mirror of
https://github.com/readthedocs/sphinx-autoapi
synced 2024-11-11 19:10:58 +00:00
591 lines
17 KiB
Python
591 lines
17 KiB
Python
import builtins
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import collections
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import itertools
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import re
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import sys
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import astroid
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import astroid.nodes
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import sphinx.util.logging
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_LOGGER = sphinx.util.logging.getLogger(__name__)
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def resolve_import_alias(name, import_names):
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"""Resolve a name from an aliased import to its original name.
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:param name: The potentially aliased name to resolve.
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:type name: str
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:param import_names: The pairs of original names and aliases
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from the import.
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:type import_names: iterable(tuple(str, str or None))
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:returns: The original name.
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:rtype: str
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"""
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resolved_name = name
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for import_name, imported_as in import_names:
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if import_name == name:
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break
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if imported_as == name:
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resolved_name = import_name
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break
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return resolved_name
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def get_full_import_name(import_from, name):
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"""Get the full path of a name from a ``from x import y`` statement.
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:param import_from: The astroid node to resolve the name of.
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:type import_from: astroid.nodes.ImportFrom
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:param name:
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:type name: str
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:returns: The full import path of the name.
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:rtype: str
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"""
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partial_basename = resolve_import_alias(name, import_from.names)
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module_name = import_from.modname
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if import_from.level:
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module = import_from.root()
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assert isinstance(module, astroid.nodes.Module)
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module_name = module.relative_to_absolute_name(
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import_from.modname, level=import_from.level
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)
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return "{}.{}".format(module_name, partial_basename)
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def get_full_basename(node, basename):
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"""Resolve a partial base name to the full path.
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:param node: The node representing the base name.
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:type node: astroid.NodeNG
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:param basename: The partial base name to resolve.
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:type basename: str
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:returns: The fully resolved base name.
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:rtype: str
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"""
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full_basename = basename
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top_level_name = re.sub(r"\(.*\)", "", basename).split(".", 1)[0]
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lookup_node = node
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while not hasattr(lookup_node, "lookup"):
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lookup_node = lookup_node.parent
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assigns = lookup_node.lookup(top_level_name)[1]
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for assignment in assigns:
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if isinstance(assignment, astroid.nodes.ImportFrom):
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import_name = get_full_import_name(assignment, top_level_name)
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full_basename = basename.replace(top_level_name, import_name, 1)
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break
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if isinstance(assignment, astroid.nodes.Import):
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import_name = resolve_import_alias(top_level_name, assignment.names)
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full_basename = basename.replace(top_level_name, import_name, 1)
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break
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if isinstance(assignment, astroid.nodes.ClassDef):
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full_basename = "{}.{}".format(assignment.root().name, assignment.name)
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break
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if isinstance(node, astroid.nodes.Call):
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full_basename = re.sub(r"\(.*\)", "()", full_basename)
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if full_basename.startswith("builtins."):
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return full_basename[len("builtins.") :]
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if full_basename.startswith("__builtin__."):
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return full_basename[len("__builtin__.") :]
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return full_basename
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def get_full_basenames(bases, basenames):
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"""Resolve the base nodes and partial names of a class to full names.
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:param bases: The astroid node representing something that a class
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inherits from.
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:type bases: iterable(astroid.NodeNG)
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:param basenames: The partial name of something that a class inherits from.
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:type basenames: iterable(str)
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:returns: The full names.
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:rtype: iterable(str)
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"""
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for base, basename in zip(bases, basenames):
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yield get_full_basename(base, basename)
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def _get_const_values(node):
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value = None
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if isinstance(node, (astroid.nodes.List, astroid.nodes.Tuple)):
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new_value = []
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for element in node.elts:
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if isinstance(element, astroid.nodes.Const):
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new_value.append(element.value)
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elif isinstance(element, (astroid.nodes.List, astroid.nodes.Tuple)):
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new_value.append(_get_const_values(element))
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else:
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break
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else:
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value = new_value
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elif isinstance(node, astroid.nodes.Const):
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value = node.value
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return value
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def get_assign_value(node):
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"""Get the name and value of the assignment of the given node.
