third_party/logilab/astroid/__init__.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 astroid.
 #
 # astroid 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.
 #
 # astroid 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 astroid. If not, see <http://www.gnu.org/licenses/>.
 """Python Abstract Syntax Tree New Generation

 The aim of this module is to provide a common base representation of
 python source code for projects such as pychecker, pyreverse,
 pylint... Well, actually the development of this library is essentially
 governed by pylint's needs.

 It extends class defined in the python's _ast module with some
 additional methods and attributes. Instance attributes are added by a
 builder object, which can either generate extended ast (let's call
 them astroid ;) by visiting an existent ast tree or by inspecting living
 object. Methods are added by monkey patching ast classes.

 Main modules are:

 * nodes and scoped_nodes for more information about methods and
   attributes added to different node classes

 * the manager contains a high level object to get astroid trees from
   source files and living objects. It maintains a cache of previously
   constructed tree for quick access

 * builder contains the class responsible to build astroid trees
 """
 __doctype__ = "restructuredtext en"

 import sys
 import re
 from operator import attrgetter

 # WARNING: internal imports order matters !

 # make all exception classes accessible from astroid package
 from astroid.exceptions import *

 # make all node classes accessible from astroid package
 from astroid.nodes import *

 # trigger extra monkey-patching
 from astroid import inference

 # more stuff available
 from astroid import raw_building
 from astroid.bases import YES, Instance, BoundMethod, UnboundMethod
 from astroid.node_classes import are_exclusive, unpack_infer
 from astroid.scoped_nodes import builtin_lookup

 # make a manager instance (borg) as well as Project and Package classes
 # accessible from astroid package
 from astroid.manager import AstroidManager, Project
 MANAGER = AstroidManager()
 del AstroidManager

 # transform utilities (filters and decorator)

 class AsStringRegexpPredicate(object):
     """Class to be used as predicate that may be given to `register_transform`

     First argument is a regular expression that will be searched against the `as_string`
     representation of the node onto which it's applied.

     If specified, the second argument is an `attrgetter` expression that will be
     applied on the node first to get the actual node on which `as_string` should
     be called.

     WARNING: This can be fairly slow, as it has to convert every AST node back
     to Python code; you should consider examining the AST directly instead.
     """
     def __init__(self, regexp, expression=None):
         self.regexp = re.compile(regexp)
         self.expression = expression

     def __call__(self, node):
         if self.expression is not None:
             node = attrgetter(self.expression)(node)
         return self.regexp.search(node.as_string())

 def inference_tip(infer_function):
     """Given an instance specific inference function, return a function to be
     given to MANAGER.register_transform to set this inference function.

     Typical usage

     .. sourcecode:: python

        MANAGER.register_transform(CallFunc, inference_tip(infer_named_tuple),
                                   predicate)
     """
     def transform(node, infer_function=infer_function):
         node._explicit_inference = infer_function
         return node
     return transform


 def register_module_extender(manager, module_name, get_extension_mod):
     def transform(node):
         extension_module = get_extension_mod()
         for name, obj in extension_module.locals.items():
             node.locals[name] = obj

     manager.register_transform(Module, transform, lambda n: n.name == module_name)


 # load brain plugins
 from os import listdir
 from os.path import join, dirname
 BRAIN_MODULES_DIR = join(dirname(__file__), 'brain')
 if BRAIN_MODULES_DIR not in sys.path:
     # add it to the end of the list so user path take precedence
     sys.path.append(BRAIN_MODULES_DIR)
 # load modules in this directory
 for module in listdir(BRAIN_MODULES_DIR):
     if module.endswith('.py'):
         __import__(module[:-3])
	# 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 astroid.
	#
	# astroid 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.
	#
	# astroid 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 astroid. If not, see <http://www.gnu.org/licenses/>.
	"""Python Abstract Syntax Tree New Generation

	The aim of this module is to provide a common base representation of
	python source code for projects such as pychecker, pyreverse,
	pylint... Well, actually the development of this library is essentially
	governed by pylint's needs.

	It extends class defined in the python's _ast module with some
	additional methods and attributes. Instance attributes are added by a
	builder object, which can either generate extended ast (let's call
	them astroid ;) by visiting an existent ast tree or by inspecting living
	object. Methods are added by monkey patching ast classes.

	Main modules are:

	* nodes and scoped_nodes for more information about methods and
	attributes added to different node classes

	* the manager contains a high level object to get astroid trees from
	source files and living objects. It maintains a cache of previously
	constructed tree for quick access

	* builder contains the class responsible to build astroid trees
	"""
	__doctype__ = "restructuredtext en"

	import sys
	import re
	from operator import attrgetter

	# WARNING: internal imports order matters !

	# make all exception classes accessible from astroid package
	from astroid.exceptions import *

	# make all node classes accessible from astroid package
	from astroid.nodes import *

	# trigger extra monkey-patching
	from astroid import inference

	# more stuff available
	from astroid import raw_building
	from astroid.bases import YES, Instance, BoundMethod, UnboundMethod
	from astroid.node_classes import are_exclusive, unpack_infer
	from astroid.scoped_nodes import builtin_lookup

	# make a manager instance (borg) as well as Project and Package classes
	# accessible from astroid package
	from astroid.manager import AstroidManager, Project
	MANAGER = AstroidManager()
	del AstroidManager

	# transform utilities (filters and decorator)

	class AsStringRegexpPredicate(object):
	"""Class to be used as predicate that may be given to `register_transform`

	First argument is a regular expression that will be searched against the `as_string`
	representation of the node onto which it's applied.

	If specified, the second argument is an `attrgetter` expression that will be
	applied on the node first to get the actual node on which `as_string` should
	be called.

	WARNING: This can be fairly slow, as it has to convert every AST node back
	to Python code; you should consider examining the AST directly instead.
	"""
	def __init__(self, regexp, expression=None):
	self.regexp = re.compile(regexp)
	self.expression = expression

	def __call__(self, node):
	if self.expression is not None:
	node = attrgetter(self.expression)(node)
	return self.regexp.search(node.as_string())

	def inference_tip(infer_function):
	"""Given an instance specific inference function, return a function to be
	given to MANAGER.register_transform to set this inference function.

	Typical usage

	.. sourcecode:: python

	MANAGER.register_transform(CallFunc, inference_tip(infer_named_tuple),
	predicate)
	"""
	def transform(node, infer_function=infer_function):
	node._explicit_inference = infer_function
	return node
	return transform


	def register_module_extender(manager, module_name, get_extension_mod):
	def transform(node):
	extension_module = get_extension_mod()
	for name, obj in extension_module.locals.items():
	node.locals[name] = obj

	manager.register_transform(Module, transform, lambda n: n.name == module_name)


	# load brain plugins
	from os import listdir
	from os.path import join, dirname
	BRAIN_MODULES_DIR = join(dirname(__file__), 'brain')
	if BRAIN_MODULES_DIR not in sys.path:
	# add it to the end of the list so user path take precedence
	sys.path.append(BRAIN_MODULES_DIR)
	# load modules in this directory
	for module in listdir(BRAIN_MODULES_DIR):
	if module.endswith('.py'):
	__import__(module[:-3])