third_party/logilab/common/decorators.py - depot_tools - Git at Google

 # copyright 2003-2013 LOGILAB S.A. (Paris, FRANCE), all rights reserved.
 # contact http://www.logilab.fr/ -- mailto:contact@logilab.fr
 #
 # This file is part of logilab-common.
 #
 # logilab-common is free software: you can redistribute it and/or modify it under
 # the terms of the GNU Lesser General Public License as published by the Free
 # Software Foundation, either version 2.1 of the License, or (at your option) any
 # later version.
 #
 # logilab-common is distributed in the hope that it will be useful, but WITHOUT
 # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
 # FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public License for more
 # details.
 #
 # You should have received a copy of the GNU Lesser General Public License along
 # with logilab-common.  If not, see <http://www.gnu.org/licenses/>.
 """ A few useful function/method decorators. """

 from __future__ import print_function

 __docformat__ = "restructuredtext en"

 import sys
 import types
 from time import clock, time
 from inspect import isgeneratorfunction, getargspec

 from logilab.common.compat import method_type

 # XXX rewrite so we can use the decorator syntax when keyarg has to be specified

 class cached_decorator(object):
     def __init__(self, cacheattr=None, keyarg=None):
         self.cacheattr = cacheattr
         self.keyarg = keyarg
     def __call__(self, callableobj=None):
         assert not isgeneratorfunction(callableobj), \
                'cannot cache generator function: %s' % callableobj
         if len(getargspec(callableobj).args) == 1 or self.keyarg == 0:
             cache = _SingleValueCache(callableobj, self.cacheattr)
         elif self.keyarg:
             cache = _MultiValuesKeyArgCache(callableobj, self.keyarg, self.cacheattr)
         else:
             cache = _MultiValuesCache(callableobj, self.cacheattr)
         return cache.closure()

 class _SingleValueCache(object):
     def __init__(self, callableobj, cacheattr=None):
         self.callable = callableobj
         if cacheattr is None:
             self.cacheattr = '_%s_cache_' % callableobj.__name__
         else:
             assert cacheattr != callableobj.__name__
             self.cacheattr = cacheattr

     def __call__(__me, self, *args):
         try:
             return self.__dict__[__me.cacheattr]
         except KeyError:
             value = __me.callable(self, *args)
             setattr(self, __me.cacheattr, value)
             return value

     def closure(self):
         def wrapped(*args, **kwargs):
             return self.__call__(*args, **kwargs)
         wrapped.cache_obj = self
         try:
             wrapped.__doc__ = self.callable.__doc__
             wrapped.__name__ = self.callable.__name__
         except:
             pass
         return wrapped

     def clear(self, holder):
         holder.__dict__.pop(self.cacheattr, None)


 class _MultiValuesCache(_SingleValueCache):
     def _get_cache(self, holder):
         try:
             _cache = holder.__dict__[self.cacheattr]
         except KeyError:
             _cache = {}
             setattr(holder, self.cacheattr, _cache)
         return _cache

     def __call__(__me, self, *args, **kwargs):
         _cache = __me._get_cache(self)
         try:
             return _cache[args]
         except KeyError:
             _cache[args] = __me.callable(self, *args)
             return _cache[args]

 class _MultiValuesKeyArgCache(_MultiValuesCache):
     def __init__(self, callableobj, keyarg, cacheattr=None):
         super(_MultiValuesKeyArgCache, self).__init__(callableobj, cacheattr)
         self.keyarg = keyarg

     def __call__(__me, self, *args, **kwargs):
         _cache = __me._get_cache(self)
         key = args[__me.keyarg-1]
         try:
             return _cache[key]
         except KeyError:
             _cache[key] = __me.callable(self, *args, **kwargs)
             return _cache[key]


 def cached(callableobj=None, keyarg=None, **kwargs):
     """Simple decorator to cache result of method call."""
     kwargs['keyarg'] = keyarg
     decorator = cached_decorator(**kwargs)
     if callableobj is None:
         return decorator
     else:
         return decorator(callableobj)


 class cachedproperty(object):
     """ Provides a cached property equivalent to the stacking of
     @cached and @property, but more efficient.

