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Diffstat (limited to 'venv/Lib/site-packages/astroid/scoped_nodes.py')
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diff --git a/venv/Lib/site-packages/astroid/scoped_nodes.py b/venv/Lib/site-packages/astroid/scoped_nodes.py deleted file mode 100644 index d02b653..0000000 --- a/venv/Lib/site-packages/astroid/scoped_nodes.py +++ /dev/null @@ -1,2836 +0,0 @@ -# -*- coding: utf-8 -*- -# Copyright (c) 2006-2014 LOGILAB S.A. (Paris, FRANCE) <contact@logilab.fr> -# Copyright (c) 2010 Daniel Harding <dharding@gmail.com> -# Copyright (c) 2011, 2013-2015 Google, Inc. -# Copyright (c) 2013-2018 Claudiu Popa <pcmanticore@gmail.com> -# Copyright (c) 2013 Phil Schaf <flying-sheep@web.de> -# Copyright (c) 2014 Eevee (Alex Munroe) <amunroe@yelp.com> -# Copyright (c) 2015-2016 Florian Bruhin <me@the-compiler.org> -# Copyright (c) 2015-2016 Ceridwen <ceridwenv@gmail.com> -# Copyright (c) 2015 Rene Zhang <rz99@cornell.edu> -# Copyright (c) 2015 Philip Lorenz <philip@bithub.de> -# Copyright (c) 2016-2017 Derek Gustafson <degustaf@gmail.com> -# Copyright (c) 2017-2018 Bryce Guinta <bryce.paul.guinta@gmail.com> -# Copyright (c) 2017-2018 Ashley Whetter <ashley@awhetter.co.uk> -# Copyright (c) 2017 Ćukasz Rogalski <rogalski.91@gmail.com> -# Copyright (c) 2017 David Euresti <david@dropbox.com> -# Copyright (c) 2018 Nick Drozd <nicholasdrozd@gmail.com> -# Copyright (c) 2018 Anthony Sottile <asottile@umich.edu> -# Copyright (c) 2018 HoverHell <hoverhell@gmail.com> - -# Licensed under the LGPL: https://www.gnu.org/licenses/old-licenses/lgpl-2.1.en.html -# For details: https://github.com/PyCQA/astroid/blob/master/COPYING.LESSER - - -""" -This module contains the classes for "scoped" node, i.e. which are opening a -new local scope in the language definition : Module, ClassDef, FunctionDef (and -Lambda, GeneratorExp, DictComp and SetComp to some extent). -""" - -import builtins -import sys -import io -import itertools -from typing import Optional, List - -from astroid import bases -from astroid import context as contextmod -from astroid import exceptions -from astroid import decorators as decorators_mod -from astroid.interpreter import objectmodel -from astroid.interpreter import dunder_lookup -from astroid import manager -from astroid import mixins -from astroid import node_classes -from astroid import util - - -BUILTINS = builtins.__name__ -ITER_METHODS = ("__iter__", "__getitem__") -EXCEPTION_BASE_CLASSES = frozenset({"Exception", "BaseException"}) -objects = util.lazy_import("objects") - - -def _c3_merge(sequences, cls, context): - """Merges MROs in *sequences* to a single MRO using the C3 algorithm. - - Adapted from http://www.python.org/download/releases/2.3/mro/. - - """ - result = [] - while True: - sequences = [s for s in sequences if s] # purge empty sequences - if not sequences: - return result - for s1 in sequences: # find merge candidates among seq heads - candidate = s1[0] - for s2 in sequences: - if candidate in s2[1:]: - candidate = None - break # reject the current head, it appears later - else: - break - if not candidate: - # Show all the remaining bases, which were considered as - # candidates for the next mro sequence. - raise exceptions.InconsistentMroError( - message="Cannot create a consistent method resolution order " - "for MROs {mros} of class {cls!r}.", - mros=sequences, - cls=cls, - context=context, - ) - - result.append(candidate) - # remove the chosen candidate - for seq in sequences: - if seq[0] == candidate: - del seq[0] - return None - - -def clean_duplicates_mro(sequences, cls, context): - for sequence in sequences: - names = [ - (node.lineno, node.qname()) if node.name else None for node in sequence - ] - last_index = dict(map(reversed, enumerate(names))) - if names and names[0] is not None and last_index[names[0]] != 0: - raise exceptions.DuplicateBasesError( - message="Duplicates found in MROs {mros} for {cls!r}.", - mros=sequences, - cls=cls, - context=context, - ) - yield [ - node - for i, (node, name) in enumerate(zip(sequence, names)) - if name is None or last_index[name] == i - ] - - -def function_to_method(n, klass): - if isinstance(n, FunctionDef): - if n.type == "classmethod": - return bases.BoundMethod(n, klass) - if n.type != "staticmethod": - return bases.UnboundMethod(n) - return n - - -MANAGER = manager.AstroidManager() - - -def builtin_lookup(name): - """lookup a name into the builtin module - return the list of matching statements and the astroid for the builtin - module - """ - builtin_astroid = MANAGER.ast_from_module(builtins) - if name == "__dict__": - return builtin_astroid, () - try: - stmts = builtin_astroid.locals[name] - except KeyError: - stmts = () - return builtin_astroid, stmts - - -# TODO move this Mixin to mixins.py; problem: 'FunctionDef' in _scope_lookup -class LocalsDictNodeNG(node_classes.LookupMixIn, node_classes.NodeNG): - """ this class provides locals handling common to Module, FunctionDef - and ClassDef nodes, including a dict like interface for direct access - to locals information - """ - - # attributes below are set by the builder module or by raw factories - - locals = {} - """A map of the name of a local variable to the node defining the local. - - :type: dict(str, NodeNG) - """ - - def qname(self): - """Get the 'qualified' name of the node. - - For example: module.name, module.class.name ... - - :returns: The qualified name. - :rtype: str - """ - # pylint: disable=no-member; github.com/pycqa/astroid/issues/278 - if self.parent is None: - return self.name - return "%s.%s" % (self.parent.frame().qname(), self.name) - - def frame(self): - """The first parent frame node. - - A frame node is a :class:`Module`, :class:`FunctionDef`, - or :class:`ClassDef`. - - :returns: The first parent frame node. - :rtype: Module or FunctionDef or ClassDef - """ - return self - - def scope(self): - """The first parent node defining a new scope. - - :returns: The first parent scope node. - :rtype: Module or FunctionDef or ClassDef or Lambda or GenExpr - """ - return self - - def _scope_lookup(self, node, name, offset=0): - """XXX method for interfacing the scope lookup""" - try: - stmts = node._filter_stmts(self.locals[name], self, offset) - except KeyError: - stmts = () - if stmts: - return self, stmts - if self.parent: # i.e. not Module - # nested scope: if parent scope is a function, that's fine - # else jump to the module - pscope = self.parent.scope() - if not pscope.is_function: - pscope = pscope.root() - return pscope.scope_lookup(node, name) - return builtin_lookup(name) # Module - - def set_local(self, name, stmt): - """Define that the given name is declared in the given statement node. - - .. seealso:: :meth:`scope` - - :param name: The name that is being defined. - :type name: str - - :param stmt: The statement that defines the given name. - :type stmt: NodeNG - """ - # assert not stmt in self.locals.get(name, ()), (self, stmt) - self.locals.setdefault(name, []).append(stmt) - - __setitem__ = set_local - - def _append_node(self, child): - """append a child, linking it in the tree""" - # pylint: disable=no-member; depending by the class - # which uses the current class as a mixin or base class. - # It's rewritten in 2.0, so it makes no sense for now - # to spend development time on it. - self.body.append(child) - child.parent = self - - def add_local_node(self, child_node, name=None): - """Append a child that should alter the locals of this scope node. - - :param child_node: The child node that will alter locals. - :type child_node: NodeNG - - :param name: The name of the local that will be altered by - the given child node. - :type name: str or None - """ - if name != "__class__": - # add __class__ node as a child will cause infinite recursion later! - self._append_node(child_node) - self.set_local(name or child_node.name, child_node) - - def __getitem__(self, item): - """The first node the defines the given local. - - :param item: The name of the locally defined object. - :type item: str - - :raises KeyError: If the name is not defined. - """ - return self.locals[item][0] - - def __iter__(self): - """Iterate over the names of locals defined in this scoped node. - - :returns: The names of the defined locals. - :rtype: iterable(str) - """ - return iter(self.keys()) - - def keys(self): - """The names of locals defined in this scoped node. - - :returns: The names of the defined locals. - :rtype: list(str) - """ - return list(self.locals.keys()) - - def values(self): - """The nodes that define the locals in this scoped node. - - :returns: The nodes that define locals. - :rtype: list(NodeNG) - """ - return [self[key] for key in self.keys()] - - def items(self): - """Get the names of the locals and the node that defines the local. - - :returns: The names of locals and their associated node. - :rtype: list(tuple(str, NodeNG)) - """ - return list(zip(self.keys(), self.values())) - - def __contains__(self, name): - """Check if a local is defined in this scope. - - :param name: The name of the local to check for. - :type name: str - - :returns: True if this node has a local of the given name, - False otherwise. - :rtype: bool - """ - return name in self.locals - - -class Module(LocalsDictNodeNG): - """Class representing an :class:`ast.Module` node. - - >>> node = astroid.extract_node('import astroid') - >>> node - <Import l.1 at 0x7f23b2e4e5c0> - >>> node.parent - <Module l.0 at 0x7f23b2e4eda0> - """ - - _astroid_fields = ("body",) - - fromlineno = 0 - """The first line that this node appears on in the source code. - - :type: int or None - """ - lineno = 0 - """The line that this node appears on in the source code. - - :type: int or None - """ - - # attributes below are set by the builder module or by raw factories - - file = None - """The path to the file