declarations.py
931 lines
| 30.4 KiB
| text/x-python
|
PythonLexer
Gregory Szorc
|
r37193 | ############################################################################## | ||
# Copyright (c) 2003 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. | ||||
############################################################################## | ||||
"""Implementation of interface declarations | ||||
There are three flavors of declarations: | ||||
- Declarations are used to simply name declared interfaces. | ||||
- ImplementsDeclarations are used to express the interfaces that a | ||||
class implements (that instances of the class provides). | ||||
Implements specifications support inheriting interfaces. | ||||
- ProvidesDeclarations are used to express interfaces directly | ||||
provided by objects. | ||||
""" | ||||
Gregory Szorc
|
r37195 | from __future__ import absolute_import | ||
Gregory Szorc
|
r37193 | __docformat__ = 'restructuredtext' | ||
import sys | ||||
from types import FunctionType | ||||
from types import MethodType | ||||
from types import ModuleType | ||||
import weakref | ||||
Gregory Szorc
|
r37195 | from .advice import addClassAdvisor | ||
from .interface import InterfaceClass | ||||
from .interface import SpecificationBase | ||||
from .interface import Specification | ||||
from ._compat import CLASS_TYPES as DescriptorAwareMetaClasses | ||||
from ._compat import PYTHON3 | ||||
Gregory Szorc
|
r37193 | |||
# Registry of class-implementation specifications | ||||
BuiltinImplementationSpecifications = {} | ||||
_ADVICE_ERROR = ('Class advice impossible in Python3. ' | ||||
'Use the @%s class decorator instead.') | ||||
_ADVICE_WARNING = ('The %s API is deprecated, and will not work in Python3 ' | ||||
'Use the @%s class decorator instead.') | ||||
class named(object): | ||||
def __init__(self, name): | ||||
self.name = name | ||||
def __call__(self, ob): | ||||
ob.__component_name__ = self.name | ||||
return ob | ||||
class Declaration(Specification): | ||||
"""Interface declarations""" | ||||
def __init__(self, *interfaces): | ||||
Specification.__init__(self, _normalizeargs(interfaces)) | ||||
def changed(self, originally_changed): | ||||
Specification.changed(self, originally_changed) | ||||
try: | ||||
del self._v_attrs | ||||
except AttributeError: | ||||
pass | ||||
def __contains__(self, interface): | ||||
"""Test whether an interface is in the specification | ||||
""" | ||||
return self.extends(interface) and interface in self.interfaces() | ||||
def __iter__(self): | ||||
"""Return an iterator for the interfaces in the specification | ||||
""" | ||||
return self.interfaces() | ||||
def flattened(self): | ||||
"""Return an iterator of all included and extended interfaces | ||||
""" | ||||
return iter(self.__iro__) | ||||
def __sub__(self, other): | ||||
"""Remove interfaces from a specification | ||||
""" | ||||
return Declaration( | ||||
*[i for i in self.interfaces() | ||||
if not [j for j in other.interfaces() | ||||
if i.extends(j, 0)] | ||||
] | ||||
) | ||||
def __add__(self, other): | ||||
"""Add two specifications or a specification and an interface | ||||
""" | ||||
seen = {} | ||||
result = [] | ||||
for i in self.interfaces(): | ||||
seen[i] = 1 | ||||
result.append(i) | ||||
for i in other.interfaces(): | ||||
if i not in seen: | ||||
seen[i] = 1 | ||||
result.append(i) | ||||
return Declaration(*result) | ||||
__radd__ = __add__ | ||||
############################################################################## | ||||
# | ||||
# Implementation specifications | ||||
# | ||||
# These specify interfaces implemented by instances of classes | ||||
class Implements(Declaration): | ||||
# class whose specification should be used as additional base | ||||
inherit = None | ||||
# interfaces actually declared for a class | ||||
declared = () | ||||
__name__ = '?' | ||||
@classmethod | ||||
def named(cls, name, *interfaces): | ||||
