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# Copyright (c) 2006-2014 LOGILAB S.A. (Paris, FRANCE) <contact@logilab.fr>
# Copyright (c) 2012 FELD Boris <lothiraldan@gmail.com>
# Copyright (c) 2014-2020 Claudiu Popa <pcmanticore@gmail.com>
# Copyright (c) 2014 Google, Inc.
# Copyright (c) 2015-2016 Ceridwen <ceridwenv@gmail.com>
# Copyright (c) 2015 Florian Bruhin <me@the-compiler.org>
# Copyright (c) 2015 Ovidiu Sabou <ovidiu@sabou.org>
# Copyright (c) 2016 Derek Gustafson <degustaf@gmail.com>
# Copyright (c) 2016 Jakub Wilk <jwilk@jwilk.net>
# Copyright (c) 2018 Ville Skyttä <ville.skytta@iki.fi>
# Copyright (c) 2018 Nick Drozd <nicholasdrozd@gmail.com>
# Copyright (c) 2018 Bryce Guinta <bryce.paul.guinta@gmail.com>
# Copyright (c) 2020-2021 hippo91 <guillaume.peillex@gmail.com>
# Copyright (c) 2020 Becker Awqatty <bawqatty@mide.com>
# Copyright (c) 2020 Robin Jarry <robin.jarry@6wind.com>
# Copyright (c) 2021 Pierre Sassoulas <pierre.sassoulas@gmail.com>
# Copyright (c) 2021 Marc Mueller <30130371+cdce8p@users.noreply.github.com>
# Copyright (c) 2021 Andrew Haigh <hello@nelf.in>
# Licensed under the LGPL: https://www.gnu.org/licenses/old-licenses/lgpl-2.1.en.html
# For details: https://github.com/PyCQA/astroid/blob/main/LICENSE
"""this module contains a set of functions to create astroid trees from scratch
(build_* functions) or from living object (object_build_* functions)
"""
import builtins
import inspect
import os
import sys
import types
import warnings
from typing import List, Optional
from astroid import bases, nodes
from astroid.manager import AstroidManager
from astroid.nodes import node_classes
# the keys of CONST_CLS eg python builtin types
_CONSTANTS = tuple(node_classes.CONST_CLS)
_BUILTINS = vars(builtins)
TYPE_NONE = type(None)
TYPE_NOTIMPLEMENTED = type(NotImplemented)
TYPE_ELLIPSIS = type(...)
def _io_discrepancy(member):
# _io module names itself `io`: http://bugs.python.org/issue18602
member_self = getattr(member, "__self__", None)
return (
member_self
and inspect.ismodule(member_self)
and member_self.__name__ == "_io"
and member.__module__ == "io"
)
def _attach_local_node(parent, node, name):
node.name = name # needed by add_local_node
parent.add_local_node(node)
def _add_dunder_class(func, member):
"""Add a __class__ member to the given func node, if we can determine it."""