that this ast has been extracted from. - - This will be ``None`` when the representation has been built from a - built-in module. - - :type: str or None - """ - file_bytes = None - """The string/bytes that this ast was built from. - - :type: str or bytes or None - """ - file_encoding = None - """The encoding of the source file. - - This is used to get unicode out of a source file. - Python 2 only. - - :type: str or None - """ - name = None - """The name of the module. - - :type: str or None - """ - pure_python = None - """Whether the ast was built from source. - - :type: bool or None - """ - package = None - """Whether the node represents a package or a module. - - :type: bool or None - """ - globals = None - """A map of the name of a global variable to the node defining the global. - - :type: dict(str, NodeNG) - """ - - # Future imports - future_imports = None - """The imports from ``__future__``. - - :type: set(str) or None - """ - special_attributes = objectmodel.ModuleModel() - """The names of special attributes that this module has. - - :type: objectmodel.ModuleModel - """ - - # names of module attributes available through the global scope - scope_attrs = {"__name__", "__doc__", "__file__", "__path__", "__package__"} - """The names of module attributes available through the global scope. - - :type: str(str) - """ - - _other_fields = ( - "name", - "doc", - "file", - "path", - "package", - "pure_python", - "future_imports", - ) - _other_other_fields = ("locals", "globals") - - def __init__( - self, - name, - doc, - file=None, - path: Optional[List[str]] = None, - package=None, - parent=None, - pure_python=True, - ): - """ - :param name: The name of the module. - :type name: str - - :param doc: The module docstring. - :type doc: str - - :param file: The path to the file that this ast has been extracted from. - :type file: str or None - - :param path: - :type path: Optional[List[str]] - - :param package: Whether the node represents a package or a module. - :type package: bool or None - - :param parent: The parent node in the syntax tree. - :type parent: NodeNG or None - - :param pure_python: Whether the ast was built from source. - :type pure_python: bool or None - """ - self.name = name - self.doc = doc - self.file = file - self.path = path - self.package = package - self.parent = parent - self.pure_python = pure_python - self.locals = self.globals = {} - """A map of the name of a local variable to the node defining the local. - - :type: dict(str, NodeNG) - """ - self.body = [] - """The contents of the module. - - :type: list(NodeNG) or None - """ - self.future_imports = set() - - # pylint: enable=redefined-builtin - - def postinit(self, body=None): - """Do some setup after initialisation. - - :param body: The contents of the module. - :type body: list(NodeNG) or None - """ - self.body = body - - def _get_stream(self): - if self.file_bytes is not None: - return io.BytesIO(self.file_bytes) - if self.file is not None: - stream = open(self.file, "rb") - return stream - return None - - def stream(self): - """Get a stream to the underlying file or bytes. - - :type: file or io.BytesIO or None - """ - return self._get_stream() - - def block_range(self, lineno): - """Get a range from where this node starts to where this node ends. - - :param lineno: Unused. - :type lineno: int - - :returns: The range of line numbers that this node belongs to. - :rtype: tuple(int, int) - """ - return self.fromlineno, self.tolineno - - def scope_lookup(self, node, name, offset=0): - """Lookup where the given variable is assigned. - - :param node: The node to look for assignments up to. - Any assignments after the given node are ignored. - :type node: NodeNG - - :param name: The name of the variable to find assignments for. - :type name: str - - :param offset: The line offset to filter statements up to. - :type offset: int - - :returns: This scope node and the list of assignments associated to the - given name according to the scope where it has been found (locals, - globals or builtin). - :rtype: tuple(str, list(NodeNG)) - """ - if name in self.scope_attrs and name not in self.locals: - try: - return self, self.getattr(name) - except exceptions.AttributeInferenceError: - return self, () - return self._scope_lookup(node, name, offset) - - def pytype(self): - """Get the name of the type that this node represents. - - :returns: The name of the type. - :rtype: str - """ - return "%s.module" % BUILTINS - - def display_type(self): - """A human readable type of this node. - - :returns: The type of this node. - :rtype: str - """ - return "Module" - - def getattr(self, name, context=None, ignore_locals=False): - result = [] - name_in_locals = name in self.locals - - if name in self.special_attributes and not ignore_locals and not name_in_locals: - result = [self.special_attributes.lookup(name)] - elif not ignore_locals and name_in_locals: - result = self.locals[name] - elif self.package: - try: - result = [self.import_module(name, relative_only=True)] - except (exceptions.AstroidBuildingError, SyntaxError) as exc: - raise exceptions.AttributeInferenceError( - target=self, attribute=name, context=context - ) from exc - result = [n for n in result if not isinstance(n, node_classes.DelName)] - if result: - return result - raise exceptions.AttributeInferenceError( - target=self, attribute=name, context=context - ) - - def igetattr(self, name, context=None): - """Infer the possible values of the given variable. - - :param name: The name of the variable to infer. - :type name: str - - :returns: The inferred possible values. - :rtype: iterable(NodeNG) or None - """ - # set lookup name since this is necessary to infer on import nodes for - # instance - context = contextmod.copy_context(context) - context.lookupname = name - try: - return bases._infer_stmts(self.getattr(name, context), context, frame=self) - except exceptions.AttributeInferenceError as error: - raise exceptions.InferenceError( - error.message, target=self, attribute=name, context=context - ) from error - - def fully_defined(self): - """Check if this module has been build from a .py file. - - If so, the module contains a complete representation, - including the code. - - :returns: True if the module has been built from a .py file. - :rtype: bool - """ - return self.file is not None and self.file.endswith(".py") - - def statement(self): - """The first parent node, including self, marked as statement node. - - :returns: The first parent statement. - :rtype: NodeNG - """ - return self - - def previous_sibling(self): - """The previous sibling statement. - - :returns: The previous sibling statement node. - :rtype: NodeNG or None - """ - - def next_sibling(self): - """The next sibling statement node. - - :returns: The next sibling statement node. - :rtype: NodeNG or None - """ - - _absolute_import_activated = True - - def absolute_import_activated(self): - """Whether :pep:`328` absolute import behaviour has been enabled. - - :returns: True if :pep:`328` has been enabled, False otherwise. - :rtype: bool - """ - return self._absolute_import_activated - - def import_module(self, modname, relative_only=False, level=None): - """Get the ast for a given module as if imported from this module. - - :param modname: The name of the module to "import". - :type modname: str - - :param relative_only: Whether to only consider relative imports. - :type relative_only: bool - - :param level: The level of relative import. - :type level: int or None - - :returns: The imported module ast. - :rtype: NodeNG - """ - if relative_only and level is None: - level = 0 - absmodname = self.relative_to_absolute_name(modname, level) - - try: - return MANAGER.ast_from_module_name(absmodname) - except exceptions.AstroidBuildingError: - # we only want to import a sub module or package of this module, - # skip here - if relative_only: - raise - return MANAGER.ast_from_module_name(modname) - - def relative_to_absolute_name(self, modname, level): - """Get the absolute module name for a relative import. - - The relative import can be implicit or explicit. - - :param modname: The module name to convert. - :type modname: str - - :param level: The level of relative import. - :type level: int - - :returns: The absolute module name. - :rtype: str - - :raises TooManyLevelsError: When the relative import refers to a - module too far above this one. - """ - # XXX this returns non sens when called on an absolute import - # like 'pylint.checkers.astroid.utils' - # XXX doesn't return absolute name if self.name isn't absolute name - if self.absolute_import_activated() and level is None: - return modname - if level: - if self.package: - level = level - 1 - if level and self.name.count(".") < level: - raise exceptions.TooManyLevelsError(level=level, name=self.name) - - package_name = self.name.rsplit(".", level)[0] - elif self.package: - package_name = self.name - else: - package_name = self.name.rsplit(".", 1)[0] - - if package_name: - if not modname: - return package_name - return "%s.