# Implementation method: Produce an Implements interface with | ||||
# a fully fleshed out __name__ before calling the constructor, which | ||||
# sets bases to the given interfaces and which may pass this object to | ||||
# other objects (e.g., to adjust dependents). If they're sorting or comparing | ||||
# by name, this needs to be set. | ||||
inst = cls.__new__(cls) | ||||
inst.__name__ = name | ||||
inst.__init__(*interfaces) | ||||
return inst | ||||
def __repr__(self): | ||||
return '<implementedBy %s>' % (self.__name__) | ||||
def __reduce__(self): | ||||
return implementedBy, (self.inherit, ) | ||||
def __cmp(self, other): | ||||
# Yes, I did mean to name this __cmp, rather than __cmp__. | ||||
# It is a private method used by __lt__ and __gt__. | ||||
# This is based on, and compatible with, InterfaceClass. | ||||
# (The two must be mutually comparable to be able to work in e.g., BTrees.) | ||||
# Instances of this class generally don't have a __module__ other than | ||||
# `zope.interface.declarations`, whereas they *do* have a __name__ that is the | ||||
# fully qualified name of the object they are representing. | ||||
# Note, though, that equality and hashing are still identity based. This | ||||
# accounts for things like nested objects that have the same name (typically | ||||
# only in tests) and is consistent with pickling. As far as comparisons to InterfaceClass | ||||
# goes, we'll never have equal name and module to those, so we're still consistent there. | ||||
# Instances of this class are essentially intended to be unique and are | ||||
# heavily cached (note how our __reduce__ handles this) so having identity | ||||
# based hash and eq should also work. | ||||
if other is None: | ||||
return -1 | ||||
n1 = (self.__name__, self.__module__) | ||||
n2 = (getattr(other, '__name__', ''), getattr(other, '__module__', '')) | ||||
# This spelling works under Python3, which doesn't have cmp(). | ||||
return (n1 > n2) - (n1 < n2) | ||||
def __hash__(self): | ||||
return Declaration.__hash__(self) | ||||
# We want equality to be based on identity. However, we can't actually | ||||
# implement __eq__/__ne__ to do this because sometimes we get wrapped in a proxy. | ||||
# We need to let the proxy types implement these methods so they can handle unwrapping | ||||
# and then rely on: (1) the interpreter automatically changing `implements == proxy` into | ||||
# `proxy == implements` (which will call proxy.__eq__ to do the unwrapping) and then | ||||
# (2) the default equality semantics being identity based. | ||||
def __lt__(self, other): | ||||
c = self.__cmp(other) | ||||
return c < 0 | ||||
def __le__(self, other): | ||||
c = self.__cmp(other) | ||||
return c <= 0 | ||||
def __gt__(self, other): | ||||
c = self.__cmp(other) | ||||
return c > 0 | ||||
def __ge__(self, other): | ||||
c = self.__cmp(other) | ||||
return c >= 0 | ||||
def _implements_name(ob): | ||||
# Return the __name__ attribute to be used by its __implemented__ | ||||
# property. | ||||
# This must be stable for the "same" object across processes | ||||
# because it is used for sorting. It needn't be unique, though, in cases | ||||
# like nested classes named Foo created by different functions, because | ||||
# equality and hashing is still based on identity. | ||||
# It might be nice to use __qualname__ on Python 3, but that would produce | ||||
# different values between Py2 and Py3. | ||||
return (getattr(ob, '__module__', '?') or '?') + \ | ||||
'.' + (getattr(ob, '__name__', '?') or '?') | ||||
def implementedByFallback(cls): | ||||
"""Return the interfaces implemented for a class' instances | ||||
The value returned is an IDeclaration. | ||||
""" | ||||
try: | ||||
spec = cls.__dict__.get('__implemented__') | ||||
except AttributeError: | ||||
