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# -*- test-case-name: twisted.python.test.test_components -*-
# Copyright (c) 2001-2009 Twisted Matrix Laboratories.
# See LICENSE for details.
"""
Component architecture for Twisted, based on Zope3 components.
Using the Zope3 API directly is strongly recommended. Everything
you need is in the top-level of the zope.interface package, e.g.::
from zope.interface import Interface, implements
class IFoo(Interface):
pass
class Foo:
implements(IFoo)
print IFoo.implementedBy(Foo) # True
print IFoo.providedBy(Foo()) # True
L{twisted.python.components.registerAdapter} from this module may be used to
add to Twisted's global adapter registry.
L{twisted.python.components.proxyForInterface} is a factory for classes
which allow access to only the parts of another class defined by a specified
interface.
"""
# system imports
import warnings
# zope3 imports
from zope.interface import interface, declarations
from zope.interface.adapter import AdapterRegistry
# twisted imports
from twisted.python import reflect
from twisted.persisted import styles
class ComponentsDeprecationWarning(DeprecationWarning):
"""
Nothing emits this warning anymore.
"""
# Twisted's global adapter registry
globalRegistry = AdapterRegistry()
# Attribute that registerAdapter looks at. Is this supposed to be public?
ALLOW_DUPLICATES = 0
# Define a function to find the registered adapter factory, using either a
# version of Zope Interface which has the `registered' method or an older
# version which does not.
if getattr(AdapterRegistry, 'registered', None) is None:
def _registered(registry, required, provided):
"""
Return the adapter factory for the given parameters in the given
registry, or None if there is not one.
"""
return registry.get(required).selfImplied.get(provided, {}).get('')
else:
def _registered(registry, required, provided):
"""
Return the adapter factory for the given parameters in the given
registry, or None if there is not one.
"""
return registry.registered([required], provided)
def registerAdapter(adapterFactory, origInterface, *interfaceClasses):
"""Register an adapter class.
An adapter class is expected to implement the given interface, by
adapting instances implementing 'origInterface'. An adapter class's
__init__ method should accept one parameter, an instance implementing
'origInterface'.
"""
self = globalRegistry
assert interfaceClasses, "You need to pass an Interface"
global ALLOW_DUPLICATES
# deal with class->interface adapters:
if not isinstance(origInterface, interface.InterfaceClass):
origInterface = declarations.implementedBy(origInterface)
for interfaceClass in interfaceClasses:
factory = _registered(self, origInterface, interfaceClass)
if factory is not None and not ALLOW_DUPLICATES:
raise ValueError("an adapter (%s) was already registered." % (factory, ))
for interfaceClass in interfaceClasses:
self.register([origInterface], interfaceClass, '', adapterFactory)
def getAdapterFactory(fromInterface, toInterface, default):
"""Return registered adapter for a given class and interface.
Note that is tied to the *Twisted* global registry, and will
thus not find adapters registered elsewhere.
"""
self = globalRegistry
if not isinstance(fromInterface, interface.InterfaceClass):
fromInterface = declarations.implementedBy(fromInterface)
factory = self.lookup1(fromInterface, toInterface)
if factory is None:
factory = default
return factory
# add global adapter lookup hook for our newly created registry
def _hook(iface, ob, lookup=globalRegistry.lookup1):
factory = lookup(declarations.providedBy(ob), iface)
if factory is None:
return None
else:
return factory(ob)
interface.adapter_hooks.append(_hook)
## backwardsCompatImplements and fixClassImplements should probably stick around for another
## release cycle. No harm doing so in any case.
def backwardsCompatImplements(klass):
"""DEPRECATED.
Does nothing. Previously handled backwards compat from a
zope.interface using class to a class wanting old twisted
components interface behaviors.
"""
warnings.warn("components.backwardsCompatImplements doesn't do anything in Twisted 2.3, stop calling it.", ComponentsDeprecationWarning, stacklevel=2)
def fixClassImplements(klass):
"""DEPRECATED.
Does nothing. Previously converted class from __implements__ to
zope implementation.