%s" % (package_name, modname) - return modname - - def wildcard_import_names(self): - """The list of imported names when this module is 'wildcard imported'. - - It doesn't include the '__builtins__' name which is added by the - current CPython implementation of wildcard imports. - - :returns: The list of imported names. - :rtype: list(str) - """ - # We separate the different steps of lookup in try/excepts - # to avoid catching too many Exceptions - default = [name for name in self.keys() if not name.startswith("_")] - try: - all_values = self["__all__"] - except KeyError: - return default - - try: - explicit = next(all_values.assigned_stmts()) - except exceptions.InferenceError: - return default - except AttributeError: - # not an assignment node - # XXX infer? - return default - - # Try our best to detect the exported name. - inferred = [] - try: - explicit = next(explicit.infer()) - except exceptions.InferenceError: - return default - if not isinstance(explicit, (node_classes.Tuple, node_classes.List)): - return default - - str_const = lambda node: ( - isinstance(node, node_classes.Const) and isinstance(node.value, str) - ) - for node in explicit.elts: - if str_const(node): - inferred.append(node.value) - else: - try: - inferred_node = next(node.infer()) - except exceptions.InferenceError: - continue - if str_const(inferred_node): - inferred.append(inferred_node.value) - return inferred - - def public_names(self): - """The list of the names that are publicly available in this module. - - :returns: The list of publc names. - :rtype: list(str) - """ - return [name for name in self.keys() if not name.startswith("_")] - - def bool_value(self): - """Determine the boolean value of this node. - - :returns: The boolean value of this node. - For a :class:`Module` this is always ``True``. - :rtype: bool - """ - return True - - def get_children(self): - yield from self.body - - -class ComprehensionScope(LocalsDictNodeNG): - """Scoping for different types of comprehensions.""" - - def frame(self): - """The first parent frame node. - - A frame node is a :class:`Module`, :class:`FunctionDef`, - or :class:`ClassDef`. - - :returns: The first parent frame node. - :rtype: Module or FunctionDef or ClassDef - """ - return self.parent.frame() - - scope_lookup = LocalsDictNodeNG._scope_lookup - - -class GeneratorExp(ComprehensionScope): - """Class representing an :class:`ast.GeneratorExp` node. - - >>> node = astroid.extract_node('(thing for thing in things if thing)') - >>> node - <GeneratorExp l.1 at 0x7f23b2e4e400> - """ - - _astroid_fields = ("elt", "generators") - _other_other_fields = ("locals",) - elt = None - """The element that forms the output of the expression. - - :type: NodeNG or None - """ - generators = None - """The generators that are looped through. - - :type: list(Comprehension) or None - """ - - def __init__(self, lineno=None, col_offset=None, parent=None): - """ - :param lineno: The line that this node appears on in the source code. - :type lineno: int or None - - :param col_offset: The column that this node appears on in the - source code. - :type col_offset: int or None - - :param parent: The parent node in the syntax tree. - :type parent: NodeNG or None - """ - self.locals = {} - """A map of the name of a local variable to the node defining the local. - - :type: dict(str, NodeNG) - """ - - super(GeneratorExp, self).__init__(lineno, col_offset, parent) - - def postinit(self, elt=None, generators=None): - """Do some setup after initialisation. - - :param elt: The element that forms the output of the expression. - :type elt: NodeNG or None - - :param generators: The generators that are looped through. - :type generators: list(Comprehension) or None - """ - self.elt = elt - if generators is None: - self.generators = [] - else: - self.generators = generators - - def bool_value(self): - """Determine the boolean value of this node. - - :returns: The boolean value of this node. - For a :class:`GeneratorExp` this is always ``True``. - :rtype: bool - """ - return True - - def get_children(self): - yield self.elt - - yield from self.generators - - -class DictComp(ComprehensionScope): - """Class representing an :class:`ast.DictComp` node. - - >>> node = astroid.extract_node('{k:v for k, v in things if k > v}') - >>> node - <DictComp l.1 at 0x7f23b2e41d68> - """ - - _astroid_fields = ("key", "value", "generators") - _other_other_fields = ("locals",) - key = None - """What produces the keys. - - :type: NodeNG or None - """ - value = None - """What produces the values. - - :type: NodeNG or None - """ - generators = None - """The generators that are looped through. - - :type: list(Comprehension) or None - """ - - def __init__(self, lineno=None, col_offset=None, parent=None): - """ - :param lineno: The line that this node appears on in the source code. - :type lineno: int or None - - :param col_offset: The column that this node appears on in the - source code. - :type col_offset: int or None - - :param parent: The parent node in the syntax tree. - :type parent: NodeNG or None - """ - self.locals = {} - """A map of the name of a local variable to the node defining the local. - - :type: dict(str, NodeNG) - """ - - super(DictComp, self).__init__(lineno, col_offset, parent) - - def postinit(self, key=None, value=None, generators=None): - """Do some setup after initialisation. - - :param key: What produces the keys. - :type key: NodeNG or None - - :param value: What produces the values. - :type value: NodeNG or None - - :param generators: The generators that are looped through. - :type generators: list(Comprehension) or None - """ - self.key = key - self.value = value - if generators is None: - self.generators = [] - else: - self.generators = generators - - def bool_value(self): - """Determine the boolean value of this node. - - :returns: The boolean value of this node. - For a :class:`DictComp` this is always :class:`Uninferable`. - :rtype: Uninferable - """ - return util.Uninferable - - def get_children(self): - yield self.key - yield self.value - - yield from self.generators - - -class SetComp(ComprehensionScope): - """Class representing an :class:`ast.SetComp` node. - - >>> node = astroid.extract_node('{thing for thing in things if thing}') - >>> node - <SetComp l.1 at 0x7f23b2e41898> - """ - - _astroid_fields = ("elt", "generators") - _other_other_fields = ("locals",) - elt = None - """The element that forms the output of the expression. - - :type: NodeNG or None - """ - generators = None - """The generators that are looped through. - - :type: list(Comprehension) or None - """ - - def __init__(self, lineno=None, col_offset=None, parent=None): - """ - :param lineno: The line that this node appears on in the source code. - :type lineno: int or None - - :param col_offset: The column that this node appears on in the - source code. - :type col_offset: int or None - - :param parent: The parent node in the syntax tree. - :type parent: NodeNG or None - """ - self.locals = {} - """A map of the name of a local variable to the node defining the local. - - :type: dict(str, NodeNG) - """ - - super(SetComp, self).__init__(lineno, col_offset, parent) - - def postinit(self, elt=None, generators=None): - """Do some setup after initialisation. - - :param elt: The element that forms the output of the expression. - :type elt: NodeNG or None - - :param generators: The generators that are looped through. - :type generators: list(Comprehension) or None - """ - self.elt = elt - if generators is None: - self.generators = [] - else: - self.generators = generators - - def bool_value(self): - """Determine the boolean value of this node. - - :returns: The boolean value of this node. - For a :class:`SetComp` this is always :class:`Uninferable`. - :rtype: Uninferable - """ - return util.Uninferable - - def get_children(self): - yield self.elt - - yield from self.generators - - -class _ListComp(node_classes.NodeNG): - """Class representing an :class:`ast.ListComp` node. - - >>> node = astroid.extract_node('[thing for thing in things if thing]') - >>> node - <ListComp l.1 at 0x7f23b2e418d0> - """ - - _astroid_fields = ("elt", "generators") - elt = None - """The element that forms the output of the expression. - - :type: NodeNG or None - """ - generators = None - """The generators that are looped through. - - :type: list(Comprehension) or None - """ - - def postinit(self, elt=None, generators=None): - """Do some setup after initialisation. - - :param elt: The element that forms the output of the expression. - :type elt: NodeNG or None - - :param generators: The generators that are looped through. - :type generators: list(Comprehension) or None - """ - self.elt = elt - self.generators = generators - - def bool_value(self): - """Determine the boolean value of this node. - - :returns: The boolean value of this node. - For a :class:`ListComp` this is always :class:`Uninferable`. - :rtype: Uninferable - """ - return util.Uninferable - - def get_children(self): - yield self.elt - - yield from self.generators - - -class ListComp(_ListComp, ComprehensionScope): - """Class representing an :class:`ast.ListComp` node. - - >>> node = astroid.extract_node('[thing for thing in things if thing]') - >>> node - <ListComp l.1 at 0x7f23b2e418d0> - """ - - _other_other_fields = ("locals",) - - def __init__(self, lineno=None, col_offset=None, parent=None): - self.locals = {} - """A map of the name of a local variable to the node defining it. - - :type: dict(str, NodeNG) - """ - - super(ListComp, self).__init__(lineno, col_offset, parent) - - -def _infer_decorator_callchain(node): - """Detect decorator call chaining and see if the end result is a - static or a classmethod. - """ - if not isinstance(node, FunctionDef): - return None - if not node.parent: - return None - try: - result = next(node.infer_call_result(node.parent)) - except exceptions.InferenceError: - return None - if isinstance(result, bases.Instance): - result = result._proxied - if isinstance(result, ClassDef): - if result.is_subtype_of("%s.classmethod" % BUILTINS): - return "classmethod" - if result.is_subtype_of("%s.staticmethod" % BUILTINS): - return "staticmethod" - return None - - -class Lambda(mixins.FilterStmtsMixin, LocalsDictNodeNG): - """Class representing an :class:`ast.Lambda` node. - - >>> node = astroid.extract_node('lambda arg: arg + 1') - >>> node - <Lambda.