# we can't get the class dict. This is probably due to a | ||||
# security proxy. If this is the case, then probably no | ||||
# descriptor was installed for the class. | ||||
# We don't want to depend directly on zope.security in | ||||
# zope.interface, but we'll try to make reasonable | ||||
# accommodations in an indirect way. | ||||
# We'll check to see if there's an implements: | ||||
spec = getattr(cls, '__implemented__', None) | ||||
if spec is None: | ||||
# There's no spec stred in the class. Maybe its a builtin: | ||||
spec = BuiltinImplementationSpecifications.get(cls) | ||||
if spec is not None: | ||||
return spec | ||||
return _empty | ||||
if spec.__class__ == Implements: | ||||
# we defaulted to _empty or there was a spec. Good enough. | ||||
# Return it. | ||||
return spec | ||||
# TODO: need old style __implements__ compatibility? | ||||
# Hm, there's an __implemented__, but it's not a spec. Must be | ||||
# an old-style declaration. Just compute a spec for it | ||||
return Declaration(*_normalizeargs((spec, ))) | ||||
if isinstance(spec, Implements): | ||||
return spec | ||||
if spec is None: | ||||
spec = BuiltinImplementationSpecifications.get(cls) | ||||
if spec is not None: | ||||
return spec | ||||
# TODO: need old style __implements__ compatibility? | ||||
spec_name = _implements_name(cls) | ||||
if spec is not None: | ||||
# old-style __implemented__ = foo declaration | ||||
spec = (spec, ) # tuplefy, as it might be just an int | ||||
spec = Implements.named(spec_name, *_normalizeargs(spec)) | ||||
spec.inherit = None # old-style implies no inherit | ||||
del cls.__implemented__ # get rid of the old-style declaration | ||||
else: | ||||
try: | ||||
bases = cls.__bases__ | ||||
except AttributeError: | ||||
if not callable(cls): | ||||
raise TypeError("ImplementedBy called for non-factory", cls) | ||||
bases = () | ||||
spec = Implements.named(spec_name, *[implementedBy(c) for c in bases]) | ||||
spec.inherit = cls | ||||
try: | ||||
cls.__implemented__ = spec | ||||
if not hasattr(cls, '__providedBy__'): | ||||
cls.__providedBy__ = objectSpecificationDescriptor | ||||
if (isinstance(cls, DescriptorAwareMetaClasses) | ||||
and | ||||
'__provides__' not in cls.__dict__): | ||||
# Make sure we get a __provides__ descriptor | ||||
cls.__provides__ = ClassProvides( | ||||
cls, | ||||
getattr(cls, '__class__', type(cls)), | ||||
) | ||||
except TypeError: | ||||
if not isinstance(cls, type): | ||||
raise TypeError("ImplementedBy called for non-type", cls) | ||||
BuiltinImplementationSpecifications[cls] = spec | ||||
return spec | ||||
implementedBy = implementedByFallback | ||||
def classImplementsOnly(cls, *interfaces): | ||||
"""Declare the only interfaces implemented by instances of a class | ||||
The arguments after the class are one or more interfaces or interface | ||||
specifications (``IDeclaration`` objects). | ||||
The interfaces given (including the interfaces in the specifications) | ||||
replace any previous declarations. | ||||
""" | ||||
spec = implementedBy(cls) | ||||
spec.declared = () | ||||
spec.inherit = None | ||||
classImplements(cls, *interfaces) | ||||
def classImplements(cls, *interfaces): | ||||
"""Declare additional interfaces implemented for instances of a class | ||||
The arguments after the class are one or more interfaces or | ||||
interface specifications (``IDeclaration`` objects). | ||||
The interfaces given (including the interfaces in the specifications) | ||||
are added to any interfaces previously declared. | ||||
""" | ||||
spec = implementedBy(cls) | ||||
spec.declared += tuple(_normalizeargs(interfaces)) | ||||
# compute the bases | ||||
bases = [] | ||||
seen = {} | ||||
for b in spec.declared: | ||||
if b not in seen: | ||||
seen[b] = 1 | ||||
bases.append(b) | ||||
if spec.inherit is not None: | ||||
for c in spec.inherit.__bases__: | ||||
b = implementedBy(c) | ||||
if b not in seen: | ||||
seen[b] = 1 | ||||
bases.append(b) | ||||
spec.__bases__ = tuple(bases) | ||||
def _implements_advice(cls): | ||||
