImplemented:
	assert isinstance(ok, bool)
	if ok:
	cls._abc_cache.add(subclass)
	else:
	cls._abc_negative_cache.add(subclass)
	return ok
	# Check if it's a direct subclass
	if cls in getattr(subclass, '__mro__', ()):
	cls._abc_cache.add(subclass)
	return True
	# Check if it's a subclass of a registered class (recursive)
	for rcls in cls._abc_registry:
	if issubclass(subclass, rcls):
	cls._abc_cache.add(subclass)
	return True
	# Check if it's a subclass of a subclass (recursive)
	for scls in cls.__subclasses__():
	if issubclass(subclass, scls):
	cls._abc_cache.add(subclass)
	return True
	# No dice; update negative cache
	cls._abc_negative_cache.add(subclass)
	return False