<lambda> l.1 at 0x7f23b2e41518> - """ - - _astroid_fields = ("args", "body") - _other_other_fields = ("locals",) - name = "<lambda>" - is_lambda = True - - def implicit_parameters(self): - return 0 - - # function's type, 'function' | 'method' | 'staticmethod' | 'classmethod' - @property - def type(self): - """Whether this is a method or function. - - :returns: 'method' if this is a method, 'function' otherwise. - :rtype: str - """ - # pylint: disable=no-member - if self.args.args and self.args.args[0].name == "self": - if isinstance(self.parent.scope(), ClassDef): - return "method" - return "function" - - def __init__(self, lineno=None, col_offset=None, parent=None): - """ - :param lineno: The line that this node appears on in the source code. - :type lineno: int or None - - :param col_offset: The column that this node appears on in the - source code. - :type col_offset: int or None - - :param parent: The parent node in the syntax tree. - :type parent: NodeNG or None - """ - self.locals = {} - """A map of the name of a local variable to the node defining it. - - :type: dict(str, NodeNG) - """ - - self.args = [] - """The arguments that the function takes. - - :type: Arguments or list - """ - - self.body = [] - """The contents of the function body. - - :type: list(NodeNG) - """ - - super(Lambda, self).__init__(lineno, col_offset, parent) - - def postinit(self, args, body): - """Do some setup after initialisation. - - :param args: The arguments that the function takes. - :type args: Arguments - - :param body: The contents of the function body. - :type body: list(NodeNG) - """ - self.args = args - self.body = body - - def pytype(self): - """Get the name of the type that this node represents. - - :returns: The name of the type. - :rtype: str - """ - if "method" in self.type: - return "%s.instancemethod" % BUILTINS - return "%s.function" % BUILTINS - - def display_type(self): - """A human readable type of this node. - - :returns: The type of this node. - :rtype: str - """ - if "method" in self.type: - return "Method" - return "Function" - - def callable(self): - """Whether this node defines something that is callable. - - :returns: True if this defines something that is callable, - False otherwise. - For a :class:`Lambda` this is always ``True``. - :rtype: bool - """ - return True - - def argnames(self): - """Get the names of each of the arguments. - - :returns: The names of the arguments. - :rtype: list(str) - """ - # pylint: disable=no-member; github.com/pycqa/astroid/issues/291 - # args is in fact redefined later on by postinit. Can't be changed - # to None due to a strong interaction between Lambda and FunctionDef. - - if self.args.args: # maybe None with builtin functions - names = _rec_get_names(self.args.args) - else: - names = [] - if self.args.vararg: - names.append(self.args.vararg) - if self.args.kwarg: - names.append(self.args.kwarg) - return names - - def infer_call_result(self, caller, context=None): - """Infer what the function returns when called. - - :param caller: Unused - :type caller: object - """ - # pylint: disable=no-member; github.com/pycqa/astroid/issues/291 - # args is in fact redefined later on by postinit. Can't be changed - # to None due to a strong interaction between Lambda and FunctionDef. - return self.body.infer(context) - - def scope_lookup(self, node, name, offset=0): - """Lookup where the given names is assigned. - - :param node: The node to look for assignments up to. - Any assignments after the given node are ignored. - :type node: NodeNG - - :param name: The name to find assignments for. - :type name: str - - :param offset: The line offset to filter statements up to. - :type offset: int - - :returns: This scope node and the list of assignments associated to the - given name according to the scope where it has been found (locals, - globals or builtin). - :rtype: tuple(str, list(NodeNG)) - """ - # pylint: disable=no-member; github.com/pycqa/astroid/issues/291 - # args is in fact redefined later on by postinit. Can't be changed - # to None due to a strong interaction between Lambda and FunctionDef. - - if node in self.args.defaults or node in self.args.kw_defaults: - frame = self.parent.frame() - # line offset to avoid that def func(f=func) resolve the default - # value to the defined function - offset = -1 - else: - # check this is not used in function decorators - frame = self - return frame._scope_lookup(node, name, offset) - - def bool_value(self): - """Determine the boolean value of this node. - - :returns: The boolean value of this node. - For a :class:`Lambda` this is always ``True``. - :rtype: bool - """ - return True - - def get_children(self): - yield self.args - yield self.body - - -class FunctionDef(mixins.MultiLineBlockMixin, node_classes.Statement, Lambda): - """Class representing an :class:`ast.FunctionDef`. - - >>> node = astroid.extract_node(''' - ... def my_func(arg): - ... return arg + 1 - ... ''') - >>> node - <FunctionDef.my_func l.2 at 0x7f23b2e71e10> - """ - - _astroid_fields = ("decorators", "args", "returns", "body") - _multi_line_block_fields = ("body",) - returns = None - decorators = None - """The decorators that are applied to this method or function. - - :type: Decorators or None - """ - special_attributes = objectmodel.FunctionModel() - """The names of special attributes that this function has. - - :type: objectmodel.FunctionModel - """ - is_function = True - """Whether this node indicates a function. - - For a :class:`FunctionDef` this is always ``True``. - - :type: bool - """ - type_annotation = None - """If present, this will contain the type annotation passed by a type comment - - :type: NodeNG or None - """ - type_comment_args = None - """ - If present, this will contain the type annotation for arguments - passed by a type comment - """ - type_comment_returns = None - """If present, this will contain the return type annotation, passed by a type comment""" - # attributes below are set by the builder module or by raw factories - _other_fields = ("name", "doc") - _other_other_fields = ( - "locals", - "_type", - "type_comment_returns", - "type_comment_args", - ) - _type = None - - def __init__(self, name=None, doc=None, lineno=None, col_offset=None, parent=None): - """ - :param name: The name of the function. - :type name: str or None - - :param doc: The function's docstring. - :type doc: str or None - - :param lineno: The line that this node appears on in the source code. - :type lineno: int or None - - :param col_offset: The column that this node appears on in the - source code. - :type col_offset: int or None - - :param parent: The parent node in the syntax tree. - :type parent: NodeNG or None - """ - self.name = name - """The name of the function. - - :type name: str or None - """ - - self.doc = doc - """The function's docstring. - - :type doc: str or None - """ - - self.instance_attrs = {} - super(FunctionDef, self).__init__(lineno, col_offset, parent) - if parent: - frame = parent.frame() - frame.set_local(name, self) - - # pylint: disable=arguments-differ; different than Lambdas - def postinit( - self, - args, - body, - decorators=None, - returns=None, - type_comment_returns=None, - type_comment_args=None, - ): - """Do some setup after initialisation. - - :param args: The arguments that the function takes. - :type args: Arguments or list - - :param body: The contents of the function body. - :type body: list(NodeNG) - - :param decorators: The decorators that are applied to this - method or function. - :type decorators: Decorators or None - :params type_comment_returns: - The return type annotation passed via a type comment. - :params type_comment_args: - The args type annotation passed via a type comment. - """ - self.args = args - self.body = body - self.decorators = decorators - self.returns = returns - self.type_comment_returns = type_comment_returns - self.type_comment_args = type_comment_args - - @decorators_mod.cachedproperty - def extra_decorators(self): - """The extra decorators that this function can have. - - Additional decorators are considered when they are used as - assignments, as in ``method = staticmethod(method)``. - The property will return all the callables that are used for - decoration. - - :type: list(NodeNG) - """ - frame = self.parent.frame() - if not isinstance(frame, ClassDef): - return [] - - decorators = [] - for assign in frame._get_assign_nodes(): - if isinstance(assign.value, node_classes.Call) and isinstance( - assign.value.func, node_classes.Name - ): - for assign_node in assign.targets: - if not isinstance(assign_node, node_classes.AssignName): - # Support only `name = callable(name)` - continue - - if assign_node.name != self.name: - # Interested only in the assignment nodes that - # decorates the current method. - continue - try: - meth = frame[self.name] - except KeyError: - continue - else: - # Must be a function and in the same frame as the - # original method. - if ( - isinstance(meth, FunctionDef) - and assign_node.frame() == frame - ): - decorators.append(assign.value) - return decorators - - @decorators_mod.cachedproperty - def type(self): # pylint: disable=invalid-overridden-method - """The function type for this node. - - Possible values are: method, function, staticmethod, classmethod. - - :type: str - """ - builtin_descriptors = {"classmethod", "staticmethod"} - - for decorator in self.extra_decorators: - if decorator.func.name in builtin_descriptors: - return decorator.func.name - - frame = self.parent.frame() - type_name = "function" - if isinstance(frame, ClassDef): - if self.name == "__new__": - return "classmethod" - if sys.version_info >= (3, 6) and self.name == "__init_subclass__": - return "classmethod" - - type_name = "method" - - if not self.decorators: - return type_name - - for node in self.decorators.nodes: - if isinstance(node, node_classes.Name): - if node.name in builtin_descriptors: - return node.name - - if isinstance(node, node_classes.Call): - # Handle the following case: - # @some_decorator(arg1, arg2) - # def func(...) - # - try: - current = next(node.func.infer()) - except exceptions.InferenceError: - continue - _type = _infer_decorator_callchain(current) - if _type is not None: - return _type - - try: - for inferred in node.infer(): - # Check to see if this returns a static or a class method. - _type = _infer_decorator_callchain(inferred) - if _type is not None: - return _type - - if not isinstance(inferred, ClassDef): - continue - for ancestor in inferred.ancestors(): - if not isinstance(ancestor, ClassDef): - continue - if ancestor.is_subtype_of("%s.classmethod" % BUILTINS): - return "classmethod" - if ancestor.is_subtype_of("%s.staticmethod" % BUILTINS): - return "staticmethod" - except exceptions.InferenceError: - pass - return type_name - - @decorators_mod.cachedproperty - def fromlineno(self): - """The first line that this node appears on in the source code. - - :type: int or None - """ - # lineno is the line number of the first decorator, we want the def - # statement lineno - lineno = self.lineno - if self.decorators is not None: - lineno += sum( - node.tolineno - node.lineno + 1 for node in self.decorators.nodes - ) - - return lineno - - @decorators_mod.cachedproperty - def blockstart_tolineno(self): - """The line on which the beginning of this block ends. - - :type: int - """ - return self.args.tolineno - - def block_range(self, lineno): - """Get a range from the given line number to where this node ends. - - :param lineno: Unused. - :type lineno: int - - :returns: The range of line numbers that this node belongs to, - :rtype: tuple(int, int) - """ - return self.fromlineno, self.tolineno - - def getattr(self, name, context=None): - """this method doesn't look in the instance_attrs dictionary since it's - done by an Instance proxy at inference time. - """ - if name in self.instance_attrs: - return self.instance_attrs[name] - if name in self.special_attributes: - return [self.special_attributes.lookup(name)] - raise exceptions.AttributeInferenceError(target=self, attribute=name) - - def igetattr(self, name, context=None): - """Inferred getattr, which returns an iterator of inferred statements.""" - try: - return bases._infer_stmts(self.getattr(name, context), context, frame=self) - except exceptions.AttributeInferenceError as error: - raise exceptions.InferenceError( - error.message, target=self, attribute=name, context=context - ) from error - - def is_method(self): - """Check if this function node represents a method. - - :returns: True if this is a method, False otherwise. - :rtype: bool - """ - # check we are defined in a ClassDef, because this is usually expected - # (e.g. pylint...) when is_method() return True - return self.type != "function" and isinstance(self.parent.frame(), ClassDef) - - @decorators_mod.cached - def decoratornames(self): - """Get the qualified names of each of the decorators on this function. - - :returns: The names of the decorators. - :rtype: set(str) - """ - result = set() - decoratornodes = [] - if self.decorators is not None: - decoratornodes += self.decorators.nodes - decoratornodes += self.extra_decorators - for decnode in decoratornodes: - try: - for infnode in decnode.infer(): - result.add(infnode.qname()) - except exceptions.InferenceError: - continue - return result - - def is_bound(self): - """Check if the function is bound to an instance or class. - - :returns: True if the function is bound to an instance or class, - False otherwise. - :rtype: bool - """ - return self.type == "classmethod" - - def is_abstract(self, pass_is_abstract=True): - """Check if the method is abstract. - - A method is considered abstract if any of the following is true: - * The only statement is 'raise NotImplementedError' - * The only statement is 'pass' and pass_is_abstract is True - * The method is annotated with abc.astractproperty/abc.abstractmethod - - :returns: True if the method is abstract, False otherwise. - :rtype: bool - """ - if self.decorators: - for node in self.decorators.nodes: - try: - inferred = next(node.infer()) - except exceptions.InferenceError: - continue - if inferred and inferred.qname() in ( - "abc.abstractproperty", - "abc.abstractmethod", - ): - return True - - for child_node in self.body: - if isinstance(child_node, node_classes.Raise): - if child_node.raises_not_implemented(): - return True - return pass_is_abstract and isinstance(child_node, node_classes.Pass) - # empty function is the same as function with a single "pass" statement - if pass_is_abstract: - return True - - def is_generator(self): - """Check if this is a generator function. - - :returns: True is this is a generator function, False otherwise. - :rtype: bool - """ - return next(self._get_yield_nodes_skip_lambdas(), False) - - def infer_call_result(self, caller=None, context=None): - """Infer what the function returns when called. - - :returns: What the function returns. - :rtype: iterable(NodeNG or Uninferable) or None - """ - if self.is_generator(): - if isinstance(self, AsyncFunctionDef): - generator_cls = bases.AsyncGenerator - else: - generator_cls = bases.Generator - result = generator_cls(self) - yield result - return - # This is really a gigantic hack to work around metaclass generators - # that return transient class-generating functions. Pylint's AST structure - # cannot handle a base class object that is only used for calling __new__, - # but does not contribute to the inheritance structure itself. We inject - # a fake class into the hierarchy here for several well-known metaclass - # generators, and filter it out later. - if ( - self.name == "with_metaclass" - and len(self.args.args) == 1 - and self.args.vararg is not None - ): - metaclass = next(caller.args[0].infer(context)) - if isinstance(metaclass, ClassDef): - class_bases = [next(arg.infer(context)) for arg in caller.args[1:]] - new_class = ClassDef(name="temporary_class") - new_class.hide = True - new_class.parent = self - new_class.postinit( - bases=[base for base in class_bases if base != util.Uninferable], - body=[], - decorators=[], - metaclass=metaclass, - ) - yield new_class - return - returns = self._get_return_nodes_skip_functions() - - first_return = next(returns, None) - if not first_return: - if self.body and isinstance(self.body[-1], node_classes.Assert): - yield node_classes.Const(None) - return - - raise exceptions.InferenceError( - "The function does not have any return statements" - ) - - for returnnode in itertools.chain((first_return,), returns): - if returnnode.value is None: - yield node_classes.Const(None) - else: - try: - yield from returnnode.value.infer(context) - except exceptions.InferenceError: - yield util.Uninferable - - def bool_value(self): - """Determine the boolean value of this node. - - :returns: The boolean value of this node. - For a :class:`FunctionDef` this is always ``True``. - :rtype: bool - """ - return True - - def get_children(self): - if self.decorators is not None: - yield self.decorators - - yield self.args - - if self.returns is not None: - yield self.returns - - yield from self.body - - def scope_lookup(self, node, name, offset=0): - """Lookup where the given name is assigned.""" - if name == "__class__": - # __class__ is an implicit closure reference created by the compiler - # if any methods in a class body refer to either __class__ or super. - # In our case, we want to be able to look it up in the current scope - # when `__class__` is being used. - frame = self.parent.frame() - if isinstance(frame, ClassDef): - return self, [frame] - return super().scope_lookup(node, name, offset) - - -class AsyncFunctionDef(FunctionDef): - """Class representing an :class:`ast.FunctionDef` node. - - A :class:`AsyncFunctionDef` is an asynchronous function - created with the `async` keyword. - - >>> node = astroid.extract_node(''' - async def func(things): - async for thing in things: - print(thing) - ''') - >>> node - <AsyncFunctionDef.func l.2 at 0x7f23b2e416d8> - >>> node.body[0] - <AsyncFor l.3 at 0x7f23b2e417b8> - """ - - -def _rec_get_names(args, names=None): - """return a list of all argument names""" - if names is None: - names = [] - for arg in args: - if isinstance(arg, node_classes.Tuple): - _rec_get_names(arg.elts, names) - else: - names.append(arg.name) - return names - - -def _is_metaclass(klass, seen=None): - """ Return if the given class can be - used as a metaclass. - """ - if klass.name == "type": - return True - if seen is None: - seen = set() - for base in klass.bases: - try: - for baseobj in base.infer(): - baseobj_name = baseobj.qname() - if baseobj_name in seen: - continue - - seen.add(baseobj_name) - if isinstance(baseobj, bases.Instance): - # not abstract - return False - if baseobj is util.Uninferable: - continue - if baseobj is klass: - continue - if not isinstance(baseobj, ClassDef): - continue - if baseobj._type == "metaclass": - return True - if _is_metaclass(baseobj, seen): - return True - except exceptions.InferenceError: - continue - return False - - -def _class_type(klass, ancestors=None): - """return a ClassDef node type to differ metaclass and exception - from 'regular' classes - """ - # XXX we have to store ancestors in case we have an ancestor loop - if klass._type is not None: - return klass._type - if _is_metaclass(klass): - klass._type = "metaclass" - elif klass.name.endswith("Exception"): - klass._type = "exception" - else: - if ancestors is None: - ancestors = set() - klass_name = klass.qname() - if klass_name in ancestors: - # XXX we are in loop ancestors, and have found no type - klass._type = "class" - return "class" - ancestors.add(klass_name) - for base in klass.ancestors(recurs=False): - name = _class_type(base, ancestors) - if name != "class": - if name == "metaclass" and not _is_metaclass(klass): - # don't propagate it if the current class - # can't be a metaclass - continue - klass._type = base.type - break - if klass._type is None: - klass._type = "class" - return klass._type - - -def get_wrapping_class(node): - """Get the class that wraps the given node. - - We consider that a class wraps a node if the class - is a parent for the said node. - - :returns: The class that wraps the given node - :rtype: ClassDef or None - """ - - klass = node.frame() - while klass is not None and not isinstance(klass, ClassDef): - if klass.parent is None: - klass = None - else: - klass = klass.parent.frame() - return klass - - -class ClassDef(mixins.FilterStmtsMixin, LocalsDictNodeNG, node_classes.Statement): - """Class representing an :class:`ast.ClassDef` node. - - >>> node = astroid.extract_node(''' - class Thing: - def my_meth(self, arg): - return arg + self.offset - ''') - >>> node - <ClassDef.Thing l.2 at 0x7f23b2e9e748> - """ - - # some of the attributes below are set by the builder module or - # by a raw factories - - # a dictionary of class instances attributes - _astroid_fields = ("decorators", "bases", "body") # name - - decorators = None - """The decorators that are applied to this class. - - :type: Decorators or None - """ - special_attributes = objectmodel.ClassModel() - """The names of special attributes that this class has. - - :type: objectmodel.ClassModel - """ - - _type = None - _metaclass_hack = False - hide = False - type = property( - _class_type, - doc=( - "The class type for this node.