interfaces, classImplements = cls.__dict__['__implements_advice_data__'] | ||||
del cls.__implements_advice_data__ | ||||
classImplements(cls, *interfaces) | ||||
return cls | ||||
class implementer: | ||||
"""Declare the interfaces implemented by instances of a class. | ||||
This function is called as a class decorator. | ||||
The arguments are one or more interfaces or interface | ||||
specifications (IDeclaration objects). | ||||
The interfaces given (including the interfaces in the | ||||
specifications) are added to any interfaces previously | ||||
declared. | ||||
Previous declarations include declarations for base classes | ||||
unless implementsOnly was used. | ||||
This function is provided for convenience. It provides a more | ||||
convenient way to call classImplements. For example:: | ||||
@implementer(I1) | ||||
class C(object): | ||||
pass | ||||
is equivalent to calling:: | ||||
classImplements(C, I1) | ||||
after the class has been created. | ||||
""" | ||||
def __init__(self, *interfaces): | ||||
self.interfaces = interfaces | ||||
def __call__(self, ob): | ||||
if isinstance(ob, DescriptorAwareMetaClasses): | ||||
classImplements(ob, *self.interfaces) | ||||
return ob | ||||
spec_name = _implements_name(ob) | ||||
spec = Implements.named(spec_name, *self.interfaces) | ||||
try: | ||||
ob.__implemented__ = spec | ||||
except AttributeError: | ||||
raise TypeError("Can't declare implements", ob) | ||||
return ob | ||||
class implementer_only: | ||||
"""Declare the only interfaces implemented by instances of a class | ||||
This function is called as a class decorator. | ||||
The arguments are one or more interfaces or interface | ||||
specifications (IDeclaration objects). | ||||
Previous declarations including declarations for base classes | ||||
are overridden. | ||||
This function is provided for convenience. It provides a more | ||||
convenient way to call classImplementsOnly. For example:: | ||||
@implementer_only(I1) | ||||
class C(object): pass | ||||
is equivalent to calling:: | ||||
classImplementsOnly(I1) | ||||
after the class has been created. | ||||
""" | ||||
def __init__(self, *interfaces): | ||||
self.interfaces = interfaces | ||||
def __call__(self, ob): | ||||
if isinstance(ob, (FunctionType, MethodType)): | ||||
# XXX Does this decorator make sense for anything but classes? | ||||
# I don't think so. There can be no inheritance of interfaces | ||||
# on a method pr function.... | ||||
raise ValueError('The implementer_only decorator is not ' | ||||
'supported for methods or functions.') | ||||
else: | ||||
# Assume it's a class: | ||||
classImplementsOnly(ob, *self.interfaces) | ||||
return ob | ||||
def _implements(name, interfaces, classImplements): | ||||
# This entire approach is invalid under Py3K. Don't even try to fix | ||||
# the coverage for this block there. :( | ||||
frame = sys._getframe(2) | ||||
locals = frame.f_locals | ||||
# Try to make sure we were called from a class def. In 2.2.0 we can't | ||||
# check for __module__ since it doesn't seem to be added to the locals | ||||
# until later on. | ||||
if locals is frame.f_globals or '__module__' not in locals: | ||||
raise TypeError(name+" can be used only from a class definition.") | ||||
if '__implements_advice_data__' in locals: | ||||
raise TypeError(name+" can be used only once in a class definition.") | ||||
locals['__implements_advice_data__'] = interfaces, classImplements | ||||
addClassAdvisor(_implements_advice, depth=3) | ||||
def implements(*interfaces): | ||||
"""Declare interfaces implemented by instances of a class | ||||
This function is called in a class definition. | ||||
The arguments are one or more interfaces or interface | ||||
specifications (IDeclaration objects). | ||||
The interfaces given (including the interfaces in the | ||||
specifications) are added to any interfaces previously | ||||
declared. | ||||
Previous declarations include declarations for base classes | ||||