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Assignments to multiple names are ignored, as per PEP 257.
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:param node: The node to get the assignment value from.
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:type node: astroid.nodes.Assign or astroid.nodes.AnnAssign
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:returns: The name that is assigned to,
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and the value assigned to the name (if it can be converted).
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:rtype: tuple(str, object or None) or None
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"""
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try:
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targets = node.targets
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except AttributeError:
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targets = [node.target]
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if len(targets) == 1:
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target = targets[0]
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if isinstance(target, astroid.nodes.AssignName):
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name = target.name
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elif isinstance(target, astroid.nodes.AssignAttr):
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name = target.attrname
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else:
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return None
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return (name, _get_const_values(node.value))
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return None
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def get_assign_annotation(node):
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"""Get the type annotation of the assignment of the given node.
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:param node: The node to get the annotation for.
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:type node: astroid.nodes.Assign or astroid.nodes.AnnAssign
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:returns: The type annotation as a string, or None if one does not exist.
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:rtype: str or None
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"""
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annotation = None
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annotation_node = None
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try:
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annotation_node = node.annotation
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except AttributeError:
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annotation_node = node.type_annotation
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if annotation_node:
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if isinstance(annotation_node, astroid.nodes.Const):
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annotation = node.value
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else:
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annotation = annotation_node.as_string()
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return annotation
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def is_decorated_with_property(node):
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"""Check if the function is decorated as a property.
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:param node: The node to check.
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:type node: astroid.nodes.FunctionDef
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:returns: True if the function is a property, False otherwise.
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:rtype: bool
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"""
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if not node.decorators:
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return False
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for decorator in node.decorators.nodes:
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if not isinstance(decorator, astroid.Name):
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continue
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try:
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if _is_property_decorator(decorator):
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return True
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except astroid.InferenceError:
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pass
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return False
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def _is_property_decorator(decorator):
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def _is_property_class(class_node):
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return (
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class_node.name == "property"
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and class_node.root().name == builtins.__name__
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)
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for inferred in decorator.infer():
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if not isinstance(inferred, astroid.nodes.ClassDef):
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continue
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if _is_property_class(inferred):
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return True
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if any(_is_property_class(ancestor) for ancestor in inferred.ancestors()):
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return True
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return False
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def is_decorated_with_property_setter(node):
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"""Check if the function is decorated as a property setter.
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:param node: The node to check.
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:type node: astroid.nodes.FunctionDef
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:returns: True if the function is a property setter, False otherwise.
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:rtype: bool
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"""
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if not node.decorators:
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return False
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for decorator in node.decorators.nodes:
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if (
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isinstance(decorator, astroid.nodes.Attribute)
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and decorator.attrname == "setter"
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):
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return True
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return False
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def is_decorated_with_overload(node):
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"""Check if the function is decorated as an overload definition.
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:param node: The node to check.
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:type node: astroid.nodes.FunctionDef
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:returns: True if the function is an overload definition, False otherwise.
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:rtype: bool
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"""
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if not node.decorators:
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return False
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for decorator in node.decorators.nodes:
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if not isinstance(decorator, (astroid.Name, astroid.Attribute)):
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continue
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try:
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if _is_overload_decorator(decorator):
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return True
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except astroid.InferenceError:
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pass
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return False
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def _is_overload_decorator(decorator):
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for inferred in decorator.infer():
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if not isinstance(inferred, astroid.nodes.FunctionDef):
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continue
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if inferred.name == "overload" and inferred.root().name == "typing":
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return True
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return False
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def is_constructor(node):
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"""Check if the function is a constructor.
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:param node: The node to check.
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:type node: astroid.nodes.FunctionDef
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:returns: True if the function is a constructor, False otherwise.
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:rtype: bool
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"""
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return (
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node.parent
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and isinstance(node.parent.scope(), astroid.nodes.ClassDef)
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and node.name == "__init__"
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)
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def is_exception(node):
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"""Check if a class is an exception.
