"""Utilities parsing and analyzing Python code.""" import inspect import itertools import re import tokenize from collections import OrderedDict from inspect import Signature from token import DEDENT, INDENT, NAME, NEWLINE, NUMBER, OP, STRING from tokenize import COMMENT, NL from typing import Any, Dict, List, Optional, Tuple from sphinx.pycode.ast import ast # for py37 or older from sphinx.pycode.ast import parse, unparse comment_re = re.compile('^\\s*#: ?(.*)\r?\n?$') indent_re = re.compile('^\\s*$') emptyline_re = re.compile('^\\s*(#.*)?$') def filter_whitespace(code: str) -> str: return code.replace('\f', ' ') # replace FF (form feed) with whitespace def get_assign_targets(node: ast.AST) -> List[ast.expr]: """Get list of targets from Assign and AnnAssign node.""" if isinstance(node, ast.Assign): return node.targets else: return [node.target] # type: ignore def get_lvar_names(node: ast.AST, self: ast.arg = None) -> List[str]: """Convert assignment-AST to variable names. This raises `TypeError` if the assignment does not create new variable:: ary[0] = 'foo' dic["bar"] = 'baz' # => TypeError """ if self: self_id = self.arg node_name = node.__class__.__name__ if node_name in ('Index', 'Num', 'Slice', 'Str', 'Subscript'): raise TypeError('%r does not create new variable' % node) elif node_name == 'Name': if self is None or node.id == self_id: # type: ignore return [node.id] # type: ignore else: raise TypeError('The assignment %r is not instance variable' % node) elif node_name in ('Tuple', 'List'): members = [] for elt in node.elts: # type: ignore try: members.extend(get_lvar_names(elt, self)) except TypeError: pass return members elif node_name == 'Attribute': if node.value.__class__.__name__ == 'Name' and self and node.value.id == self_id: # type: ignore # NOQA # instance variable return ["%s" % get_lvar_names(node.attr, self)[0]] # type: ignore else: raise TypeError('The assignment %r is not instance variable' % node) elif node_name == 'str': return [node] # type: ignore elif node_name == 'Starred': return get_lvar_names(node.value, self) # type: ignore else: raise NotImplementedError('Unexpected node name %r' % node_name) def dedent_docstring(s: str) -> str: """Remove common leading indentation from docstring.""" def dummy() -> None: # dummy function to mock `inspect.getdoc`. pass dummy.__doc__ = s docstring = inspect.getdoc(dummy) if docstring: return docstring.lstrip("\r\n").rstrip("\r\n") else: return "" class Token: """Better token wrapper for tokenize module.""" def __init__(self, kind: int, value: Any, start: Tuple[int, int], end: Tuple[int, int], source: str) -> None: self.kind = kind self.value = value self.start = start self.end = end self.source = source def __eq__(self, other: Any) -> bool: if isinstance(other, int): return self.kind == other elif isinstance(other, str): return self.value == other elif isinstance(other, (list, tuple)): return [self.kind, self.value] == list(other) elif other is None: return False else: raise ValueError('Unknown value: %r' % other) def match(self, *conditions: Any) -> bool: return any(self == candidate for candidate in conditions) def __repr__(self) -> str: return '' % (tokenize.tok_name[self.kind], self.value.strip()) class TokenProcessor: def __init__(self, buffers: List[str]) -> None: lines = iter(buffers) self.buffers = buffers self.tokens = tokenize.generate_tokens(lambda: next(lines)) self.current: Optional[Token] = None self.previous: Optional[Token] = None def get_line(self, lineno: int) -> str: """Returns specified line.""" return self.buffers[lineno - 1] def fetch_token(self) -> Token: """Fetch the next token from source code. Returns ``None`` if sequence finished. """ try: self.previous = self.current self.current = Token(*next(self.tokens)) except StopIteration: self.current = None return self.current def fetch_until(self, condition: Any) -> List[Token]: """Fetch tokens until specified token appeared. .. note:: This also handles parenthesis well. """ tokens = [] while self.fetch_token(): tokens.append(self.current) if self.current == condition: break elif self.current == [OP, '(']: tokens += self.fetch_until([OP, ')']) elif self.current == [OP, '{']: tokens += self.fetch_until([OP, '}']) elif self.current == [OP, '[']: tokens += self.fetch_until([OP, ']']) return tokens class AfterCommentParser(TokenProcessor): """Python source code parser to pick up comments after assignments. This parser takes code which starts with an assignment statement, and returns the comment for the variable if one exists. """ def __init__(self, lines: List[str]) -> None: super().