     After first usage, the <property_name> becomes part of the object's
     __dict__. Doing:

       del obj.<property_name> empties the cache.

     Idea taken from the pyramid_ framework and the mercurial_ project.

     .. _pyramid: http://pypi.python.org/pypi/pyramid
     .. _mercurial: http://pypi.python.org/pypi/Mercurial
     """
     __slots__ = ('wrapped',)

     def __init__(self, wrapped):
         try:
             wrapped.__name__
         except AttributeError:
             raise TypeError('%s must have a __name__ attribute' %
                             wrapped)
         self.wrapped = wrapped

     @property
     def __doc__(self):
         doc = getattr(self.wrapped, '__doc__', None)
         return ('<wrapped by the cachedproperty decorator>%s'
                 % ('\n%s' % doc if doc else ''))

     def __get__(self, inst, objtype=None):
         if inst is None:
             return self
         val = self.wrapped(inst)
         setattr(inst, self.wrapped.__name__, val)
         return val


 def get_cache_impl(obj, funcname):
     cls = obj.__class__
     member = getattr(cls, funcname)
     if isinstance(member, property):
         member = member.fget
     return member.cache_obj

 def clear_cache(obj, funcname):
     """Clear a cache handled by the :func:`cached` decorator. If 'x' class has
     @cached on its method `foo`, type

     >>> clear_cache(x, 'foo')

     to purge this method's cache on the instance.
     """
     get_cache_impl(obj, funcname).clear(obj)

 def copy_cache(obj, funcname, cacheobj):
     """Copy cache for <funcname> from cacheobj to obj."""
     cacheattr = get_cache_impl(obj, funcname).cacheattr
     try:
         setattr(obj, cacheattr, cacheobj.__dict__[cacheattr])
     except KeyError:
         pass


 class wproperty(object):
     """Simple descriptor expecting to take a modifier function as first argument
     and looking for a _<function name> to retrieve the attribute.
     """
     def __init__(self, setfunc):
         self.setfunc = setfunc
         self.attrname = '_%s' % setfunc.__name__

     def __set__(self, obj, value):
         self.setfunc(obj, value)

     def __get__(self, obj, cls):
         assert obj is not None
         return getattr(obj, self.attrname)


 class classproperty(object):
     """this is a simple property-like class but for class attributes.
     """
     def __init__(self, get):
         self.get = get
     def __get__(self, inst, cls):
         return self.get(cls)


 class iclassmethod(object):
     '''Descriptor for method which should be available as class method if called
     on the class or instance method if called on an instance.
     '''
     def __init__(self, func):
         self.func = func
     def __get__(self, instance, objtype):
         if instance is None:
             return method_type(self.func, objtype, objtype.__class__)
         return method_type(self.func, instance, objtype)
     def __set__(self, instance, value):
         raise AttributeError("can't set attribute")


 def timed(f):
     def wrap(*args, **kwargs):
         t = time()
         c = clock()
         res = f(*args, **kwargs)
         print('%s clock: %.9f / time: %.9f' % (f.__name__,
                                                clock() - c, time() - t))
         return res
     return wrap


 def locked(acquire, release):
     """Decorator taking two methods to acquire/release a lock as argument,
     returning a decorator function which will call the inner method after
     having called acquire(self) et will call release(self) afterwards.
     """
     def decorator(f):
         def wrapper(self, *args, **kwargs):
             acquire(self)
             try:
                 return f(self, *args, **kwargs)
             finally:
                 release(self)
         return wrapper
     return decorator


 def monkeypatch(klass, methodname=None):
     """Decorator extending class with the decorated callable. This is basically
     a syntactic sugar vs class assignment.