unless implementsOnly was used. | ||||
This function is provided for convenience. It provides a more | ||||
convenient way to call classImplements. For example:: | ||||
implements(I1) | ||||
is equivalent to calling:: | ||||
classImplements(C, I1) | ||||
after the class has been created. | ||||
""" | ||||
# This entire approach is invalid under Py3K. Don't even try to fix | ||||
# the coverage for this block there. :( | ||||
if PYTHON3: | ||||
raise TypeError(_ADVICE_ERROR % 'implementer') | ||||
_implements("implements", interfaces, classImplements) | ||||
def implementsOnly(*interfaces): | ||||
"""Declare the only interfaces implemented by instances of a class | ||||
This function is called in a class definition. | ||||
The arguments are one or more interfaces or interface | ||||
specifications (IDeclaration objects). | ||||
Previous declarations including declarations for base classes | ||||
are overridden. | ||||
This function is provided for convenience. It provides a more | ||||
convenient way to call classImplementsOnly. For example:: | ||||
implementsOnly(I1) | ||||
is equivalent to calling:: | ||||
classImplementsOnly(I1) | ||||
after the class has been created. | ||||
""" | ||||
# This entire approach is invalid under Py3K. Don't even try to fix | ||||
# the coverage for this block there. :( | ||||
if PYTHON3: | ||||
raise TypeError(_ADVICE_ERROR % 'implementer_only') | ||||
_implements("implementsOnly", interfaces, classImplementsOnly) | ||||
############################################################################## | ||||
# | ||||
# Instance declarations | ||||
class Provides(Declaration): # Really named ProvidesClass | ||||
"""Implement __provides__, the instance-specific specification | ||||
When an object is pickled, we pickle the interfaces that it implements. | ||||
""" | ||||
def __init__(self, cls, *interfaces): | ||||
self.__args = (cls, ) + interfaces | ||||
self._cls = cls | ||||
Declaration.__init__(self, *(interfaces + (implementedBy(cls), ))) | ||||
def __reduce__(self): | ||||
return Provides, self.__args | ||||
__module__ = 'zope.interface' | ||||
def __get__(self, inst, cls): | ||||
"""Make sure that a class __provides__ doesn't leak to an instance | ||||
""" | ||||
if inst is None and cls is self._cls: | ||||
# We were accessed through a class, so we are the class' | ||||
# provides spec. Just return this object, but only if we are | ||||
# being called on the same class that we were defined for: | ||||
return self | ||||
raise AttributeError('__provides__') | ||||
ProvidesClass = Provides | ||||
# Registry of instance declarations | ||||
# This is a memory optimization to allow objects to share specifications. | ||||
InstanceDeclarations = weakref.WeakValueDictionary() | ||||
def Provides(*interfaces): | ||||
"""Cache instance declarations | ||||
Instance declarations are shared among instances that have the same | ||||
declaration. The declarations are cached in a weak value dictionary. | ||||
""" | ||||
spec = InstanceDeclarations.get(interfaces) | ||||
if spec is None: | ||||
spec = ProvidesClass(*interfaces) | ||||
InstanceDeclarations[interfaces] = spec | ||||
return spec | ||||
Provides.__safe_for_unpickling__ = True | ||||
def directlyProvides(object, *interfaces): | ||||
"""Declare interfaces declared directly for an object | ||||
The arguments after the object are one or more interfaces or interface | ||||
specifications (``IDeclaration`` objects). | ||||
The interfaces given (including the interfaces in the specifications) | ||||
replace interfaces previously declared for the object. | ||||
""" | ||||
cls = getattr(object, '__class__', None) | ||||
if cls is not None and getattr(cls, '__class__', None) is cls: | ||||
# It's a meta class (well, at least it it could be an extension class) | ||||
# Note that we can't get here from Py3k tests: there is no normal | ||||
# class which isn't descriptor aware. | ||||
if not isinstance(object, | ||||
