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# Licensed under the GPL: https://www.gnu.org/licenses/old-licenses/gpl-2.0.html # For details: https://github.com/PyCQA/pylint/blob/main/LICENSE # Copyright (c) https://github.com/PyCQA/pylint/blob/main/CONTRIBUTORS.txt """Utility methods for docstring checking.""" from __future__ import annotations import re import astroid from astroid import nodes from astroid.util import UninferableBase from pylint.checkers import utils def space_indentation(s: str) -> int: """The number of leading spaces in a string. :param str s: input string :rtype: int :return: number of leading spaces """ return len(s) - len(s.lstrip(" ")) def get_setters_property_name(node: nodes.FunctionDef) -> str | None: """Get the name of the property that the given node is a setter for. :param node: The node to get the property name for. :type node: str :rtype: str or None :returns: The name of the property that the node is a setter for, or None if one could not be found. """ decorators = node.decorators.nodes if node.decorators else [] for decorator in decorators: if ( isinstance(decorator, nodes.Attribute) and decorator.attrname == "setter" and isinstance(decorator.expr, nodes.Name) ): return decorator.expr.name # type: ignore[no-any-return] return None def get_setters_property(node: nodes.FunctionDef) -> nodes.FunctionDef | None: """Get the property node for the given setter node. :param node: The node to get the property for. :type node: nodes.FunctionDef :rtype: nodes.FunctionDef or None :returns: The node relating to the property of the given setter node, or None if one could not be found. """ property_ = None property_name = get_setters_property_name(node) class_node = utils.node_frame_class(node) if property_name and class_node: class_attrs: list[nodes.FunctionDef] = class_node.getattr(node.name) for attr in class_attrs: if utils.decorated_with_property(attr): property_ = attr break return property_ def returns_something(return_node: nodes.Return) -> bool: """Check if a return node returns a value other than None. :param return_node: The return node to check. :type return_node: astroid.Return :rtype: bool :return: True if the return node returns a value other than None, False otherwise. """ returns = return_node.value if returns is None: return False return not (isinstance(returns, nodes.Const) and returns.value is None) def _get_raise_target(node: nodes.NodeNG) -> nodes.NodeNG | UninferableBase | None: if isinstance(node.exc, nodes.Call): func = node.exc.func if isinstance(func, (nodes.Name, nodes.Attribute)): return utils.safe_infer(func) return None def _split_multiple_exc_types(target: str) -> list[str]: delimiters = r"(\s*,(?:\s*or\s)?\s*|\s+or\s+)" return re.split(delimiters, target) def possible_exc_types(node: nodes.NodeNG) -> set[nodes.ClassDef]: """Gets all the possible raised exception types for the given raise node. .. note:: Caught exception types are ignored. :param node: The raise node to find exception types for. :returns: A list of exception types possibly raised by :param:`node`. """ exceptions = [] if isinstance(node.exc, nodes.Name): inferred = utils.safe_infer(node.exc) if inferred: exceptions = [inferred] elif node.exc is None: handler = node.parent while handler and not isinstance(handler, nodes.ExceptHandler): handler = handler.parent if handler and handler.type: try: for exception in astroid.unpack_infer(handler.type): if not isinstance(exception, UninferableBase): exceptions.append(exception) except astroid.InferenceError: pass else: target = _get_raise_target(node) if isinstance(target, nodes.ClassDef): exceptions = [target] elif isinstance(target, nodes.FunctionDef): for ret in target.nodes_of_class(nodes.Return): if ret.value is None: continue if ret.frame(future=True) != target: # return from inner function - ignore it continue val = utils.safe_infer(ret.value) if val and utils.inherit_from_std_ex(val): if isinstance(val, nodes.ClassDef): exceptions.append(val) elif