__init__(lines) self.comment: Optional[str] = None def fetch_rvalue(self) -> List[Token]: """Fetch right-hand value of assignment.""" tokens = [] while self.fetch_token(): tokens.append(self.current) if self.current == [OP, '(']: tokens += self.fetch_until([OP, ')']) elif self.current == [OP, '{']: tokens += self.fetch_until([OP, '}']) elif self.current == [OP, '[']: tokens += self.fetch_until([OP, ']']) elif self.current == INDENT: tokens += self.fetch_until(DEDENT) elif self.current == [OP, ';']: break elif self.current.kind not in (OP, NAME, NUMBER, STRING): break return tokens def parse(self) -> None: """Parse the code and obtain comment after assignment.""" # skip lvalue (or whole of AnnAssign) while not self.fetch_token().match([OP, '='], NEWLINE, COMMENT): assert self.current # skip rvalue (if exists) if self.current == [OP, '=']: self.fetch_rvalue() if self.current == COMMENT: self.comment = self.current.value class VariableCommentPicker(ast.NodeVisitor): """Python source code parser to pick up variable comments.""" def __init__(self, buffers: List[str], encoding: str) -> None: self.counter = itertools.count() self.buffers = buffers self.encoding = encoding self.context: List[str] = [] self.current_classes: List[str] = [] self.current_function: Optional[ast.FunctionDef] = None self.comments: Dict[Tuple[str, str], str] = OrderedDict() self.annotations: Dict[Tuple[str, str], str] = {} self.previous: Optional[ast.AST] = None self.deforders: Dict[str, int] = {} self.finals: List[str] = [] self.overloads: Dict[str, List[Signature]] = {} self.typing: Optional[str] = None self.typing_final: Optional[str] = None self.typing_overload: Optional[str] = None super().__init__() def get_qualname_for(self, name: str) -> Optional[List[str]]: """Get qualified name for given object as a list of string(s).""" if self.current_function: if self.current_classes and self.context[-1] == "__init__": # store variable comments inside __init__ method of classes return self.context[:-1] + [name] else: return None else: return self.context + [name] def add_entry(self, name: str) -> None: qualname = self.get_qualname_for(name) if qualname: self.deforders[".".join(qualname)] = next(self.counter) def add_final_entry(self, name: str) -> None: qualname = self.get_qualname_for(name) if qualname: self.finals.append(".".join(qualname)) def add_overload_entry(self, func: ast.FunctionDef) -> None: # avoid circular import problem from sphinx.util.inspect import signature_from_ast qualname = self.get_qualname_for(func.name) if qualname: overloads = self.overloads.setdefault(".".join(qualname), []) overloads.append(signature_from_ast(func)) def add_variable_comment(self, name: str, comment: str) -> None: qualname = self.get_qualname_for(name) if qualname: basename = ".".join(qualname[:-1]) self.comments[(basename, name)] = comment def add_variable_annotation(self, name: str, annotation: ast.AST) -> None: qualname = self.get_qualname_for(name) if qualname: basename = ".".join(qualname[:-1]) self.annotations[(basename, name)] = unparse(annotation) def is_final(self, decorators: List[ast.expr]) -> bool: final = [] if self.typing: final.append('%s.final' % self.typing) if self.typing_final: final.append(self.typing_final) for decorator in decorators: try: if unparse(decorator) in final: return True except NotImplementedError: pass return False def is_overload(self, decorators: List[ast.expr]) -> bool: overload = [] if self.typing: overload.append('%s.overload' % self.typing) if self.typing_overload: overload.append(self.typing_overload) for decorator in decorators: try: if unparse(decorator) in overload: return True except NotImplementedError: pass return False def