DescriptorAwareMetaClasses): | ||||
raise TypeError("Attempt to make an interface declaration on a " | ||||
"non-descriptor-aware class") | ||||
interfaces = _normalizeargs(interfaces) | ||||
if cls is None: | ||||
cls = type(object) | ||||
issub = False | ||||
for damc in DescriptorAwareMetaClasses: | ||||
if issubclass(cls, damc): | ||||
issub = True | ||||
break | ||||
if issub: | ||||
# we have a class or type. We'll use a special descriptor | ||||
# that provides some extra caching | ||||
object.__provides__ = ClassProvides(object, cls, *interfaces) | ||||
else: | ||||
object.__provides__ = Provides(cls, *interfaces) | ||||
def alsoProvides(object, *interfaces): | ||||
"""Declare interfaces declared directly for an object | ||||
The arguments after the object are one or more interfaces or interface | ||||
specifications (``IDeclaration`` objects). | ||||
The interfaces given (including the interfaces in the specifications) are | ||||
added to the interfaces previously declared for the object. | ||||
""" | ||||
directlyProvides(object, directlyProvidedBy(object), *interfaces) | ||||
def noLongerProvides(object, interface): | ||||
""" Removes a directly provided interface from an object. | ||||
""" | ||||
directlyProvides(object, directlyProvidedBy(object) - interface) | ||||
if interface.providedBy(object): | ||||
raise ValueError("Can only remove directly provided interfaces.") | ||||
class ClassProvidesBaseFallback(object): | ||||
def __get__(self, inst, cls): | ||||
if cls is self._cls: | ||||
# We only work if called on the class we were defined for | ||||
if inst is None: | ||||
# We were accessed through a class, so we are the class' | ||||
# provides spec. Just return this object as is: | ||||
return self | ||||
return self._implements | ||||
raise AttributeError('__provides__') | ||||
ClassProvidesBasePy = ClassProvidesBaseFallback # BBB | ||||
ClassProvidesBase = ClassProvidesBaseFallback | ||||
# Try to get C base: | ||||
try: | ||||
Gregory Szorc
|
r37195 | from . import _zope_interface_coptimizations | ||
Gregory Szorc
|
r37193 | except ImportError: | ||
pass | ||||
else: | ||||
Gregory Szorc
|
r37195 | from ._zope_interface_coptimizations import ClassProvidesBase | ||
Gregory Szorc
|
r37193 | |||
class ClassProvides(Declaration, ClassProvidesBase): | ||||
"""Special descriptor for class __provides__ | ||||
The descriptor caches the implementedBy info, so that | ||||
we can get declarations for objects without instance-specific | ||||
interfaces a bit quicker. | ||||
""" | ||||
def __init__(self, cls, metacls, *interfaces): | ||||
self._cls = cls | ||||
self._implements = implementedBy(cls) | ||||
self.__args = (cls, metacls, ) + interfaces | ||||
Declaration.__init__(self, *(interfaces + (implementedBy(metacls), ))) | ||||
def __reduce__(self): | ||||
return self.__class__, self.__args | ||||
# Copy base-class method for speed | ||||
__get__ = ClassProvidesBase.__get__ | ||||
def directlyProvidedBy(object): | ||||
"""Return the interfaces directly provided by the given object | ||||
The value returned is an ``IDeclaration``. | ||||
""" | ||||
provides = getattr(object, "__provides__", None) | ||||
if (provides is None # no spec | ||||
or | ||||
# We might have gotten the implements spec, as an | ||||
# optimization. If so, it's like having only one base, that we | ||||
# lop off to exclude class-supplied declarations: | ||||
isinstance(provides, Implements) | ||||
): | ||||
return _empty | ||||
# Strip off the class part of the spec: | ||||
return Declaration(provides.__bases__[:-1]) | ||||
def classProvides(*interfaces): | ||||
"""Declare interfaces provided directly by a class | ||||
This function is called in a class definition. | ||||
The arguments are one or more interfaces or interface specifications | ||||
(``IDeclaration`` objects). | ||||
The given interfaces (including the interfaces in the specifications) | ||||