"""
warnings.warn("components.fixClassImplements doesn't do anything in Twisted 2.3, stop calling it.", ComponentsDeprecationWarning, stacklevel=2)
def getRegistry():
"""Returns the Twisted global
C{zope.interface.adapter.AdapterRegistry} instance.
"""
return globalRegistry
# FIXME: deprecate attribute somehow?
CannotAdapt = TypeError
class Adapter:
"""I am the default implementation of an Adapter for some interface.
This docstring contains a limerick, by popular demand::
Subclassing made Zope and TR
much harder to work with by far.
So before you inherit,
be sure to declare it
Adapter, not PyObject*
@cvar temporaryAdapter: If this is True, the adapter will not be
persisted on the Componentized.
@cvar multiComponent: If this adapter is persistent, should it be
automatically registered for all appropriate interfaces.
"""
# These attributes are used with Componentized.
temporaryAdapter = 0
multiComponent = 1
def __init__(self, original):
"""Set my 'original' attribute to be the object I am adapting.
"""
self.original = original
def __conform__(self, interface):
"""
I forward __conform__ to self.original if it has it, otherwise I
simply return None.
"""
if hasattr(self.original, "__conform__"):
return self.original.__conform__(interface)
return None
def isuper(self, iface, adapter):
"""
Forward isuper to self.original
"""
return self.original.isuper(iface, adapter)
class Componentized(styles.Versioned):
"""I am a mixin to allow you to be adapted in various ways persistently.
I define a list of persistent adapters. This is to allow adapter classes
to store system-specific state, and initialized on demand. The
getComponent method implements this. You must also register adapters for
this class for the interfaces that you wish to pass to getComponent.
Many other classes and utilities listed here are present in Zope3; this one
is specific to Twisted.
"""
persistenceVersion = 1
def __init__(self):
self._adapterCache = {}
def locateAdapterClass(self, klass, interfaceClass, default):
return getAdapterFactory(klass, interfaceClass, default)
def setAdapter(self, interfaceClass, adapterClass):
self.setComponent(interfaceClass, adapterClass(self))
def addAdapter(self, adapterClass, ignoreClass=0):
"""Utility method that calls addComponent. I take an adapter class and
instantiate it with myself as the first argument.
@return: The adapter instantiated.
"""
adapt = adapterClass(self)
self.addComponent(adapt, ignoreClass)
return adapt
def setComponent(self, interfaceClass, component):
"""
"""
self._adapterCache[reflect.qual(interfaceClass)] = component
def addComponent(self, component, ignoreClass=0):
"""
Add a component to me, for all appropriate interfaces.
In order to determine which interfaces are appropriate, the component's
provided interfaces will be scanned.
If the argument 'ignoreClass' is True, then all interfaces are
considered appropriate.
Otherwise, an 'appropriate' interface is one for which its class has
been registered as an adapter for my class according to the rules of
getComponent.
@return: the list of appropriate interfaces
"""
for iface in declarations.providedBy(component):
if (ignoreClass or
(self.locateAdapterClass(self.__class__, iface, None)
== component.__class__)):
self._adapterCache[reflect.qual(iface)] = component
def unsetComponent(self, interfaceClass):
"""Remove my component specified by the given interface class."""
del self._adapterCache[reflect.qual(interfaceClass)]
def removeComponent(self, component):
"""
Remove the given component from me entirely, for all interfaces for which
it has been registered.
@return: a list of the interfaces that were removed.
"""
l = []
for k, v in self._adapterCache.items():
if v is component:
del self._adapterCache[k]
l.append(reflect.namedObject(k))
return l
def getComponent(self, interface, default=None):
"""Create or retrieve an adapter for the given interface.
If such an adapter has already been created, retrieve it from the cache
that this instance keeps of all its adapters. Adapters created through
this mechanism may safely store system-specific state.
If you want to register an adapter that will be created through
getComponent, but you don't require (or don't want) your adapter to be
cached and kept alive for the lifetime of this Componentized object,
set the attribute 'temporaryAdapter' to True on your adapter class.
If you want to automatically register an adapter for all appropriate
interfaces (with addComponent), set the attribute 'multiComponent' to
True on your adapter class.