\n\n" - "Possible values are: class, metaclass, exception.\n\n" - ":type: str" - ), - ) - _other_fields = ("name", "doc") - _other_other_fields = ("locals", "_newstyle") - _newstyle = None - - def __init__(self, name=None, doc=None, lineno=None, col_offset=None, parent=None): - """ - :param name: The name of the class. - :type name: str or None - - :param doc: The function's docstring. - :type doc: str or None - - :param lineno: The line that this node appears on in the source code. - :type lineno: int or None - - :param col_offset: The column that this node appears on in the - source code. - :type col_offset: int or None - - :param parent: The parent node in the syntax tree. - :type parent: NodeNG or None - """ - self.instance_attrs = {} - self.locals = {} - """A map of the name of a local variable to the node defining it. - - :type: dict(str, NodeNG) - """ - - self.keywords = [] - """The keywords given to the class definition. - - This is usually for :pep:`3115` style metaclass declaration. - - :type: list(Keyword) or None - """ - - self.bases = [] - """What the class inherits from. - - :type: list(NodeNG) - """ - - self.body = [] - """The contents of the class body. - - :type: list(NodeNG) - """ - - self.name = name - """The name of the class. - - :type name: str or None - """ - - self.doc = doc - """The class' docstring. - - :type doc: str or None - """ - - super(ClassDef, self).__init__(lineno, col_offset, parent) - if parent is not None: - parent.frame().set_local(name, self) - - for local_name, node in self.implicit_locals(): - self.add_local_node(node, local_name) - - def implicit_parameters(self): - return 1 - - def implicit_locals(self): - """Get implicitly defined class definition locals. - - :returns: the the name and Const pair for each local - :rtype: tuple(tuple(str, node_classes.Const), ...) - """ - locals_ = (("__module__", self.special_attributes.attr___module__),) - # __qualname__ is defined in PEP3155 - locals_ += (("__qualname__", self.special_attributes.attr___qualname__),) - return locals_ - - # pylint: disable=redefined-outer-name - def postinit( - self, bases, body, decorators, newstyle=None, metaclass=None, keywords=None - ): - """Do some setup after initialisation. - - :param bases: What the class inherits from. - :type bases: list(NodeNG) - - :param body: The contents of the class body. - :type body: list(NodeNG) - - :param decorators: The decorators that are applied to this class. - :type decorators: Decorators or None - - :param newstyle: Whether this is a new style class or not. - :type newstyle: bool or None - - :param metaclass: The metaclass of this class. - :type metaclass: NodeNG or None - - :param keywords: The keywords given to the class definition. - :type keywords: list(Keyword) or None - """ - self.keywords = keywords - self.bases = bases - self.body = body - self.decorators = decorators - if newstyle is not None: - self._newstyle = newstyle - if metaclass is not None: - self._metaclass = metaclass - - def _newstyle_impl(self, context=None): - if context is None: - context = contextmod.InferenceContext() - if self._newstyle is not None: - return self._newstyle - for base in self.ancestors(recurs=False, context=context): - if base._newstyle_impl(context): - self._newstyle = True - break - klass = self.declared_metaclass() - # could be any callable, we'd need to infer the result of klass(name, - # bases, dict). punt if it's not a class node. - if klass is not None and isinstance(klass, ClassDef): - self._newstyle = klass._newstyle_impl(context) - if self._newstyle is None: - self._newstyle = False - return self._newstyle - - _newstyle = None - newstyle = property( - _newstyle_impl, - doc=("Whether this is a new style class or not\n\n" ":type: bool or None"), - ) - - @decorators_mod.cachedproperty - def blockstart_tolineno(self): - """The line on which the beginning of this block ends. - - :type: int - """ - if self.bases: - return self.bases[-1].tolineno - - return self.fromlineno - - def block_range(self, lineno): - """Get a range from the given line number to where this node ends. - - :param lineno: Unused. - :type lineno: int - - :returns: The range of line numbers that this node belongs to, - :rtype: tuple(int, int) - """ - return self.fromlineno, self.tolineno - - def pytype(self): - """Get the name of the type that this node represents. - - :returns: The name of the type. - :rtype: str - """ - if self.newstyle: - return "%s.type" % BUILTINS - return "%s.classobj" % BUILTINS - - def display_type(self): - """A human readable type of this node. - - :returns: The type of this node. - :rtype: str - """ - return "Class" - - def callable(self): - """Whether this node defines something that is callable. - - :returns: True if this defines something that is callable, - False otherwise. - For a :class:`ClassDef` this is always ``True``. - :rtype: bool - """ - return True - - def is_subtype_of(self, type_name, context=None): - """Whether this class is a subtype of the given type. - - :param type_name: The name of the type of check against. - :type type_name: str - - :returns: True if this class is a subtype of the given type, - False otherwise. - :rtype: bool - """ - if self.qname() == type_name: - return True - for anc in self.ancestors(context=context): - if anc.qname() == type_name: - return True - return False - - def _infer_type_call(self, caller, context): - name_node = next(caller.args[0].infer(context)) - if isinstance(name_node, node_classes.Const) and isinstance( - name_node.value, str - ): - name = name_node.value - else: - return util.Uninferable - - result = ClassDef(name, None) - - # Get the bases of the class. - class_bases = next(caller.args[1].infer(context)) - if isinstance(class_bases, (node_classes.Tuple, node_classes.List)): - result.bases = class_bases.itered() - else: - # There is currently no AST node that can represent an 'unknown' - # node (Uninferable is not an AST node), therefore we simply return Uninferable here - # although we know at least the name of the class. - return util.Uninferable - - # Get the members of the class - try: - members = next(caller.args[2].infer(context)) - except exceptions.InferenceError: - members = None - - if members and isinstance(members, node_classes.Dict): - for attr, value in members.items: - if isinstance(attr, node_classes.Const) and isinstance(attr.value, str): - result.locals[attr.value] = [value] - - result.parent = caller.parent - return result - - def infer_call_result(self, caller, context=None): - """infer what a class is returning when called""" - if ( - self.is_subtype_of("%s.type" % (BUILTINS,), context) - and len(caller.args) == 3 - ): - result = self._infer_type_call(caller, context) - yield result - return - - dunder_call = None - try: - metaclass = self.metaclass(context=context) - if metaclass is not None: - dunder_call = next(metaclass.igetattr("__call__", context)) - except exceptions.AttributeInferenceError: - pass - - if dunder_call and dunder_call.qname() != "builtins.type.__call__": - # Call type.