get_self(self) -> Optional[ast.arg]: """Returns the name of the first argument if in a function.""" if self.current_function and self.current_function.args.args: return self.current_function.args.args[0] elif (self.current_function and getattr(self.current_function.args, 'posonlyargs', None)): # for py38+ return self.current_function.args.posonlyargs[0] # type: ignore else: return None def get_line(self, lineno: int) -> str: """Returns specified line.""" return self.buffers[lineno - 1] def visit(self, node: ast.AST) -> None: """Updates self.previous to the given node.""" super().visit(node) self.previous = node def visit_Import(self, node: ast.Import) -> None: """Handles Import node and record the order of definitions.""" for name in node.names: self.add_entry(name.asname or name.name) if name.name == 'typing': self.typing = name.asname or name.name elif name.name == 'typing.final': self.typing_final = name.asname or name.name elif name.name == 'typing.overload': self.typing_overload = name.asname or name.name def visit_ImportFrom(self, node: ast.ImportFrom) -> None: """Handles Import node and record the order of definitions.""" for name in node.names: self.add_entry(name.asname or name.name) if node.module == 'typing' and name.name == 'final': self.typing_final = name.asname or name.name elif node.module == 'typing' and name.name == 'overload': self.typing_overload = name.asname or name.name def visit_Assign(self, node: ast.Assign) -> None: """Handles Assign node and pick up a variable comment.""" try: targets = get_assign_targets(node) varnames: List[str] = sum([get_lvar_names(t, self=self.get_self()) for t in targets], []) # NOQA current_line = self.get_line(node.lineno) except TypeError: return # this assignment is not new definition! # record annotation if hasattr(node, 'annotation') and node.annotation: # type: ignore for varname in varnames: self.add_variable_annotation(varname, node.annotation) # type: ignore elif hasattr(node, 'type_comment') and node.type_comment: for varname in varnames: self.add_variable_annotation(varname, node.type_comment) # type: ignore # check comments after assignment parser = AfterCommentParser([current_line[node.col_offset:]] + self.buffers[node.lineno:]) parser.parse() if parser.comment and comment_re.match(parser.comment): for varname in varnames: self.add_variable_comment(varname, comment_re.sub('\\1', parser.comment)) self.add_entry(varname) return # check comments before assignment if indent_re.match(current_line[:node.col_offset]): comment_lines = [] for i in range(node.lineno - 1): before_line = self.get_line(node.lineno - 1 - i) if comment_re.match(before_line): comment_lines.append(comment_re.sub('\\1', before_line)) else: break if comment_lines: comment = dedent_docstring('\n'.join(reversed(comment_lines))) for varname in varnames: self.add_variable_comment(varname, comment) self.add_entry(varname) return # not commented (record deforders only) for varname in varnames: self.add_entry(varname) def visit_AnnAssign(self, node: ast.AnnAssign) -> None: """Handles AnnAssign node and pick up a variable comment.""" self.visit_Assign(node) # type: ignore def visit_Expr(self, node: ast.Expr) -> None: """Handles Expr node and pick up a comment if string.""" if (isinstance(self.previous, (ast.Assign, ast.AnnAssign)) and isinstance(node.value, ast.Str)): try: targets = get_assign_targets(self.previous) varnames = get_lvar_names(targets[0], self.get_self()) for varname in varnames: if isinstance(node.value.s, str): docstring = node.value.s else: docstring = node.value.s.decode(self.encoding or 'utf-8') self.add_variable_comment(varname, dedent_docstring(docstring)) self.add_entry(varname) except TypeError: pass # this assignment is not new definition! def visit_Try(self, node: ast.Try) -> None: """Handles Try node and processes body and else-clause. .. note:: pycode parser ignores objects definition in except-clause. """ for subnode in node.body: self.visit(subnode) for subnode in node.orelse: self.visit(subnode) def visit_ClassDef(self, node: ast.ClassDef) -> None: """Handles ClassDef node and set