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:param node: The node to check.
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:type node: astroid.nodes.ClassDef
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:returns: True if the class is an exception, False otherwise.
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:rtype: bool
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"""
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if node.name in ("Exception", "BaseException") and node.root().name == "builtins":
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return True
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if not hasattr(node, "ancestors"):
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return False
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return any(is_exception(parent) for parent in node.ancestors(recurs=True))
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def is_local_import_from(node, package_name):
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"""Check if a node is an import from the local package.
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:param node: The node to check.
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:type node: astroid.node.NodeNG
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:param package_name: The name of the local package.
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:type package_name: str
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:returns: True if the node is an import from the local package,
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False otherwise.
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:rtype: bool
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"""
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if not isinstance(node, astroid.ImportFrom):
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return False
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return (
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node.level
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or node.modname == package_name
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or node.modname.startswith(package_name + ".")
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)
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def get_module_all(node):
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"""Get the contents of the ``__all__`` variable from a module.
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:param node: The module to get ``__all__`` from.
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:type node: astroid.nodes.Module
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:returns: The contents of ``__all__`` if defined. Otherwise None.
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:rtype: list(str) or None
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"""
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all_ = None
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if "__all__" in node.locals:
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assigned = next(node.igetattr("__all__"))
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if assigned is not astroid.Uninferable:
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all_ = []
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for elt in getattr(assigned, "elts", ()):
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try:
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elt_name = next(elt.infer())
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except astroid.InferenceError:
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continue
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if elt_name is astroid.Uninferable:
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continue
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if isinstance(elt_name, astroid.Const) and isinstance(
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elt_name.value, str
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):
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all_.append(elt_name.value)
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return all_
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def _is_ellipsis(node):
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if sys.version_info < (3, 8):
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return isinstance(node, astroid.Ellipsis)
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return isinstance(node, astroid.Const) and node.value == Ellipsis
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def merge_annotations(annotations, comment_annotations):
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for ann, comment_ann in itertools.zip_longest(annotations, comment_annotations):
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if ann and not _is_ellipsis(ann):
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yield ann
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elif comment_ann and not _is_ellipsis(comment_ann):
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yield comment_ann
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else:
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yield None
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def _format_annotation(annotation):
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if annotation:
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if isinstance(annotation, astroid.Const):
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annotation = annotation.value
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else:
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annotation = annotation.as_string()
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return annotation
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def _iter_args(args, annotations, defaults):
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default_offset = len(args) - len(defaults)
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packed = itertools.zip_longest(args, annotations)
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for i, (arg, annotation) in enumerate(packed):
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default = None
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if defaults is not None and i >= default_offset:
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if defaults[i - default_offset] is not None:
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default = defaults[i - default_offset].as_string()
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name = arg.name
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if isinstance(arg, astroid.Tuple):
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name = "({})".format(", ".join(x.name for x in arg.elts))
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yield (name, _format_annotation(annotation), default)
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def _get_args_info(args_node): # pylint: disable=too-many-branches,too-many-statements
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result = []
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positional_only_defaults = []
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positional_or_keyword_defaults = args_node.defaults
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if args_node.defaults:
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args = args_node.args or []
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positional_or_keyword_defaults = args_node.defaults[-len(args) :]
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positional_only_defaults = args_node.defaults[
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: len(args_node.defaults) - len(args)
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]
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plain_annotations = args_node.annotations or ()
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func_comment_annotations = args_node.parent.type_comment_args or ()
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comment_annotations = args_node.type_comment_posonlyargs
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comment_annotations += args_node.type_comment_args or []
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comment_annotations += args_node.type_comment_kwonlyargs
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annotations = list(
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merge_annotations(
