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# 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 # Copyright (c) https://github.com/PyCQA/astroid/blob/main/CONTRIBUTORS.txt """this module contains a set of functions to create astroid trees from scratch (build_* functions) or from living object (object_build_* functions) """ from __future__ import annotations import builtins import inspect import io import logging import os import sys import types import warnings from collections.abc import Iterable from contextlib import redirect_stderr, redirect_stdout from typing import Any, Union from astroid import bases, nodes from astroid.const import _EMPTY_OBJECT_MARKER, IS_PYPY from astroid.manager import AstroidManager from astroid.nodes import node_classes logger = logging.getLogger(__name__) _FunctionTypes = Union[ types.FunctionType, types.MethodType, types.BuiltinFunctionType, types.WrapperDescriptorType, types.MethodDescriptorType, types.ClassMethodDescriptorType, ] # 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 _attach_local_node(parent, node, name: str) -> None: node.name = name # needed by add_local_node parent.add_local_node(node) def _add_dunder_class(func, member) -> None: """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] def attach_dummy_node(node, name: str, runtime_object=_EMPTY_OBJECT_MARKER) -> None: """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 attach_const_node(node, name: str, value) -> None: """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: str, membername: str) -> None: """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: str, doc: str | None = None) -> nodes.Module: """create and initialize an astroid Module node""" node = nodes.Module(name, pure_python=False, package=False) node.postinit( body=[], doc_node=nodes.Const(value=doc) if doc else None, ) return node def build_class( name: str, basenames: Iterable[str] = (), doc: str | None = None ) -> nodes.ClassDef: """Create and initialize an astroid ClassDef node.""" node = nodes.ClassDef(name) node.postinit( bases=[nodes.Name(name=base, parent=node) for base in basenames], body=[], decorators=None, doc_node=nodes.Const(value=doc) if doc else None, ) return node def build_function( name: str, args: list[str] | None = None, posonlyargs: list[str] | None = None, defaults: list[Any] | None = None, doc: str | None = None, kwonlyargs: list[str] | None = None, kwonlydefaults: list[Any] | None = None, ) -> nodes.FunctionDef: """create and initialize an astroid FunctionDef node""" # first argument is now a list of decorators func = nodes.FunctionDef(name) argsnode = nodes.Arguments(parent=func) # If args is None we don't have any information about the signature # (in contrast to when there are no arguments and args == []). We pass # this to the builder to indicate this. if args is not None: arguments = [nodes.AssignName(name=arg, parent=argsnode) for arg in args] else: arguments = None default_nodes: list[nodes.NodeNG] | None = [] if defaults is not None: for default in defaults: default_node = nodes.const_factory(default) default_node.parent = argsnode default_nodes.append(default_node) else: default_nodes = None kwonlydefault_nodes: list[nodes.NodeNG | None] | None = [] if kwonlydefaults is not None: for kwonlydefault in kwonlydefaults: kwonlydefault_node = nodes.const_factory(kwonlydefault) kwonlydefault_node.parent = argsnode kwonlydefault_nodes.append(kwonlydefault_node) else: kwonlydefault_nodes = None argsnode.postinit( args=arguments, defaults=default_nodes, kwonlyargs=[ nodes.AssignName(name=arg, parent=argsnode) for arg in kwonlyargs or () ], kw_defaults=kwonlydefault_nodes, annotations=[], posonlyargs=[ nodes.AssignName(name=arg, parent=argsnode) for arg in posonlyargs or () ], ) func.postinit( args=argsnode, body=[], doc_node=nodes.Const(value=doc) if doc else None, ) if args: register_arguments(func) return func def build_from_import(fromname: str, names: list[str]) -> nodes.ImportFrom: """create and initialize an astroid ImportFrom import statement""" return nodes.ImportFrom(fromname, [(name, None) for name in names]) def register_arguments(func: nodes.FunctionDef, args: list | None = None) -> None: """add given arguments to local args is a list that may contains nested lists (i.e. def func(a, (b, c, d)): ...) """ # If no args are passed in, get the args from the function. if args is None: if func.args.vararg: func.set_local(func.args.vararg, func.args) if func.args.kwarg: func.set_local(func.args.kwarg, func.args) args = func.args.args # If the function has no args, there is nothing left to do. if args is None: return 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: nodes.Module | nodes.ClassDef, member: type, localname: str ) -> nodes.ClassDef: """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 _get_args_info_from_callable( member: _FunctionTypes, ) -> tuple[list[str], list[str], list[Any], list[str], list[Any]]: """Returns args, posonlyargs, defaults, kwonlyargs. :note: currently ignores the return annotation. """ signature = inspect.signature(member) args: list[str] = [] defaults: list[Any] = [] posonlyargs: list[str] = [] kwonlyargs: list[str] = [] kwonlydefaults: list[Any] = [] 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.Parameter.empty: kwonlydefaults.append(param.default) continue if param.default is not inspect.Parameter.empty: defaults.append(param.default) return args, posonlyargs, defaults, kwonlyargs, kwonlydefaults def object_build_function( node: nodes.Module | nodes.ClassDef, member: _FunctionTypes, localname: str ) -> None: """create astroid for a living function object""" ( args, posonlyargs, defaults, kwonlyargs, kwonly_defaults, ) = _get_args_info_from_callable(member) func = build_function( getattr(member, "__name__", None) or localname, args, posonlyargs, defaults, member.__doc__, kwonlyargs=kwonlyargs, kwonlydefaults=kwonly_defaults, ) node.add_local_node(func, localname) def object_build_datadescriptor( node: nodes.Module | nodes.ClassDef, member: type, name: str ) -> nodes.ClassDef: """create astroid for a living data descriptor object""" return _base_class_object_build(node, member, [], name) def object_build_methoddescriptor( node: nodes.Module | nodes.ClassDef, member: _FunctionTypes, localname: str, ) -> None: """create astroid for a living method descriptor object""" # FIXME get arguments ? func = build_function( getattr(member, "__name__", None) or localname, doc=member.