are used to create the class's direct-object interface specification. | ||||
An error will be raised if the module class has an direct interface | ||||
specification. In other words, it is an error to call this function more | ||||
than once in a class definition. | ||||
Note that the given interfaces have nothing to do with the interfaces | ||||
implemented by instances of the class. | ||||
This function is provided for convenience. It provides a more convenient | ||||
way to call directlyProvides for a class. For example:: | ||||
classProvides(I1) | ||||
is equivalent to calling:: | ||||
directlyProvides(theclass, I1) | ||||
after the class has been created. | ||||
""" | ||||
# This entire approach is invalid under Py3K. Don't even try to fix | ||||
# the coverage for this block there. :( | ||||
if PYTHON3: | ||||
raise TypeError(_ADVICE_ERROR % 'provider') | ||||
frame = sys._getframe(1) | ||||
locals = frame.f_locals | ||||
# Try to make sure we were called from a class def | ||||
if (locals is frame.f_globals) or ('__module__' not in locals): | ||||
raise TypeError("classProvides can be used only from a " | ||||
"class definition.") | ||||
if '__provides__' in locals: | ||||
raise TypeError( | ||||
"classProvides can only be used once in a class definition.") | ||||
locals["__provides__"] = _normalizeargs(interfaces) | ||||
addClassAdvisor(_classProvides_advice, depth=2) | ||||
def _classProvides_advice(cls): | ||||
# This entire approach is invalid under Py3K. Don't even try to fix | ||||
# the coverage for this block there. :( | ||||
interfaces = cls.__dict__['__provides__'] | ||||
del cls.__provides__ | ||||
directlyProvides(cls, *interfaces) | ||||
return cls | ||||
class provider: | ||||
"""Class decorator version of classProvides""" | ||||
def __init__(self, *interfaces): | ||||
self.interfaces = interfaces | ||||
def __call__(self, ob): | ||||
directlyProvides(ob, *self.interfaces) | ||||
return ob | ||||
def moduleProvides(*interfaces): | ||||
"""Declare interfaces provided by a module | ||||
This function is used in a module definition. | ||||
The arguments are one or more interfaces or interface specifications | ||||
(``IDeclaration`` objects). | ||||
The given interfaces (including the interfaces in the specifications) are | ||||
used to create the module's direct-object interface specification. An | ||||
error will be raised if the module already has an interface specification. | ||||
In other words, it is an error to call this function more than once in a | ||||
module definition. | ||||
This function is provided for convenience. It provides a more convenient | ||||
way to call directlyProvides. For example:: | ||||
moduleImplements(I1) | ||||
is equivalent to:: | ||||
directlyProvides(sys.modules[__name__], I1) | ||||
""" | ||||
frame = sys._getframe(1) | ||||
locals = frame.f_locals | ||||
# Try to make sure we were called from a class def | ||||
if (locals is not frame.f_globals) or ('__name__' not in locals): | ||||
raise TypeError( | ||||
"moduleProvides can only be used from a module definition.") | ||||
if '__provides__' in locals: | ||||
raise TypeError( | ||||
"moduleProvides can only be used once in a module definition.") | ||||
locals["__provides__"] = Provides(ModuleType, | ||||
*_normalizeargs(interfaces)) | ||||
############################################################################## | ||||
# | ||||
# Declaration querying support | ||||
# XXX: is this a fossil? Nobody calls it, no unit tests exercise it, no | ||||
# doctests import it, and the package __init__ doesn't import it. | ||||
def ObjectSpecification(direct, cls): | ||||
"""Provide object specifications | ||||
These combine information for the object and for it's classes. | ||||
""" | ||||
return Provides(cls, direct) # pragma: no cover fossil | ||||
def getObjectSpecificationFallback(ob): | ||||
provides = getattr(ob, '__provides__', None) | ||||