__call__ if not set metaclass - # (since type is the default metaclass) - context = contextmod.bind_context_to_node(context, self) - yield from dunder_call.infer_call_result(caller, context) - else: - if any(cls.name in EXCEPTION_BASE_CLASSES for cls in self.mro()): - # Subclasses of exceptions can be exception instances - yield objects.ExceptionInstance(self) - else: - yield bases.Instance(self) - - def scope_lookup(self, node, name, offset=0): - """Lookup where the given name is assigned. - - :param node: The node to look for assignments up to. - Any assignments after the given node are ignored. - :type node: NodeNG - - :param name: The name to find assignments for. - :type name: str - - :param offset: The line offset to filter statements up to. - :type offset: int - - :returns: This scope node and the list of assignments associated to the - given name according to the scope where it has been found (locals, - globals or builtin). - :rtype: tuple(str, list(NodeNG)) - """ - # If the name looks like a builtin name, just try to look - # into the upper scope of this class. We might have a - # decorator that it's poorly named after a builtin object - # inside this class. - lookup_upper_frame = ( - isinstance(node.parent, node_classes.Decorators) - and name in MANAGER.builtins_module - ) - if ( - any(node == base or base.parent_of(node) for base in self.bases) - or lookup_upper_frame - ): - # Handle the case where we have either a name - # in the bases of a class, which exists before - # the actual definition or the case where we have - # a Getattr node, with that name. - # - # name = ... - # class A(name): - # def name(self): ... - # - # import name - # class A(name.Name): - # def name(self): ... - - frame = self.parent.frame() - # line offset to avoid that class A(A) resolve the ancestor to - # the defined class - offset = -1 - else: - frame = self - return frame._scope_lookup(node, name, offset) - - @property - def basenames(self): - """The names of the parent classes - - Names are given in the order they appear in the class definition. - - :type: list(str) - """ - return [bnode.as_string() for bnode in self.bases] - - def ancestors(self, recurs=True, context=None): - """Iterate over the base classes in prefixed depth first order. - - :param recurs: Whether to recurse or return direct ancestors only. - :type recurs: bool - - :returns: The base classes - :rtype: iterable(NodeNG) - """ - # FIXME: should be possible to choose the resolution order - # FIXME: inference make infinite loops possible here - yielded = {self} - if context is None: - context = contextmod.InferenceContext() - if not self.bases and self.qname() != "builtins.object": - yield builtin_lookup("object")[1][0] - return - - for stmt in self.bases: - with context.restore_path(): - try: - for baseobj in stmt.infer(context): - if not isinstance(baseobj, ClassDef): - if isinstance(baseobj, bases.Instance): - baseobj = baseobj._proxied - else: - continue - if not baseobj.hide: - if baseobj in yielded: - continue - yielded.add(baseobj) - yield baseobj - if not recurs: - continue - for grandpa in baseobj.ancestors(recurs=True, context=context): - if grandpa is self: - # This class is the ancestor of itself. - break - if grandpa in yielded: - continue - yielded.add(grandpa) - yield grandpa - except exceptions.InferenceError: - continue - - def local_attr_ancestors(self, name, context=None): - """Iterate over the parents that define the given name. - - :param name: The name to find definitions for. - :type name: str - - :returns: The parents that define the given name. - :rtype: iterable(NodeNG) - """ - # Look up in the mro if we can. This will result in the - # attribute being looked up just as Python does it. - try: - ancestors = self.mro(context)[1:] - except exceptions.MroError: - # Fallback to use ancestors, we can't determine - # a sane MRO. - ancestors = self.ancestors(context=context) - for astroid in ancestors: - if name in astroid: - yield astroid - - def instance_attr_ancestors(self, name, context=None): - """Iterate over the parents that define the given name as an attribute. - - :param name: The name to find definitions for. - :type name: str - - :returns: The parents that define the given name as - an instance attribute. - :rtype: iterable(NodeNG) - """ - for astroid in self.ancestors(context=context): - if name in astroid.instance_attrs: - yield astroid - - def has_base(self, node): - """Whether this class directly inherits from the given node. - - :param node: The node to check for. - :type node: NodeNG - - :returns: True if this class directly inherits from the given node. - :rtype: bool - """ - return node in self.bases - - def local_attr(self, name, context=None): - """Get the list of assign nodes associated to the given name. - - Assignments are looked for in both this class and in parents. - - :returns: The list of assignments to the given name. - :rtype: list(NodeNG) - - :raises AttributeInferenceError: If no attribute with this name - can be found in this class or parent classes. - """ - result = [] - if name in self.locals: - result = self.locals[name] - else: - class_node = next(self.local_attr_ancestors(name, context), None) - if class_node: - result = class_node.locals[name] - result = [n for n in result if not isinstance(n, node_classes.DelAttr)] - if result: - return result - raise exceptions.AttributeInferenceError( - target=self, attribute=name, context=context - ) - - def instance_attr(self, name, context=None): - """Get the list of nodes associated to the given attribute name. - - Assignments are looked for in both this class and in parents. - - :returns: The list of assignments to the given name. - :rtype: list(NodeNG) - - :raises AttributeInferenceError: If no attribute with this name - can be found in this class or parent classes. - """ - # Return a copy, so we don't modify self.instance_attrs, - # which could lead to infinite loop. - values = list(self.instance_attrs.get(name, [])) - # get all values from parents - for class_node in self.instance_attr_ancestors(name, context): - values += class_node.instance_attrs[name] - values = [n for n in values if not isinstance(n, node_classes.DelAttr)] - if values: - return values - raise exceptions.AttributeInferenceError( - target=self, attribute=name, context=context - ) - - def instantiate_class(self): - """Get an :class:`Instance` of the :class:`ClassDef` node. - - :returns: An :class:`Instance` of the :class:`ClassDef` node, - or self if this is not possible. - :rtype: Instance or ClassDef - """ - return bases.Instance(self) - - def getattr(self, name, context=None, class_context=True): - """Get an attribute from this class, using Python's attribute semantic. - - This method doesn't look in the :attr:`instance_attrs` dictionary - since it is done by an :class:`Instance` proxy at inference time. - It may return an :class:`Uninferable` object if - the attribute has not been - found, but a ``__getattr__`` or ``__getattribute__`` method is defined. - If ``class_context`` is given, then it is considered that the - attribute is accessed from a class context, - e.g. ClassDef.attribute, otherwise it might have been accessed - from an instance as well. If ``class_context`` is used in that - case, then a lookup in the implicit metaclass and the explicit - metaclass will be done. - - :param name: The attribute to look for. - :type name: str - - :param class_context: Whether the attribute can be accessed statically. - :type class_context: bool - - :returns: The attribute. - :rtype: list(NodeNG) - - :raises AttributeInferenceError: If the attribute cannot be inferred. - """ - values = self.locals.get(name, []) - if name in self.special_attributes and class_context and not values: - result = [self.special_attributes.lookup(name)] - if name == "__bases__": - # Need special treatment, since they are mutable - # and we need to return all the values. - result += values - return result - - # don't modify the list in self.locals! - values = list(values) - for classnode in self.ancestors(recurs=True, context=context): - values += classnode.locals.get(name, []) - - if class_context: - values += self._metaclass_lookup_attribute(name, context) - - if not values: - raise exceptions.AttributeInferenceError( - target=self, attribute=name, context=context - ) - - # Look for AnnAssigns, which are not attributes in the purest sense. - for value in values: - if isinstance(value, node_classes.AssignName): - stmt = value.statement() - if isinstance(stmt, node_classes.AnnAssign) and stmt.value is None: - raise exceptions.AttributeInferenceError( - target=self, attribute=name, context=context - ) - return values - - def _metaclass_lookup_attribute(self, name, context): - """Search the given name in the implicit and the explicit metaclass.""" - attrs = set() - implicit_meta = self.implicit_metaclass() - metaclass = self.metaclass() - for cls in {implicit_meta, metaclass}: - if cls and cls != self and isinstance(cls, ClassDef): - cls_attributes = self._get_attribute_from_metaclass(cls, name, context) - attrs.update(set(cls_attributes)) - return attrs - - def _get_attribute_from_metaclass(self, cls, name, context): - try: - attrs = cls.getattr(name, context=context, class_context=True) - except exceptions.AttributeInferenceError: - return - - for attr in bases._infer_stmts(attrs, context, frame=cls): - if not isinstance(attr, FunctionDef): - yield attr - continue - - if bases._is_property(attr): - yield from attr.infer_call_result(self, context) - continue - if attr.type == "classmethod": - # If the method is a classmethod, then it will - # be bound to the metaclass, not to the class - # from where the attribute is retrieved. - # get_wrapping_class could return None, so just - # default to the current class. - frame = get_wrapping_class(attr) or self - yield bases.BoundMethod(attr, frame) - elif attr.type == "staticmethod": - yield attr - else: - yield bases.BoundMethod(attr, self) - - def igetattr(self, name, context=None, class_context=True): - """Infer the possible values of the given variable. - - :param name: The name of the variable to infer. - :type name: str - - :returns: The inferred possible values. - :rtype: iterable(NodeNG or Uninferable) - """ - # set lookup name since this is necessary to infer on import nodes for - # instance - context = contextmod.copy_context(context) - context.lookupname = name - try: - attr = self.getattr(name, context, class_context=class_context)[0] - for inferred in bases._infer_stmts([attr], context, frame=self): - # yield Uninferable object instead of descriptors when necessary - if not isinstance(inferred, node_classes.Const) and isinstance( - inferred, bases.Instance - ): - try: - inferred._proxied.getattr("__get__", context) - except exceptions.AttributeInferenceError: - yield inferred - else: - yield util.Uninferable - else: - yield function_to_method(inferred, self) - except exceptions.AttributeInferenceError as error: - if not name.startswith("__") and self.has_dynamic_getattr(context): - # class handle some dynamic attributes, return a Uninferable object - yield util.Uninferable - else: - raise exceptions.InferenceError( - error.message, target=self, attribute=name, context=context - ) - - def has_dynamic_getattr(self, context=None): - """Check