isinstance(val, astroid.Instance): exceptions.append(val.getattr("__class__")[0]) try: return { exc for exc in exceptions if not utils.node_ignores_exception(node, exc.name) } except astroid.InferenceError: return set() def docstringify( docstring: nodes.Const | None, default_type: str = "default" ) -> Docstring: best_match = (0, DOCSTRING_TYPES.get(default_type, Docstring)(docstring)) for docstring_type in ( SphinxDocstring, EpytextDocstring, GoogleDocstring, NumpyDocstring, ): instance = docstring_type(docstring) matching_sections = instance.matching_sections() if matching_sections > best_match[0]: best_match = (matching_sections, instance) return best_match[1] class Docstring: re_for_parameters_see = re.compile( r""" For\s+the\s+(other)?\s*parameters\s*,\s+see """, re.X | re.S, ) supports_yields: bool = False """True if the docstring supports a "yield" section. False if the docstring uses the returns section to document generators. """ # These methods are designed to be overridden def __init__(self, doc: nodes.Const | None) -> None: docstring: str = doc.value if doc else "" self.doc = docstring.expandtabs() def __repr__(self) -> str: return f"<{self.__class__.__name__}:'''{self.doc}'''>" def matching_sections(self) -> int: """Returns the number of matching docstring sections.""" return 0 def exceptions(self) -> set[str]: return set() def has_params(self) -> bool: return False def has_returns(self) -> bool: return False def has_rtype(self) -> bool: return False def has_property_returns(self) -> bool: return False def has_property_type(self) -> bool: return False def has_yields(self) -> bool: return False def has_yields_type(self) -> bool: return False def match_param_docs(self) -> tuple[set[str], set[str]]: return set(), set() def params_documented_elsewhere(self) -> bool: return self.re_for_parameters_see.search(self.doc) is not None class SphinxDocstring(Docstring): re_type = r""" [~!.]? # Optional link style prefix \w(?:\w|\.[^\.])* # Valid python name """ re_simple_container_type = rf""" {re_type} # a container type [\(\[] [^\n\s]+ [\)\]] # with the contents of the container """ re_multiple_simple_type = r""" (?:{container_type}|{type}) (?:(?:\s+(?:of|or)\s+|\s*,\s*|\s+\|\s+)(?:{container_type}|{type}))* """.format( type=re_type, container_type=re_simple_container_type ) re_xref = rf""" (?::\w+:)? # optional tag `{re_type}` # what to reference """ re_param_raw = rf""" : # initial colon (?: # Sphinx keywords param|parameter| arg|argument| key|keyword ) \s+ # whitespace (?: # optional type declaration ({re_type}|{re_simple_container_type}) \s+ )? ((\\\*{{0,2}}\w+)|(\w+)) # Parameter name with potential asterisks \s* # whitespace : # final colon """ re_param_in_docstring = re.compile(re_param_raw, re.X | re.S) re_type_raw = rf""" :type # Sphinx keyword \s+ # whitespace ({re_multiple_simple_type}) # Parameter name \s* # whitespace : # final colon """ re_type_in_docstring = re.compile(re_type_raw, re.X | re.S) re_property_type_raw = rf""" :type: # Sphinx keyword \s+ # whitespace {re_multiple_simple_type} # type declaration """ re_property_type_in_docstring = re.compile(re_property_type_raw, re.X | re.S) re_raise_raw = rf""" : # initial colon (?: # Sphinx keyword raises?| except|exception ) \s+ # whitespace ({re_multiple_simple_type}) # exception type \s* # whitespace : # final colon """ re_raise_in_docstring = re.compile(re_raise_raw, re.X | re.S) re_rtype_in_docstring = re.compile(r":rtype:") re_returns_in_docstring = re.compile(r":returns?:") supports_yields = False def matching_sections(self) -> int: """Returns the number of matching docstring sections.""" return sum( bool(i) for i in ( self.re_param_in_docstring.search(self.doc), self.re_raise_in_docstring.search(self.doc), self.re_rtype_in_docstring.search(self.doc), self.re_returns_in_docstring.search(self.doc), self.re_property_type_in_docstring.search(self.doc), ) ) def exceptions(self) -> set[str]: types: set[str] = set() for match in