if provides is not None: | ||||
if isinstance(provides, SpecificationBase): | ||||
return provides | ||||
try: | ||||
cls = ob.__class__ | ||||
except AttributeError: | ||||
# We can't get the class, so just consider provides | ||||
return _empty | ||||
return implementedBy(cls) | ||||
getObjectSpecification = getObjectSpecificationFallback | ||||
def providedByFallback(ob): | ||||
# Here we have either a special object, an old-style declaration | ||||
# or a descriptor | ||||
# Try to get __providedBy__ | ||||
try: | ||||
r = ob.__providedBy__ | ||||
except AttributeError: | ||||
# Not set yet. Fall back to lower-level thing that computes it | ||||
return getObjectSpecification(ob) | ||||
try: | ||||
# We might have gotten a descriptor from an instance of a | ||||
# class (like an ExtensionClass) that doesn't support | ||||
# descriptors. We'll make sure we got one by trying to get | ||||
# the only attribute, which all specs have. | ||||
r.extends | ||||
except AttributeError: | ||||
# The object's class doesn't understand descriptors. | ||||
# Sigh. We need to get an object descriptor, but we have to be | ||||
# careful. We want to use the instance's __provides__, if | ||||
# there is one, but only if it didn't come from the class. | ||||
try: | ||||
r = ob.__provides__ | ||||
except AttributeError: | ||||
# No __provides__, so just fall back to implementedBy | ||||
return implementedBy(ob.__class__) | ||||
# We need to make sure we got the __provides__ from the | ||||
# instance. We'll do this by making sure we don't get the same | ||||
# thing from the class: | ||||
try: | ||||
cp = ob.__class__.__provides__ | ||||
except AttributeError: | ||||
# The ob doesn't have a class or the class has no | ||||
# provides, assume we're done: | ||||
return r | ||||
if r is cp: | ||||
# Oops, we got the provides from the class. This means | ||||
# the object doesn't have it's own. We should use implementedBy | ||||
return implementedBy(ob.__class__) | ||||
return r | ||||
providedBy = providedByFallback | ||||
class ObjectSpecificationDescriptorFallback(object): | ||||
"""Implement the `__providedBy__` attribute | ||||
The `__providedBy__` attribute computes the interfaces peovided by | ||||
an object. | ||||
""" | ||||
def __get__(self, inst, cls): | ||||
"""Get an object specification for an object | ||||
""" | ||||
if inst is None: | ||||
return getObjectSpecification(cls) | ||||
provides = getattr(inst, '__provides__', None) | ||||
if provides is not None: | ||||
return provides | ||||
return implementedBy(cls) | ||||
ObjectSpecificationDescriptor = ObjectSpecificationDescriptorFallback | ||||
############################################################################## | ||||
def _normalizeargs(sequence, output = None): | ||||
"""Normalize declaration arguments | ||||
Normalization arguments might contain Declarions, tuples, or single | ||||
interfaces. | ||||
Anything but individial interfaces or implements specs will be expanded. | ||||
""" | ||||
if output is None: | ||||
output = [] | ||||
cls = sequence.__class__ | ||||
if InterfaceClass in cls.__mro__ or Implements in cls.__mro__: | ||||
output.append(sequence) | ||||
else: | ||||
for v in sequence: | ||||
_normalizeargs(v, output) | ||||
return output | ||||
_empty = Declaration() | ||||
try: | ||||
Gregory Szorc
|
r37195 | from . import _zope_interface_coptimizations | ||
Gregory Szorc
|
r37193 | except ImportError: | ||
pass | ||||
else: | ||||
Gregory Szorc
|
r37195 | from ._zope_interface_coptimizations import implementedBy | ||
from ._zope_interface_coptimizations import providedBy | ||||
from ._zope_interface_coptimizations import ( | ||||
Gregory Szorc
|
r37193 | getObjectSpecification) | ||
Gregory Szorc
|
r37195 | from ._zope_interface_coptimizations import ( | ||
Gregory Szorc
|
r37193 | ObjectSpecificationDescriptor) | ||
objectSpecificationDescriptor = ObjectSpecificationDescriptor() | ||||