"""
k = reflect.qual(interface)
if self._adapterCache.has_key(k):
return self._adapterCache[k]
else:
adapter = interface.__adapt__(self)
if adapter is not None and not (
hasattr(adapter, "temporaryAdapter") and
adapter.temporaryAdapter):
self._adapterCache[k] = adapter
if (hasattr(adapter, "multiComponent") and
adapter.multiComponent):
self.addComponent(adapter)
if adapter is None:
return default
return adapter
def __conform__(self, interface):
return self.getComponent(interface)
class ReprableComponentized(Componentized):
def __init__(self):
Componentized.__init__(self)
def __repr__(self):
from cStringIO import StringIO
from pprint import pprint
sio = StringIO()
pprint(self._adapterCache, sio)
return sio.getvalue()
def proxyForInterface(iface, originalAttribute='original'):
"""
Create a class which proxies all method calls which adhere to an interface
to another provider of that interface.
This function is intended for creating specialized proxies. The typical way
to use it is by subclassing the result::
class MySpecializedProxy(proxyForInterface(IFoo)):
def someInterfaceMethod(self, arg):
if arg == 3:
return 3
return self.original.someInterfaceMethod(arg)
@param iface: The Interface to which the resulting object will conform, and
which the wrapped object must provide.
@param originalAttribute: name of the attribute used to save the original
object in the resulting class. Default to C{original}.
@type originalAttribute: C{str}
@return: A class whose constructor takes the original object as its only
argument. Constructing the class creates the proxy.
"""
def __init__(self, original):
setattr(self, originalAttribute, original)
contents = {"__init__": __init__}
for name in iface:
contents[name] = _ProxyDescriptor(name, originalAttribute)
proxy = type("(Proxy for %s)"
% (reflect.qual(iface),), (object,), contents)
declarations.classImplements(proxy, iface)
return proxy
class _ProxiedClassMethod(object):
"""
A proxied class method.
@ivar methodName: the name of the method which this should invoke when
called.
@type methodName: C{str}
@ivar originalAttribute: name of the attribute of the proxy where the
original object is stored.
@type orginalAttribute: C{str}
"""
def __init__(self, methodName, originalAttribute):
self.methodName = methodName
self.originalAttribute = originalAttribute
def __call__(self, oself, *args, **kw):
"""
Invoke the specified L{methodName} method of the C{original} attribute
for proxyForInterface.
@param oself: an instance of a L{proxyForInterface} object.
@return: the result of the underlying method.
"""
original = getattr(oself, self.originalAttribute)
actualMethod = getattr(original, self.methodName)
return actualMethod(*args, **kw)
class _ProxyDescriptor(object):
"""
A descriptor which will proxy attribute access, mutation, and
deletion to the L{original} attribute of the object it is being accessed
from.
@ivar attributeName: the name of the attribute which this descriptor will
retrieve from instances' C{original} attribute.
@type attributeName: C{str}
@ivar originalAttribute: name of the attribute of the proxy where the
original object is stored.
@type orginalAttribute: C{str}
"""
def __init__(self, attributeName, originalAttribute):
self.attributeName = attributeName
self.originalAttribute = originalAttribute
def __get__(self, oself, type=None):
"""
Retrieve the C{self.attributeName} property from L{oself}.
"""
if oself is None:
return _ProxiedClassMethod(self.attributeName,
self.originalAttribute)
original = getattr(oself, self.originalAttribute)
return getattr(original, self.attributeName)
def __set__(self, oself, value):
"""
Set the C{self.attributeName} property of L{oself}.
"""
original = getattr(oself, self.originalAttribute)
setattr(original, self.attributeName, value)
def __delete__(self, oself):
"""
Delete the C{self.attributeName} property of L{oself}.
"""
original = getattr(oself, self.originalAttribute)
delattr(original, self.attributeName)
__all__ = [
# Sticking around:
"ComponentsDeprecationWarning",
"registerAdapter", "getAdapterFactory",
"Adapter", "Componentized", "ReprableComponentized", "getRegistry",
"proxyForInterface",
# Deprecated:
"backwardsCompatImplements",
"fixClassImplements",
]
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