re.finditer(self.re_raise_in_docstring, self.doc): raise_type = match.group(1) types.update(_split_multiple_exc_types(raise_type)) return types def has_params(self) -> bool: if not self.doc: return False return self.re_param_in_docstring.search(self.doc) is not None def has_returns(self) -> bool: if not self.doc: return False return bool(self.re_returns_in_docstring.search(self.doc)) def has_rtype(self) -> bool: if not self.doc: return False return bool(self.re_rtype_in_docstring.search(self.doc)) def has_property_returns(self) -> bool: if not self.doc: return False # The summary line is the return doc, # so the first line must not be a known directive. return not self.doc.lstrip().startswith(":") def has_property_type(self) -> bool: if not self.doc: return False return bool(self.re_property_type_in_docstring.search(self.doc)) def match_param_docs(self) -> tuple[set[str], set[str]]: params_with_doc = set() params_with_type = set() for match in re.finditer(self.re_param_in_docstring, self.doc): name = match.group(2) # Remove escape characters necessary for asterisks name = name.replace("\\", "") params_with_doc.add(name) param_type = match.group(1) if param_type is not None: params_with_type.add(name) params_with_type.update(re.findall(self.re_type_in_docstring, self.doc)) return params_with_doc, params_with_type class EpytextDocstring(SphinxDocstring): """Epytext is similar to Sphinx. See the docs: http://epydoc.sourceforge.net/epytext.html http://epydoc.sourceforge.net/fields.html#fields It's used in PyCharm: https://www.jetbrains.com/help/pycharm/2016.1/creating-documentation-comments.html#d848203e314 https://www.jetbrains.com/help/pycharm/2016.1/using-docstrings-to-specify-types.html """ re_param_in_docstring = re.compile( SphinxDocstring.re_param_raw.replace(":", "@", 1), re.X | re.S ) re_type_in_docstring = re.compile( SphinxDocstring.re_type_raw.replace(":", "@", 1), re.X | re.S ) re_property_type_in_docstring = re.compile( SphinxDocstring.re_property_type_raw.replace(":", "@", 1), re.X | re.S ) re_raise_in_docstring = re.compile( SphinxDocstring.re_raise_raw.replace(":", "@", 1), re.X | re.S ) re_rtype_in_docstring = re.compile( r""" @ # initial "at" symbol (?: # Epytext keyword rtype|returntype ) : # final colon """, re.X | re.S, ) re_returns_in_docstring = re.compile(r"@returns?:") def has_property_returns(self) -> bool: if not self.doc: return False # If this is a property docstring, the summary is the return doc. if self.has_property_type(): # The summary line is the return doc, # so the first line must not be a known directive. return not self.doc.lstrip().startswith("@") return False class GoogleDocstring(Docstring): re_type = SphinxDocstring.re_type re_xref = SphinxDocstring.re_xref re_container_type = rf""" (?:{re_type}|{re_xref}) # a container type [\(\[] [^\n]+ [\)\]] # with the contents of the container """ re_multiple_type = r""" (?:{container_type}|{type}|{xref}) (?:(?:\s+(?:of|or)\s+|\s*,\s*|\s+\|\s+)(?:{container_type}|{type}|{xref}))* """.format( type=re_type, xref=re_xref, container_type=re_container_type ) _re_section_template = r""" ^([ ]*) {0} \s*: \s*$ # Google parameter header ( .* ) # section """ re_param_section = re.compile( _re_section_template.format(r"(?:Args|Arguments|Parameters)"), re.X | re.S | re.M, ) re_keyword_param_section = re.compile( _re_section_template.format(r"Keyword\s(?:Args|Arguments|Parameters)"), re.X | re.S | re.M, ) re_param_line = re.compile( rf""" \s* ((?:\\?\*{{0,2}})?[\w\\]+) # identifier potentially with asterisks or escaped `\` \s* ( [(] {re_multiple_type} (?:,\s+optional)? [)] )? \s* : # optional type declaration \s* (.*) # beginning of optional description """, re.X | re.S | re.M, ) re_raise_section = re.compile( _re_section_template.format(r"Raises"), re.X | re.S | re.M ) re_raise_line = re.compile( rf""" \s* ({re_multiple_type}) \s* : # identifier \s* (.*) # beginning of optional description """, re.X | re.S | re.M, ) re_returns_section = re.compile( _re_section_template.format(r"Returns?"), re.X | re.S | re.M ) re_returns_line = re.compile( rf""" \s* ({re_multiple_type}:)? # identifier \s* (.