     >>> class A:
     ...     pass
     >>> @monkeypatch(A)
     ... def meth(self):
     ...     return 12
     ...
     >>> a = A()
     >>> a.meth()
     12
     >>> @monkeypatch(A, 'foo')
     ... def meth(self):
     ...     return 12
     ...
     >>> a.foo()
     12
     """
     def decorator(func):
         try:
             name = methodname or func.__name__
         except AttributeError:
             raise AttributeError('%s has no __name__ attribute: '
                                  'you should provide an explicit `methodname`'
                                  % func)
         setattr(klass, name, func)
         return func
     return decorator
	# copyright 2003-2013 LOGILAB S.A. (Paris, FRANCE), all rights reserved.
	# contact http://www.logilab.fr/ -- mailto:contact@logilab.fr
	#
	# This file is part of logilab-common.
	#
	# logilab-common is free software: you can redistribute it and/or modify it under
	# the terms of the GNU Lesser General Public License as published by the Free
	# Software Foundation, either version 2.1 of the License, or (at your option) any
	# later version.
	#
	# logilab-common is distributed in the hope that it will be useful, but WITHOUT
	# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
	# FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
	# details.
	#
	# You should have received a copy of the GNU Lesser General Public License along
	# with logilab-common. If not, see <http://www.gnu.org/licenses/>.
	""" A few useful function/method decorators. """

	from __future__ import print_function

	__docformat__ = "restructuredtext en"

	import sys
	import types
	from time import clock, time
	from inspect import isgeneratorfunction, getargspec

	from logilab.common.compat import method_type

	# XXX rewrite so we can use the decorator syntax when keyarg has to be specified

	class cached_decorator(object):
	def __init__(self, cacheattr=None, keyarg=None):
	self.cacheattr = cacheattr
	self.keyarg = keyarg
	def __call__(self, callableobj=None):
	assert not isgeneratorfunction(callableobj), \
	'cannot cache generator function: %s' % callableobj
	if len(getargspec(callableobj).args) == 1 or self.keyarg == 0:
	cache = _SingleValueCache(callableobj, self.cacheattr)
	elif self.keyarg:
	cache = _MultiValuesKeyArgCache(callableobj, self.keyarg, self.cacheattr)
	else:
	cache = _MultiValuesCache(callableobj, self.cacheattr)
	return cache.closure()

	class _SingleValueCache(object):
	def __init__(self, callableobj, cacheattr=None):
	self.callable = callableobj
	if cacheattr is None:
	self.cacheattr = '_%s_cache_' % callableobj.__name__
	else:
	assert cacheattr != callableobj.__name__
	self.cacheattr = cacheattr

	def __call__(__me, self, *args):
	try:
	return self.__dict__[__me.cacheattr]
	except KeyError:
	value = __me.callable(self, *args)
	setattr(self, __me.cacheattr, value)
	return value

	def closure(self):
	def wrapped(args, *kwargs):
	return self.__call__(args, *kwargs)
	wrapped.cache_obj = self
	try:
	wrapped.__doc__ = self.callable.__doc__
	wrapped.__name__ = self.callable.__name__
	except:
	pass
	return wrapped

	def clear(self, holder):
	holder.__dict__.pop(self.cacheattr, None)


	class _MultiValuesCache(_SingleValueCache):
	def _get_cache(self, holder):
	try:
	_cache = holder.__dict__[self.cacheattr]
	except KeyError:
	_cache = {}
	setattr(holder, self.cacheattr, _cache)
	return _cache

	def __call__(__me, self, args, *kwargs):
	_cache = __me._get_cache(self)
	try:
	return _cache[args]
	except KeyError:
	_cache[args] = __me.callable(self, *args)
	return _cache[args]

	class _MultiValuesKeyArgCache(_MultiValuesCache):
	def __init__(self, callableobj, keyarg, cacheattr=None):
	super(_MultiValuesKeyArgCache, self).__init__(callableobj, cacheattr)
	self.keyarg = keyarg

	def __call__(__me, self, args, *kwargs):
	_cache = __me._get_cache(self)
	key = args[__me.keyarg-1]
	try:
	return _cache[key]
	except KeyError:
	_cache[key] = __me.callable(self, args, *kwargs)
	return _cache[key]


	def cached(callableobj=None, keyarg=None, **kwargs):
	"""Simple decorator to cache result of method call."""
	kwargs['keyarg'] = keyarg
	decorator = cached_decorator(**kwargs)
	if callableobj is None:
	return decorator
	else:
	return decorator(callableobj)


	class cachedproperty(object):
	""" Provides a cached property equivalent to the stacking of
	@cached and @property, but more efficient.