__doc__ ) node.add_local_node(func, localname) _add_dunder_class(func, member) def _base_class_object_build( node: nodes.Module | nodes.ClassDef, member: type, basenames: list[str], name: str | None = None, localname: str | None = None, ) -> nodes.ClassDef: """create astroid for a living class object, with a given set of base names (e.g. ancestors) """ class_name = name or getattr(member, "__name__", None) or localname assert isinstance(class_name, str) klass = build_class( class_name, 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: nodes.Module | nodes.ClassDef, name: str, member: _FunctionTypes, module: types.ModuleType, ) -> None: # verify this is not an imported function try: code = member.__code__ # type: ignore[union-attr] 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: str) -> bool: """Required because unexpected RunTimeError can be raised. See https://github.com/PyCQA/astroid/issues/1958 """ 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: AstroidManager | None = None) -> None: self._manager = manager_instance or AstroidManager() self._done: dict[types.ModuleType | type, nodes.Module | nodes.ClassDef] = {} self._module: types.ModuleType def inspect_build( self, module: types.ModuleType, modname: str | None = None, path: str | None = None, ) -> nodes.Module: """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) if path is None: node.path = node.file = path else: node.path = [os.path.abspath(path)] node.file = node.path[0] 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: nodes.Module | nodes.ClassDef, obj: types.ModuleType | type ) -> None: """recursive method which create a partial ast from real objects (only function, class, and method are handled) """ if obj in self._done: return None self._done[obj] = node for name in dir(obj): # inspect.ismethod() and inspect.isbuiltin() in PyPy return # the opposite of what they do in CPython for __class_getitem__. pypy__class_getitem__ = IS_PYPY and name == "__class_getitem__" try: with warnings.catch_warnings(): warnings.simplefilter("ignore") member = getattr(obj, name) except AttributeError: # damned ExtensionClass.Base, I know you're there ! attach_dummy_node(node, name) continue if inspect.ismethod(member) and not pypy__class_getitem__: member = member.__func__ if inspect.isfunction(member): _build_from_function(node, name, member, self._module) elif inspect.isbuiltin(member) or pypy__class_getitem__: if 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] assert isinstance(class_node, nodes.ClassDef) 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): object_build_methoddescriptor(node, member, name) elif inspect.isdatadescriptor(member): 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: str) -> bool: """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 # On PyPy during bootstrapping we infer _io while _module is # builtins. In CPython _io names itself io, see http://bugs.python.org/issue18602 # Therefore, this basically checks whether we are not in PyPy. if modname == "_io" and not self._module.__name__ == "builtins": return False real_name = {"gtk": "gtk_gtk"}.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: with redirect_stderr(io.StringIO()) as stderr, redirect_stdout( io.StringIO() ) as stdout: getattr(sys.modules[modname], name) stderr_value = stderr.getvalue() if stderr_value: logger.error( "Captured stderr while getting %s from %s:\n%s", name, sys.modules[modname], stderr_value, ) stdout_value = stdout.getvalue() if stdout_value: logger.info( "Captured stdout while getting %s from %s:\n%s", name, sys.modules[modname], stdout_value, ) except (KeyError, AttributeError): attach_dummy_node(node, name, member) else: attach_import_node(node, modname, name) return True return False # astroid bootstrapping ###################################################### _CONST_PROXY: dict[type, nodes.ClassDef] = {} def _set_proxied(const) -> nodes.ClassDef: # TODO : find a nicer way to handle this situation; return _CONST_PROXY[const.value.__class__] def _astroid_bootstrapping() -> None: """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] assert isinstance(proxy, nodes.ClassDef) 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__) _GeneratorType.parent = astroid_builtin generator_doc_node = ( nodes.Const(value=types.GeneratorType.__doc__) if types.GeneratorType.__doc__ else None ) _GeneratorType.postinit( bases=[], body=[], decorators=None, doc_node=generator_doc_node, ) bases.Generator._proxied = _GeneratorType builder.object_build(bases.Generator._proxied, types.GeneratorType) if hasattr(types, "AsyncGeneratorType"): _AsyncGeneratorType = nodes.ClassDef(types.AsyncGeneratorType.__name__) _AsyncGeneratorType.parent = astroid_builtin async_generator_doc_node = ( nodes.Const(value=types.AsyncGeneratorType.__doc__) if types.AsyncGeneratorType.__doc__ else None ) _AsyncGeneratorType.postinit( bases=[], body=[], decorators=None, doc_node=async_generator_doc_node, ) bases.AsyncGenerator._proxied = _AsyncGeneratorType builder.object_build(bases.AsyncGenerator._proxied, types.AsyncGeneratorType) if hasattr(types, "UnionType"): _UnionTypeType = nodes.ClassDef(types.UnionType.__name__) _UnionTypeType.parent = astroid_builtin union_type_doc_node = ( nodes.Const(value=types.UnionType.__doc__) if types.UnionType.__doc__ else None ) _UnionTypeType.postinit( bases=[], body=[], decorators=None, doc_node=union_type_doc_node, ) bases.UnionType._proxied = _UnionTypeType builder.object_build(bases.UnionType._proxied, types.UnionType) 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: klass = nodes.ClassDef(_type.__name__) klass.parent = astroid_builtin klass.postinit( bases=[], body=[], decorators=None, doc_node=nodes.Const(value=_type.__doc__) if _type.__doc__ else None, ) builder.object_build(klass, _type) astroid_builtin[_type.__name__] = klass _astroid_bootstrapping()