python_cls = member.__class__
cls_name = getattr(python_cls, "__name__", None)
if not cls_name:
return
cls_bases = [ancestor.__name__ for ancestor in python_cls.__bases__]
ast_klass = build_class(cls_name, cls_bases, python_cls.__doc__)
func.instance_attrs["__class__"] = [ast_klass]
_marker = object()
def attach_dummy_node(node, name, runtime_object=_marker):
"""create a dummy node and register it in the locals of the given
node with the specified name
"""
enode = nodes.EmptyNode()
enode.object = runtime_object
_attach_local_node(node, enode, name)
def _has_underlying_object(self):
return self.object is not None and self.object is not _marker
nodes.EmptyNode.has_underlying_object = _has_underlying_object
def attach_const_node(node, name, value):
"""create a Const node and register it in the locals of the given
node with the specified name
"""
if name not in node.special_attributes:
_attach_local_node(node, nodes.const_factory(value), name)
def attach_import_node(node, modname, membername):
"""create a ImportFrom node and register it in the locals of the given
node with the specified name
"""
from_node = nodes.ImportFrom(modname, [(membername, None)])
_attach_local_node(node, from_node, membername)
def build_module(name, doc=None):
"""create and initialize an astroid Module node"""
node = nodes.Module(name, doc, pure_python=False)
node.package = False
node.parent = None
return node
def build_class(name, basenames=(), doc=None):
"""create and initialize an astroid ClassDef node"""
node = nodes.ClassDef(name, doc)
for base in basenames:
basenode = nodes.Name()
basenode.name = base
node.bases.append(basenode)
basenode.parent = node
return node
def build_function(
name,
args: Optional[List[str]] = None,
posonlyargs: Optional[List[str]] = None,
defaults=None,
doc=None,
kwonlyargs: Optional[List[str]] = None,
) -> nodes.FunctionDef:
"""create and initialize an astroid FunctionDef node"""
# first argument is now a list of decorators
func = nodes.FunctionDef(name, doc)
func.args = argsnode = nodes.Arguments(parent=func)
argsnode.postinit(
args=[nodes.AssignName(name=arg, parent=argsnode) for arg in args or ()],
defaults=[],
kwonlyargs=[
nodes.AssignName(name=arg, parent=argsnode) for arg in kwonlyargs or ()
],
kw_defaults=[],
annotations=[],
posonlyargs=[
nodes.AssignName(name=arg, parent=argsnode) for arg in posonlyargs or ()
],
)
for default in defaults or ():
argsnode.defaults.append(nodes.const_factory(default))
argsnode.defaults[-1].parent = argsnode
if args:
register_arguments(func)
return func
def build_from_import(fromname, names):
"""create and initialize an astroid ImportFrom import statement"""
return nodes.ImportFrom(fromname, [(name, None) for name in names])
def register_arguments(func, args=None):
"""add given arguments to local
args is a list that may contains nested lists
(i.e. def func(a, (b, c, d)): ...)
"""
if args is None:
args = func.args.args
if func.args.vararg:
func.set_local(func.args.vararg, func.args)
if func.args.kwarg:
func.set_local(func.args.kwarg, func.args)
for arg in args:
if isinstance(arg, nodes.AssignName):
func.set_local(arg.name, arg)
else:
register_arguments(func, arg.elts)
def object_build_class(node, member, localname):
"""create astroid for a living class object"""
basenames = [base.__name__ for base in member.__bases__]
return _base_class_object_build(node, member, basenames, localname=localname)
def object_build_function(node, member, localname):
"""create astroid for a living function object"""
signature = inspect.signature(member)
args = []
defaults = []
posonlyargs = []
kwonlyargs = []
for param_name, param in signature.parameters.items():
if param.kind == inspect.Parameter.POSITIONAL_ONLY:
posonlyargs.append(param_name)
elif param.kind == inspect.Parameter.POSITIONAL_OR_KEYWORD:
args.append(param_name)
elif param.kind == inspect.Parameter.VAR_POSITIONAL:
args.append(param_name)
elif param.kind == inspect.Parameter.VAR_KEYWORD:
args.append(param_name)
elif param.kind == inspect.Parameter.KEYWORD_ONLY:
kwonlyargs.append(param_name)
if param.default is not inspect._empty:
defaults.append(param.default)
func = build_function(
getattr(member, "__name__", None) or localname,
args,
posonlyargs,
defaults,
member.__doc__,
)
node.add_local_node(func, localname)
def object_build_datadescriptor(node, member, name):
"""create astroid for a living data descriptor object"""
return _base_class_object_build(node, member, [], name)
def object_build_methoddescriptor(node, member, localname):
"""create astroid for a living method descriptor object"""
# FIXME get arguments ?
func = build_function(
getattr(member, "__name__", None) or localname, doc=member.__doc__
)
# set node's arguments to None to notice that we have no information, not
# and empty argument list
func.args.args = None
node.add_local_node(func, localname)
_add_dunder_class(func, member)
def _base_class_object_build(node, member, basenames, name=None, localname=None):
"""create astroid for a living class object, with a given set of base names
(e.g. ancestors)
"""
klass = build_class(
name or getattr(member, "__name__", None) or localname,
basenames,
member.__doc__,
)
klass._newstyle = isinstance(member, type)
node.add_local_node(klass, localname)
try:
# limit the instantiation trick since it's too dangerous
# (such as infinite test execution...)
# this at least resolves common case such as Exception.args,
# OSError.errno
if issubclass(member, Exception):
instdict = member().__dict__
else:
raise TypeError
except TypeError:
pass
else:
for item_name, obj in instdict.items():
valnode = nodes.EmptyNode()
valnode.object = obj
valnode.parent = klass
valnode.lineno = 1
klass.instance_attrs[item_name] = [valnode]
return klass
def _build_from_function(node, name, member, module):
# verify this is not an imported function
try:
code = member.__code__
except AttributeError:
# Some implementations don't provide the code object,
# such as Jython.
code = None
filename = getattr(code, "co_filename", None)
if filename is None:
assert isinstance(member, object)
object_build_methoddescriptor(node, member, name)
elif filename != getattr(module, "__file__", None):
attach_dummy_node(node, name, member)
else:
object_build_function(node, member, name)
def _safe_has_attribute(obj, member):
try:
return hasattr(obj, member)
except Exception: # pylint: disable=broad-except
return False
class InspectBuilder:
"""class for building nodes from living object
this is actually a really minimal representation, including only Module,
FunctionDef and ClassDef nodes and some others as guessed.
"""
def __init__(self, manager_instance=None):
self._manager = manager_instance or AstroidManager()
self._done = {}
self._module = None
def inspect_build(self, module, modname=None, path=None):
"""build astroid from a living module (i.e. using inspect)
this is used when there is no python source code available (either
because it's a built-in module or because the .py is not available)
"""
self._module = module
if modname is None:
modname = module.__name__
try:
node = build_module(modname, module.__doc__)
except AttributeError:
# in jython, java modules have no __doc__ (see #109562)
node = build_module(modname)
node.file = node.path = os.path.abspath(path) if path else path
node.name = modname
self._manager.cache_module(node)
node.package = hasattr(module, "__path__")
self._done = {}
self.object_build(node, module)
return node
def object_build(self, node, obj):
"""recursive method which create a partial ast from real objects
(only function, class, and method are handled)
"""
if obj in self._done:
return self._done[obj]
self._done[obj] = node
for name in dir(obj):
try:
with warnings.catch_warnings():
warnings.filterwarnings("error")
member = getattr(obj, name)
except (AttributeError, DeprecationWarning):
# damned ExtensionClass.Base, I know you're there !
attach_dummy_node(node, name)
continue
if inspect.ismethod(member):
member = member.__func__
if inspect.isfunction(member):
_build_from_function(node, name, member, self._module)
elif inspect.isbuiltin(member):
if not _io_discrepancy(member) and self.imported_member(
node, member, name
):
continue
object_build_methoddescriptor(node, member, name)
elif inspect.isclass(member):
if self.imported_member(node, member, name):
continue
if member in self._done:
class_node = self._done[member]
if class_node not in node.locals.get(name, ()):
node.add_local_node(class_node, name)
else:
class_node = object_build_class(node, member, name)
# recursion
self.object_build(class_node, member)
if name == "__class__" and class_node.parent is None:
class_node.parent = self._done[self._module]
elif inspect.ismethoddescriptor(member):
assert isinstance(member, object)
object_build_methoddescriptor(node, member, name)
elif inspect.isdatadescriptor(member):
assert isinstance(member, object)
object_build_datadescriptor(node, member, name)
elif isinstance(member, _CONSTANTS):
attach_const_node(node, name, member)
elif inspect.isroutine(member):