context.""" self.current_classes.append(node.name) self.add_entry(node.name) if self.is_final(node.decorator_list): self.add_final_entry(node.name) self.context.append(node.name) self.previous = node for child in node.body: self.visit(child) self.context.pop() self.current_classes.pop() def visit_FunctionDef(self, node: ast.FunctionDef) -> None: """Handles FunctionDef node and set context.""" if self.current_function is None: self.add_entry(node.name) # should be called before setting self.current_function if self.is_final(node.decorator_list): self.add_final_entry(node.name) if self.is_overload(node.decorator_list): self.add_overload_entry(node) self.context.append(node.name) self.current_function = node for child in node.body: self.visit(child) self.context.pop() self.current_function = None def visit_AsyncFunctionDef(self, node: ast.AsyncFunctionDef) -> None: """Handles AsyncFunctionDef node and set context.""" self.visit_FunctionDef(node) # type: ignore class DefinitionFinder(TokenProcessor): """Python source code parser to detect location of functions, classes and methods. """ def __init__(self, lines: List[str]) -> None: super().__init__(lines) self.decorator: Optional[Token] = None self.context: List[str] = [] self.indents: List = [] self.definitions: Dict[str, Tuple[str, int, int]] = {} def add_definition(self, name: str, entry: Tuple[str, int, int]) -> None: """Add a location of definition.""" if self.indents and self.indents[-1][0] == 'def' and entry[0] == 'def': # ignore definition of inner function pass else: self.definitions[name] = entry def parse(self) -> None: """Parse the code to obtain location of definitions.""" while True: token = self.fetch_token() if token is None: break elif token == COMMENT: pass elif token == [OP, '@'] and (self.previous is None or self.previous.match(NEWLINE, NL, INDENT, DEDENT)): if self.decorator is None: self.decorator = token elif token.match([NAME, 'class']): self.parse_definition('class') elif token.match([NAME, 'def']): self.parse_definition('def') elif token == INDENT: self.indents.append(('other', None, None)) elif token == DEDENT: self.finalize_block() def parse_definition(self, typ: str) -> None: """Parse AST of definition.""" name = self.fetch_token() self.context.append(name.value) funcname = '.'.join(self.context) if self.decorator: start_pos = self.decorator.start[0] self.decorator = None else: start_pos = name.start[0] self.fetch_until([OP, ':']) if self.fetch_token().match(COMMENT, NEWLINE): self.fetch_until(INDENT) self.indents.append((typ, funcname, start_pos)) else: # one-liner self.add_definition(funcname, (typ, start_pos, name.end[0])) self.context.pop() def finalize_block(self) -> None: """Finalize definition block.""" definition = self.indents.pop() if definition[0] != 'other': typ, funcname, start_pos = definition end_pos = self.current.end[0] - 1 while emptyline_re.match(self.get_line(end_pos)): end_pos -= 1 self.add_definition(funcname, (typ, start_pos, end_pos)) self.context.pop() class Parser: """Python source code parser to pick up variable comments. This is a better wrapper for ``VariableCommentPicker``. """ def __init__(self, code: str, encoding: str = 'utf-8') -> None: self.code = filter_whitespace(code) self.encoding = encoding self.annotations: Dict[Tuple[str, str], str] = {} self.comments: Dict[Tuple[str, str], str] = {} self.deforders: Dict[str, int] = {} self.definitions: Dict[str, Tuple[str, int, int]] = {} self.finals: List[str] = [] self.overloads: Dict[str, List[Signature]] = {} def parse(self) -> None: """Parse the source code.""" self.parse_comments() self.parse_definition() def parse_comments(self) -> None: """Parse the code and pick up comments.""" tree = parse(self.code) picker = VariableCommentPicker(self.code.splitlines(True), self.encoding) picker.visit(tree) self.annotations = picker.annotations self.comments = picker.comments self.deforders = picker.deforders self.finals = picker.finals self.overloads = picker.overloads def parse_definition(self) -> None: """Parse the location of definitions from the code.""" parser = DefinitionFinder(self.code.splitlines(True)) parser.parse() self.definitions = parser.definitions