*) # beginning of description """, re.X | re.S | re.M, ) re_property_returns_line = re.compile( rf""" ^{re_multiple_type}: # identifier \s* (.*) # Summary line / description """, re.X | re.S | re.M, ) re_yields_section = re.compile( _re_section_template.format(r"Yields?"), re.X | re.S | re.M ) re_yields_line = re_returns_line supports_yields = True def matching_sections(self) -> int: """Returns the number of matching docstring sections.""" return sum( bool(i) for i in ( self.re_param_section.search(self.doc), self.re_raise_section.search(self.doc), self.re_returns_section.search(self.doc), self.re_yields_section.search(self.doc), self.re_property_returns_line.search(self._first_line()), ) ) def has_params(self) -> bool: if not self.doc: return False return self.re_param_section.search(self.doc) is not None def has_returns(self) -> bool: if not self.doc: return False entries = self._parse_section(self.re_returns_section) for entry in entries: match = self.re_returns_line.match(entry) if not match: continue return_desc = match.group(2) if return_desc: return True return False def has_rtype(self) -> bool: if not self.doc: return False entries = self._parse_section(self.re_returns_section) for entry in entries: match = self.re_returns_line.match(entry) if not match: continue return_type = match.group(1) if return_type: return True return False def has_property_returns(self) -> bool: # The summary line is the return doc, # so the first line must not be a known directive. first_line = self._first_line() return not bool( self.re_param_section.search(first_line) or self.re_raise_section.search(first_line) or self.re_returns_section.search(first_line) or self.re_yields_section.search(first_line) ) def has_property_type(self) -> bool: if not self.doc: return False return bool(self.re_property_returns_line.match(self._first_line())) def has_yields(self) -> bool: if not self.doc: return False entries = self._parse_section(self.re_yields_section) for entry in entries: match = self.re_yields_line.match(entry) if not match: continue yield_desc = match.group(2) if yield_desc: return True return False def has_yields_type(self) -> bool: if not self.doc: return False entries = self._parse_section(self.re_yields_section) for entry in entries: match = self.re_yields_line.match(entry) if not match: continue yield_type = match.group(1) if yield_type: return True return False def exceptions(self) -> set[str]: types: set[str] = set() entries = self._parse_section(self.re_raise_section) for entry in entries: match = self.re_raise_line.match(entry) if not match: continue exc_type = match.group(1) exc_desc = match.group(2) if exc_desc: types.update(_split_multiple_exc_types(exc_type)) return types def match_param_docs(self) -> tuple[set[str], set[str]]: params_with_doc: set[str] = set() params_with_type: set[str] = set() entries = self._parse_section(self.re_param_section) entries.extend(self._parse_section(self.re_keyword_param_section)) for entry in entries: match = self.re_param_line.match(entry) if not match: continue param_name = match.group(1) # Remove escape characters necessary for asterisks param_name = param_name.replace("\\", "") param_type = match.group(2) param_desc = match.group(3) if param_type: params_with_type.add(param_name) if param_desc: params_with_doc.add(param_name) return params_with_doc, params_with_type def _first_line(self) -> str: return self.doc.lstrip().split("\n", 1)[0] @staticmethod def min_section_indent(section_match: re.Match[str]) -> int: return len(section_match.group(1)) + 1 @staticmethod def _is_section_header(_: str) -> bool: # Google parsing does not need to detect section headers, # because it works off of indentation level only return False def _parse_section(self, section_re: re.Pattern[str]) -> list[str]: section_match = section_re.search(self.doc) if section_match is None: return [] min_indentation = self.min_section_indent(section_match) entries: list[str] = [] entry: list[str] = [] is_first = True for line in section_match.group(2).splitlines(): if not line.strip(): continue indentation = space_indentation(line) if indentation < min_indentation: break # The first line after the header defines the minimum # indentation. if is_first: min_indentation = indentation is_first = False if indentation == min_indentation: if self._is_section_header(line): break # Lines with minimum indentation must contain the beginning # of a new parameter documentation. if entry: entries.append("\n".join(entry)) entry = [] entry.append(line) if entry: entries.append("\n".join(entry)) return entries class NumpyDocstring(GoogleDocstring): _re_section_template = r""" ^([ ]*) {0} \s*?$ # Numpy parameters header \s* [-=]+ \s*?$ # underline ( .* ) # section """ re_param_section = re.compile( _re_section_template.format(r"(?:Args|Arguments|Parameters)"), re.X | re.S | re.M, ) re_default_value = r"""((['"]\w+\s*['"])|(\d+)|(True)|(False)|(None))""" re_param_line = re.compile( rf""" \s* (?P<param_name>\*{{0,2}}\w+)(\s?(:|\n)) # identifier with potential asterisks \s* (?P<param_type> ( ({GoogleDocstring.re_multiple_type}) # default type declaration (,\s+optional)? # optional 'optional' indication )? ( {{({re_default_value},?\s*)+}} # set of default values )? (?:$|\n) )? ( \s* (?P<param_desc>.*) # optional description )? """, re.X | re.S, ) re_raise_section = re.compile( _re_section_template.format(r"Raises"), re.X | re.S | re.M ) re_raise_line = re.compile( rf""" \s* ({GoogleDocstring.re_type})$ # type declaration \s* (.*) # optional description """, re.X | re.S | re.M, ) re_returns_section = re.compile( _re_section_template.format(r"Returns?"), re.X | re.S | re.M ) re_returns_line = re.compile( rf""" \s* (?:\w+\s+:\s+)? # optional name ({GoogleDocstring.re_multiple_type})$ # type declaration \s* (.*) # optional description """, re.X | re.S | re.M, ) re_yields_section = re.compile( _re_section_template.format(r"Yields?"), re.X | re.S | re.M ) re_yields_line = re_returns_line supports_yields = True def match_param_docs(self) -> tuple[set[str], set[str]]: """Matches parameter documentation section to parameter documentation rules.""" params_with_doc = set() params_with_type = set() entries = self._parse_section(self.re_param_section) entries.extend(self._parse_section(self.re_keyword_param_section)) for entry in entries: match = self.re_param_line.match(entry) if not match: continue # check if parameter has description only re_only_desc = re.match(r"\s*(\*{0,2}\w+)\s*:?\n\s*\w*$", entry) if re_only_desc: param_name = match.group("param_name") param_desc = match.group("param_type") param_type = None else: param_name = match.group("param_name") param_type = match.group("param_type") param_desc = match.group("param_desc") # The re_param_line pattern needs to match multi-line which removes the ability # to match a single line description like 'arg : a number type.' # We are not trying to determine whether 'a number type' is correct typing # but we do accept it as typing as it is in the place where typing # should be if param_type is None and re.match(r"\s*(\*{0,2}\w+)\s*:.+$", entry): param_type = param_desc # If the description is "" but we have a type description # we consider the description to be the type if not param_desc and param_type: param_desc = param_type if param_type: params_with_type.add(param_name) if param_desc: params_with_doc.add(param_name) return params_with_doc, params_with_type @staticmethod def min_section_indent(section_match: re.Match[str]) -> int: return len(section_match.group(1)) @staticmethod def _is_section_header(line: str) -> bool: return bool(re.match(r"\s*-+$", line)) DOCSTRING_TYPES = { "sphinx": SphinxDocstring, "epytext": EpytextDocstring, "google": GoogleDocstring, "numpy": NumpyDocstring, "default": Docstring, } """A map of the name of the docstring type to its class. :type: dict(str, type) """