	After first usage, the <property_name> becomes part of the object's
	__dict__. Doing:

	del obj.<property_name> empties the cache.

	Idea taken from the pyramid_ framework and the mercurial_ project.

	.. _pyramid: http://pypi.python.org/pypi/pyramid
	.. _mercurial: http://pypi.python.org/pypi/Mercurial
	"""
	__slots__ = ('wrapped',)

	def __init__(self, wrapped):
	try:
	wrapped.__name__
	except AttributeError:
	raise TypeError('%s must have a __name__ attribute' %
	wrapped)
	self.wrapped = wrapped

	@property
	def __doc__(self):
	doc = getattr(self.wrapped, '__doc__', None)
	return ('<wrapped by the cachedproperty decorator>%s'
	% ('\n%s' % doc if doc else ''))

	def __get__(self, inst, objtype=None):
	if inst is None:
	return self
	val = self.wrapped(inst)
	setattr(inst, self.wrapped.__name__, val)
	return val


	def get_cache_impl(obj, funcname):
	cls = obj.__class__
	member = getattr(cls, funcname)
	if isinstance(member, property):
	member = member.fget
	return member.cache_obj

	def clear_cache(obj, funcname):
	"""Clear a cache handled by the :func:`cached` decorator. If 'x' class has
	@cached on its method `foo`, type

	>>> clear_cache(x, 'foo')

	to purge this method's cache on the instance.
	"""
	get_cache_impl(obj, funcname).clear(obj)

	def copy_cache(obj, funcname, cacheobj):
	"""Copy cache for <funcname> from cacheobj to obj."""
	cacheattr = get_cache_impl(obj, funcname).cacheattr
	try:
	setattr(obj, cacheattr, cacheobj.__dict__[cacheattr])
	except KeyError:
	pass


	class wproperty(object):
	"""Simple descriptor expecting to take a modifier function as first argument
	and looking for a _<function name> to retrieve the attribute.
	"""
	def __init__(self, setfunc):
	self.setfunc = setfunc
	self.attrname = '_%s' % setfunc.__name__

	def __set__(self, obj, value):
	self.setfunc(obj, value)

	def __get__(self, obj, cls):
	assert obj is not None
	return getattr(obj, self.attrname)


	class classproperty(object):
	"""this is a simple property-like class but for class attributes.
	"""
	def __init__(self, get):
	self.get = get
	def __get__(self, inst, cls):
	return self.get(cls)


	class iclassmethod(object):
	'''Descriptor for method which should be available as class method if called
	on the class or instance method if called on an instance.
	'''
	def __init__(self, func):
	self.func = func
	def __get__(self, instance, objtype):
	if instance is None:
	return method_type(self.func, objtype, objtype.__class__)
	return method_type(self.func, instance, objtype)
	def __set__(self, instance, value):
	raise AttributeError("can't set attribute")


	def timed(f):
	def wrap(args, *kwargs):
	t = time()
	c = clock()
	res = f(args, *kwargs)
	print('%s clock: %.9f / time: %.9f' % (f.__name__,
	clock() - c, time() - t))
	return res
	return wrap


	def locked(acquire, release):
	"""Decorator taking two methods to acquire/release a lock as argument,
	returning a decorator function which will call the inner method after
	having called acquire(self) et will call release(self) afterwards.
	"""
	def decorator(f):
	def wrapper(self, args, *kwargs):
	acquire(self)
	try:
	return f(self, args, *kwargs)
	finally:
	release(self)
	return wrapper
	return decorator


	def monkeypatch(klass, methodname=None):
	"""Decorator extending class with the decorated callable. This is basically
	a syntactic sugar vs class assignment.

	>>> class A:
	... pass
	>>> @monkeypatch(A)
	... def meth(self):
	... return 12
	...
	>>> a = A()
	>>> a.meth()
	12
	>>> @monkeypatch(A, 'foo')
	... def meth(self):
	... return 12
	...
	>>> a.foo()
	12
	"""
	def decorator(func):
	try:
	name = methodname or func.__name__
	except AttributeError:
	raise AttributeError('%s has no __name__ attribute: '
	'you should provide an explicit `methodname`'
	% func)
	setattr(klass, name, func)
	return func
	return decorator