# This should be called for Jython, where some builtin
# methods aren't caught by isbuiltin branch.
_build_from_function(node, name, member, self._module)
elif _safe_has_attribute(member, "__all__"):
module = build_module(name)
_attach_local_node(node, module, name)
# recursion
self.object_build(module, member)
else:
# create an empty node so that the name is actually defined
attach_dummy_node(node, name, member)
return None
def imported_member(self, node, member, name):
"""verify this is not an imported class or handle it"""
# /!\ some classes like ExtensionClass doesn't have a __module__
# attribute ! Also, this may trigger an exception on badly built module
# (see http://www.logilab.org/ticket/57299 for instance)
try:
modname = getattr(member, "__module__", None)
except TypeError:
modname = None
if modname is None:
if name in ("__new__", "__subclasshook__"):
# Python 2.5.1 (r251:54863, Sep 1 2010, 22:03:14)
# >>> print object.__new__.__module__
# None
modname = builtins.__name__
else:
attach_dummy_node(node, name, member)
return True
real_name = {"gtk": "gtk_gtk", "_io": "io"}.get(modname, modname)
if real_name != self._module.__name__:
# check if it sounds valid and then add an import node, else use a
# dummy node
try:
getattr(sys.modules[modname], name)
except (KeyError, AttributeError):
attach_dummy_node(node, name, member)
else:
attach_import_node(node, modname, name)
return True
return False
# astroid bootstrapping ######################################################
_CONST_PROXY = {}
def _set_proxied(const):
# TODO : find a nicer way to handle this situation;
return _CONST_PROXY[const.value.__class__]
def _astroid_bootstrapping():
"""astroid bootstrapping the builtins module"""
# this boot strapping is necessary since we need the Const nodes to
# inspect_build builtins, and then we can proxy Const
builder = InspectBuilder()
astroid_builtin = builder.inspect_build(builtins)
for cls, node_cls in node_classes.CONST_CLS.items():
if cls is TYPE_NONE:
proxy = build_class("NoneType")
proxy.parent = astroid_builtin
elif cls is TYPE_NOTIMPLEMENTED:
proxy = build_class("NotImplementedType")
proxy.parent = astroid_builtin
elif cls is TYPE_ELLIPSIS:
proxy = build_class("Ellipsis")
proxy.parent = astroid_builtin
else:
proxy = astroid_builtin.getattr(cls.__name__)[0]
if cls in (dict, list, set, tuple):
node_cls._proxied = proxy
else:
_CONST_PROXY[cls] = proxy
# Set the builtin module as parent for some builtins.
nodes.Const._proxied = property(_set_proxied)
_GeneratorType = nodes.ClassDef(
types.GeneratorType.__name__, types.GeneratorType.__doc__
)
_GeneratorType.parent = astroid_builtin
bases.Generator._proxied = _GeneratorType
builder.object_build(bases.Generator._proxied, types.GeneratorType)
if hasattr(types, "AsyncGeneratorType"):
_AsyncGeneratorType = nodes.ClassDef(
types.AsyncGeneratorType.__name__, types.AsyncGeneratorType.__doc__
)
_AsyncGeneratorType.parent = astroid_builtin
bases.AsyncGenerator._proxied = _AsyncGeneratorType
builder.object_build(bases.AsyncGenerator._proxied, types.AsyncGeneratorType)
builtin_types = (
types.GetSetDescriptorType,
types.GeneratorType,
types.MemberDescriptorType,
TYPE_NONE,
TYPE_NOTIMPLEMENTED,
types.FunctionType,
types.MethodType,
types.BuiltinFunctionType,
types.ModuleType,
types.TracebackType,
)
for _type in builtin_types:
if _type.__name__ not in astroid_builtin:
cls = nodes.ClassDef(_type.__name__, _type.__doc__)
cls.parent = astroid_builtin
builder.object_build(cls, _type)
astroid_builtin[_type.__name__] = cls
_astroid_bootstrapping()
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