if the class has a custom __getattr__ or __getattribute__. - - If any such method is found and it is not from - builtins, nor from an extension module, then the function - will return True. - - :returns: True if the class has a custom - __getattr__ or __getattribute__, False otherwise. - :rtype: bool - """ - - def _valid_getattr(node): - root = node.root() - return root.name != BUILTINS and getattr(root, "pure_python", None) - - try: - return _valid_getattr(self.getattr("__getattr__", context)[0]) - except exceptions.AttributeInferenceError: - # if self.newstyle: XXX cause an infinite recursion error - try: - getattribute = self.getattr("__getattribute__", context)[0] - return _valid_getattr(getattribute) - except exceptions.AttributeInferenceError: - pass - return False - - def getitem(self, index, context=None): - """Return the inference of a subscript. - - This is basically looking up the method in the metaclass and calling it. - - :returns: The inferred value of a subscript to this class. - :rtype: NodeNG - - :raises AstroidTypeError: If this class does not define a - ``__getitem__`` method. - """ - try: - methods = dunder_lookup.lookup(self, "__getitem__") - except exceptions.AttributeInferenceError as exc: - raise exceptions.AstroidTypeError(node=self, context=context) from exc - - method = methods[0] - - # Create a new callcontext for providing index as an argument. - new_context = contextmod.bind_context_to_node(context, self) - new_context.callcontext = contextmod.CallContext(args=[index]) - - try: - return next(method.infer_call_result(self, new_context)) - except exceptions.InferenceError: - return util.Uninferable - - def methods(self): - """Iterate over all of the method defined in this class and its parents. - - :returns: The methods defined on the class. - :rtype: iterable(FunctionDef) - """ - done = {} - for astroid in itertools.chain(iter((self,)), self.ancestors()): - for meth in astroid.mymethods(): - if meth.name in done: - continue - done[meth.name] = None - yield meth - - def mymethods(self): - """Iterate over all of the method defined in this class only. - - :returns: The methods defined on the class. - :rtype: iterable(FunctionDef) - """ - for member in self.values(): - if isinstance(member, FunctionDef): - yield member - - def implicit_metaclass(self): - """Get the implicit metaclass of the current class. - - For newstyle classes, this will return an instance of builtins.type. - For oldstyle classes, it will simply return None, since there's - no implicit metaclass there. - - :returns: The metaclass. - :rtype: builtins.type or None - """ - if self.newstyle: - return builtin_lookup("type")[1][0] - return None - - _metaclass = None - - def declared_metaclass(self, context=None): - """Return the explicit declared metaclass for the current class. - - An explicit declared metaclass is defined - either by passing the ``metaclass`` keyword argument - in the class definition line (Python 3) or (Python 2) by - having a ``__metaclass__`` class attribute, or if there are - no explicit bases but there is a global ``__metaclass__`` variable. - - :returns: The metaclass of this class, - or None if one could not be found. - :rtype: NodeNG or None - """ - for base in self.bases: - try: - for baseobj in base.infer(context=context): - if isinstance(baseobj, ClassDef) and baseobj.hide: - self._metaclass = baseobj._metaclass - self._metaclass_hack = True - break - except exceptions.InferenceError: - pass - - if self._metaclass: - # Expects this from Py3k TreeRebuilder - try: - return next( - node - for node in self._metaclass.infer(context=context) - if node is not util.Uninferable - ) - except (exceptions.InferenceError, StopIteration): - return None - - return None - - def _find_metaclass(self, seen=None, context=None): - if seen is None: - seen = set() - seen.add(self) - - klass = self.declared_metaclass(context=context) - if klass is None: - for parent in self.ancestors(context=context): - if parent not in seen: - klass = parent._find_metaclass(seen) - if klass is not None: - break - return klass - - def metaclass(self, context=None): - """Get the metaclass of this class. - - If this class does not define explicitly a metaclass, - then the first defined metaclass in ancestors will be used - instead. - - :returns: The metaclass of this class. - :rtype: NodeNG or None - """ - return self._find_metaclass(context=context) - - def has_metaclass_hack(self): - return self._metaclass_hack - - def _islots(self): - """ Return an iterator with the inferred slots. """ - if "__slots__" not in self.locals: - return None - for slots in self.igetattr("__slots__"): - # check if __slots__ is a valid type - for meth in ITER_METHODS: - try: - slots.getattr(meth) - break - except exceptions.AttributeInferenceError: - continue - else: - continue - - if isinstance(slots, node_classes.Const): - # a string. Ignore the following checks, - # but yield the node, only if it has a value - if slots.value: - yield slots - continue - if not hasattr(slots, "itered"): - # we can't obtain the values, maybe a .deque? - continue - - if isinstance(slots, node_classes.Dict): - values = [item[0] for item in slots.items] - else: - values = slots.itered() - if values is util.Uninferable: - continue - if not values: - # Stop the iteration, because the class - # has an empty list of slots. - return values - - for elt in values: - try: - for inferred in elt.infer(): - if inferred is util.Uninferable: - continue - if not isinstance( - inferred, node_classes.Const - ) or not isinstance(inferred.value, str): - continue - if not inferred.value: - continue - yield inferred - except exceptions.InferenceError: - continue - - return None - - def _slots(self): - if not self.newstyle: - raise NotImplementedError( - "The concept of slots is undefined for old-style classes." - ) - - slots = self._islots() - try: - first = next(slots) - except StopIteration as exc: - # The class doesn't have a __slots__ definition or empty slots. - if exc.args and exc.args[0] not in ("", None): - return exc.args[0] - return None - return [first] + list(slots) - - # Cached, because inferring them all the time is expensive - @decorators_mod.cached - def slots(self): - """Get all the slots for this node. - - :returns: The names of slots for this class. - If the class doesn't define any slot, through the ``__slots__`` - variable, then this function will return a None. - Also, it will return None in the case the slots were not inferred. - :rtype: list(str) or None - """ - - def grouped_slots(): - # Not interested in object, since it can't have slots. - for cls in self.mro()[:-1]: - try: - cls_slots = cls._slots() - except NotImplementedError: - continue - if cls_slots is not None: - yield from cls_slots - else: - yield None - - if not self.newstyle: - raise NotImplementedError( - "The concept of slots is undefined for old-style classes." - ) - - slots = list(grouped_slots()) - if not all(slot is not None for slot in slots): - return None - - return sorted(slots, key=lambda item: item.value) - - def _inferred_bases(self, context=None): - # Similar with .ancestors, but the difference is when one base is inferred, - # only the first object is wanted. That's because - # we aren't interested in superclasses, as in the following - # example: - # - # class SomeSuperClass(object): pass - # class SomeClass(SomeSuperClass): pass - # class Test(SomeClass): pass - # - # Inferring SomeClass from the Test's bases will give - # us both SomeClass and SomeSuperClass, but we are interested - # only in SomeClass. - - if context is None: - context = contextmod.InferenceContext() - if not self.bases and self.qname() != "builtins.object": - yield builtin_lookup("object")[1][0] - return - - for stmt in self.bases: - try: - baseobj = next(stmt.infer(context=context)) - except exceptions.InferenceError: - continue - if isinstance(baseobj, bases.Instance): - baseobj = baseobj._proxied - if not isinstance(baseobj, ClassDef): - continue - if not baseobj.hide: - yield baseobj - else: - yield from baseobj.bases - - def _compute_mro(self, context=None): - inferred_bases = list(self._inferred_bases(context=context)) - bases_mro = [] - for base in inferred_bases: - if base is self: - continue - - try: - mro = base._compute_mro(context=context) - bases_mro.append(mro) - except NotImplementedError: - # Some classes have in their ancestors both newstyle and - # old style classes. For these we can't retrieve the .mro, - # although in Python it's possible, since the class we are - # currently working is in fact new style. - # So, we fallback to ancestors here. - ancestors = list(base.ancestors(context=context)) - bases_mro.append(ancestors) - - unmerged_mro = [[self]] + bases_mro + [inferred_bases] - unmerged_mro = list(clean_duplicates_mro(unmerged_mro, self, context)) - return _c3_merge(unmerged_mro, self, context) - - def mro(self, context=None) -> List["ClassDef"]: - """Get the method resolution order, using C3 linearization. - - :returns: The list of ancestors, sorted by the mro. - :rtype: list(NodeNG) - :raises DuplicateBasesError: Duplicate bases in the same class base - :raises InconsistentMroError: A class' MRO is inconsistent - """ - return self._compute_mro(context=context) - - def bool_value(self): - """Determine the boolean value of this node. - - :returns: The boolean value of this node. - For a :class:`ClassDef` this is always ``True``. - :rtype: bool - """ - return True - - def get_children(self): - if self.decorators is not None: - yield self.decorators - - yield from self.bases - yield from self.body - - @decorators_mod.cached - def _get_assign_nodes(self): - children_assign_nodes = ( - child_node._get_assign_nodes() for child_node in self.body - ) - return list(itertools.chain.from_iterable(children_assign_nodes)) |