/
opt
/
cloudlinux
/
venv
/
lib64
/
python3.11
/
site-packages
/
astroid
/
nodes
/
Upload Filee
HOME
# 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 some base nodes that can be inherited for the different nodes. Previously these were called Mixin nodes. """ from __future__ import annotations import itertools import sys from collections.abc import Iterator from typing import TYPE_CHECKING, ClassVar from astroid import decorators from astroid.exceptions import AttributeInferenceError from astroid.nodes.node_ng import NodeNG if TYPE_CHECKING: from astroid import nodes if sys.version_info >= (3, 8): from functools import cached_property else: from astroid.decorators import cachedproperty as cached_property class Statement(NodeNG): """Statement node adding a few attributes. NOTE: This class is part of the public API of 'astroid.nodes'. """ is_statement = True """Whether this node indicates a statement.""" def next_sibling(self): """The next sibling statement node. :returns: The next sibling statement node. :rtype: NodeNG or None """ stmts = self.parent.child_sequence(self) index = stmts.index(self) try: return stmts[index + 1] except IndexError: return None def previous_sibling(self): """The previous sibling statement. :returns: The previous sibling statement node. :rtype: NodeNG or None """ stmts = self.parent.child_sequence(self) index = stmts.index(self) if index >= 1: return stmts[index - 1] return None class NoChildrenNode(NodeNG): """Base nodes for nodes with no children, e.g. Pass.""" def get_children(self) -> Iterator[NodeNG]: yield from () class FilterStmtsBaseNode(NodeNG): """Base node for statement filtering and assignment type.""" def _get_filtered_stmts(self, _, node, _stmts, mystmt: Statement | None): """Method used in _filter_stmts to get statements and trigger break.""" if self.statement(future=True) is mystmt: # original node's statement is the assignment, only keep # current node (gen exp, list comp) return [node], True return _stmts, False def assign_type(self): return self class AssignTypeNode(NodeNG): """Base node for nodes that can 'assign' such as AnnAssign.""" def assign_type(self): return self def _get_filtered_stmts(self, lookup_node, node, _stmts, mystmt: Statement | None): """Method used in filter_stmts.""" if self is mystmt: return _stmts, True if self.statement(future=True) is mystmt: # original node's statement is the assignment, only keep # current node (gen exp, list comp) return [node], True return _stmts, False class ParentAssignNode(AssignTypeNode): """Base node for nodes whose assign_type is determined by the parent node.""" def assign_type(self): return self.parent.assign_type() class ImportNode(FilterStmtsBaseNode, NoChildrenNode, Statement): """Base node for From and Import Nodes.""" modname: str | None """The module that is being imported from. This is ``None`` for relative imports. """ names: list[tuple[str, str | None]] """What is being imported from the module. Each entry is a :class:`tuple` of the name being imported, and the alias that the name is assigned to (if any). """ def _infer_name(self, frame, name): return name def do_import_module(self, modname: str | None = None) -> nodes.Module: """Return the ast for a module whose name is <modname> imported by <self>.""" mymodule = self.root() level: int | None = getattr(self, "level", None) # Import has no level if modname is None: modname = self.modname # If the module ImportNode is importing is a module with the same name # as the file that contains the ImportNode we don't want to use the cache # to make sure we use the import system to get the correct module. # pylint: disable-next=no-member # pylint doesn't recognize type of mymodule if mymodule.relative_to_absolute_name(modname, level) == mymodule.name: use_cache = False else: use_cache = True # pylint: disable-next=no-member # pylint doesn't recognize type of mymodule return mymodule.import_module( modname, level=level, relative_only=bool(level and level >= 1), use_cache=use_cache, ) def real_name(self, asname: str) -> str: """Get name from 'as' name.""" for name, _asname in self.names: if name == "*": return asname if not _asname: name = name.split(".", 1)[0] _asname = name if asname == _asname: return name raise AttributeInferenceError( "Could not find original name for {attribute} in {target!r}", target=self, attribute=asname, ) class MultiLineBlockNode(NodeNG): """Base node for multi-line blocks, e.g. For and FunctionDef. Note that this does not apply to every node with a `body` field. For instance, an If node has a multi-line body, but the body of an IfExpr is not multi-line, and hence cannot contain Return nodes, Assign nodes, etc. """ _multi_line_block_fields: ClassVar[tuple[str, ...]] = () @cached_property def _multi_line_blocks(self): return tuple(getattr(self, field) for field in self._multi_line_block_fields) def _get_return_nodes_skip_functions(self): for block in self._multi_line_blocks: for child_node in block: if child_node.is_function: continue yield from child_node._get_return_nodes_skip_functions() def _get_yield_nodes_skip_lambdas(self): for block in self._multi_line_blocks: for child_node in block: if child_node.is_lambda: continue yield from child_node._get_yield_nodes_skip_lambdas() @decorators.cached def _get_assign_nodes(self): children_assign_nodes = ( child_node._get_assign_nodes() for block in self._multi_line_blocks for child_node in block ) return list(itertools.chain.from_iterable(children_assign_nodes)) class MultiLineWithElseBlockNode(MultiLineBlockNode): """Base node for multi-line blocks that can have else statements.""" @cached_property def blockstart_tolineno(self): return self.lineno def _elsed_block_range(self, lineno, orelse, last=None): """Handle block line numbers range for try/finally, for, if and while statements. """ if lineno == self.fromlineno: return lineno, lineno if orelse: if lineno >= orelse[0].fromlineno: return lineno, orelse[-1].tolineno return lineno, orelse[0].fromlineno - 1 return lineno, last or self.tolineno