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plain_annotations,
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merge_annotations(func_comment_annotations, comment_annotations),
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)
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)
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annotation_offset = 0
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if args_node.posonlyargs:
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posonlyargs_annotations = args_node.posonlyargs_annotations
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if not any(args_node.posonlyargs_annotations):
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num_args = len(args_node.posonlyargs)
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posonlyargs_annotations = annotations[
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annotation_offset : annotation_offset + num_args
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]
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for arg, annotation, default in _iter_args(
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args_node.posonlyargs, posonlyargs_annotations, positional_only_defaults
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):
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result.append((None, arg, annotation, default))
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result.append(("/", None, None, None))
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if not any(args_node.posonlyargs_annotations):
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annotation_offset += num_args
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if args_node.args:
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num_args = len(args_node.args)
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for arg, annotation, default in _iter_args(
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args_node.args,
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annotations[annotation_offset : annotation_offset + num_args],
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positional_or_keyword_defaults,
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):
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result.append((None, arg, annotation, default))
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annotation_offset += num_args
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if args_node.vararg:
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annotation = None
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if args_node.varargannotation:
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annotation = _format_annotation(args_node.varargannotation)
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elif len(annotations) > annotation_offset and annotations[annotation_offset]:
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annotation = _format_annotation(annotations[annotation_offset])
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annotation_offset += 1
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result.append(("*", args_node.vararg, annotation, None))
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if args_node.kwonlyargs:
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if not args_node.vararg:
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result.append(("*", None, None, None))
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kwonlyargs_annotations = args_node.kwonlyargs_annotations
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if not any(args_node.kwonlyargs_annotations):
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num_args = len(args_node.kwonlyargs)
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kwonlyargs_annotations = annotations[
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annotation_offset : annotation_offset + num_args
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]
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for arg, annotation, default in _iter_args(
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args_node.kwonlyargs,
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kwonlyargs_annotations,
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args_node.kw_defaults,
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):
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result.append((None, arg, annotation, default))
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if not any(args_node.kwonlyargs_annotations):
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annotation_offset += num_args
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if args_node.kwarg:
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annotation = None
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if args_node.kwargannotation:
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annotation = _format_annotation(args_node.kwargannotation)
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elif len(annotations) > annotation_offset and annotations[annotation_offset]:
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annotation = _format_annotation(annotations[annotation_offset])
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annotation_offset += 1
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result.append(("**", args_node.kwarg, annotation, None))
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return result
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def format_args(args_node):
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result = []
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args_info = _get_args_info(args_node)
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for prefix, name, annotation, default in args_info:
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formatted = "{}{}{}{}".format(
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prefix or "",
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name or "",
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": {}".format(annotation) if annotation else "",
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(" = {}" if annotation else "={}").format(default) if default else "",
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)
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result.append(formatted)
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return ", ".join(result)
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def get_annotations_dict(args_node):
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result = collections.OrderedDict()
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args_info = _get_args_info(args_node)
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for _, name, annotation, __ in args_info:
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if name and annotation:
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result[name] = annotation
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return result
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def get_func_docstring(node):
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"""Get the docstring of a node, using a parent docstring if needed.
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:param node: The node to get a docstring for.
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:type node: astroid.nodes.FunctionDef
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"""
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doc = node.doc
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if doc is None and isinstance(node.parent, astroid.nodes.ClassDef):
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for base in node.parent.ancestors():
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for child in base.get_children():
|
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if (
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isinstance(child, node.__class__)
|
|
and child.name == node.name
|
|
and child.doc is not None
|
|
):
|
|
return child.doc
|
|
|
|
return doc or ""
|
|
|
|
|
|
def get_class_docstring(node):
|
|
"""Get the docstring of a node, using a parent docstring if needed.
|
|
|
|
:param node: The node to get a docstring for.
|
|
:type node: astroid.nodes.ClassDef
|
|
"""
|
|
doc = node.doc
|
|
|
|
if doc is None:
|
|
for base in node.ancestors():
|
|
if base.qname() in ("__builtins__.object", "builtins.object"):
|
|
continue
|
|
if base.doc is not None:
|
|
return base.doc
|
|
|
|
return doc or ""
|