# Copyright (c) 2006-2011, 2013-2014 LOGILAB S.A. (Paris, FRANCE) # Copyright (c) 2013 Phil Schaf # Copyright (c) 2014-2020 Claudiu Popa # Copyright (c) 2014-2015 Google, Inc. # Copyright (c) 2014 Alexander Presnyakov # Copyright (c) 2015-2016 Ceridwen # Copyright (c) 2016 Derek Gustafson # Copyright (c) 2017 Łukasz Rogalski # Copyright (c) 2018 Anthony Sottile # Copyright (c) 2020-2021 hippo91 # Copyright (c) 2021 Pierre Sassoulas # Copyright (c) 2021 Tushar Sadhwani <86737547+tushar-deepsource@users.noreply.github.com> # Copyright (c) 2021 Daniël van Noord <13665637+DanielNoord@users.noreply.github.com> # Copyright (c) 2021 Gregory P. Smith # Copyright (c) 2021 Kian Meng, Ang # Copyright (c) 2021 Marc Mueller <30130371+cdce8p@users.noreply.github.com> # Copyright (c) 2021 Andrew Haigh # 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 """The AstroidBuilder makes astroid from living object and / or from _ast The builder is not thread safe and can't be used to parse different sources at the same time. """ import os import textwrap import types from tokenize import detect_encoding from typing import List, Optional, Union from astroid import bases, modutils, nodes, raw_building, rebuilder, util from astroid._ast import get_parser_module from astroid.exceptions import AstroidBuildingError, AstroidSyntaxError, InferenceError from astroid.manager import AstroidManager from astroid.nodes.node_classes import NodeNG objects = util.lazy_import("objects") # The name of the transient function that is used to # wrap expressions to be extracted when calling # extract_node. _TRANSIENT_FUNCTION = "__" # The comment used to select a statement to be extracted # when calling extract_node. _STATEMENT_SELECTOR = "#@" MISPLACED_TYPE_ANNOTATION_ERROR = "misplaced type annotation" def open_source_file(filename): # pylint: disable=consider-using-with with open(filename, "rb") as byte_stream: encoding = detect_encoding(byte_stream.readline)[0] stream = open(filename, newline=None, encoding=encoding) data = stream.read() return stream, encoding, data def _can_assign_attr(node, attrname): try: slots = node.slots() except NotImplementedError: pass else: if slots and attrname not in {slot.value for slot in slots}: return False return node.qname() != "builtins.object" class AstroidBuilder(raw_building.InspectBuilder): """Class for building an astroid tree from source code or from a live module. The param *manager* specifies the manager class which should be used. If no manager is given, then the default one will be used. The param *apply_transforms* determines if the transforms should be applied after the tree was built from source or from a live object, by default being True. """ # pylint: disable=redefined-outer-name def __init__(self, manager=None, apply_transforms=True): super().__init__(manager) self._apply_transforms = apply_transforms def module_build( self, module: types.ModuleType, modname: Optional[str] = None ) -> nodes.Module: """Build an astroid from a living module instance.""" node = None path = getattr(module, "__file__", None) loader = getattr(module, "__loader__", None) # Prefer the loader to get the source rather than assuming we have a # filesystem to read the source file from ourselves. if loader: modname = modname or module.__name__ source = loader.get_source(modname) if source: node = self.string_build(source, modname, path=path) if node is None and path is not None: path_, ext = os.path.splitext(modutils._path_from_filename(path)) if ext in {".py", ".pyc", ".pyo"} and os.path.exists(path_ + ".py"): node = self.file_build(path_ + ".py", modname) if node is None: # this is a built-in module # get a partial representation by introspection node = self.inspect_build(module, modname=modname, path=path) if self._apply_transforms: # We have to handle transformation by ourselves since the # rebuilder isn't called for builtin nodes node = self._manager.visit_transforms(node) return node def file_build(self, path, modname=None): """Build astroid from a source code file (i.e. from an ast) *path* is expected to be a python source file """ try: stream, encoding, data = open_source_file(path) except OSError as exc: raise AstroidBuildingError( "Unable to load file {path}:\n{error}", modname=modname, path=path, error=exc, ) from exc except (SyntaxError, LookupError) as exc: raise AstroidSyntaxError( "Python 3 encoding specification error or unknown encoding:\n" "{error}", modname=modname, path=path, error=exc, ) from exc except UnicodeError as exc: # wrong encoding # detect_encoding returns utf-8 if no encoding specified raise AstroidBuildingError( "Wrong or no encoding specified for {filename}.", filename=path ) from exc with stream: # get module name if necessary if modname is None: try: modname = ".".join(modutils.modpath_from_file(path)) except ImportError: modname = os.path.splitext(os.path.basename(path))[0] # build astroid representation module = self._data_build(data, modname, path) return self._post_build(module, encoding) def string_build(self, data, modname="", path=None): """Build astroid from source code string.""" module = self._data_build(data, modname, path) module.file_bytes = data.encode("utf-8") return self._post_build(module, "utf-8") def _post_build(self, module, encoding): """Handles encoding and delayed nodes after a module has been built""" module.file_encoding = encoding self._manager.cache_module(module) # post tree building steps after we stored the module in the cache: for from_node in module._import_from_nodes: if from_node.modname == "__future__": for symbol, _ in from_node.names: module.future_imports.add(symbol) self.add_from_names_to_locals(from_node) # handle delayed assattr nodes for delayed in module._delayed_assattr: self.delayed_assattr(delayed) # Visit the transforms if self._apply_transforms: module = self._manager.visit_transforms(module) return module def _data_build(self, data, modname, path): """Build tree node from data and add some information""" try: node, parser_module = _parse_string(data, type_comments=True) except (TypeError, ValueError, SyntaxError) as exc: raise AstroidSyntaxError( "Parsing Python code failed:\n{error}", source=data, modname=modname, path=path, error=exc, ) from exc if path is not None: node_file = os.path.abspath(path) else: node_file = "" if modname.endswith(".__init__"): modname = modname[:-9] package = True else: package = ( path is not None and os.path.splitext(os.path.basename(path))[0] == "__init__" ) builder = rebuilder.TreeRebuilder(self._manager, parser_module) module = builder.visit_module(node, modname, node_file, package) module._import_from_nodes = builder._import_from_nodes module._delayed_assattr = builder._delayed_assattr return module def add_from_names_to_locals(self, node): """Store imported names to the locals Resort the locals if coming from a delayed node """ def _key_func(node): return node.fromlineno def sort_locals(my_list): my_list.sort(key=_key_func) for (name, asname) in node.names: if name == "*": try: imported = node.do_import_module() except AstroidBuildingError: continue for name in imported.public_names(): node.parent.set_local(name, node) sort_locals(node.parent.scope().locals[name]) else: node.parent.set_local(asname or name, node) sort_locals(node.parent.scope().locals[asname or name]) def delayed_assattr(self, node): """Visit a AssAttr node This adds name to locals and handle members definition. """ try: frame = node.frame(future=True) for inferred in node.expr.infer(): if inferred is util.Uninferable: continue try: cls = inferred.__class__ if cls is bases.Instance or cls is objects.ExceptionInstance: inferred = inferred._proxied iattrs = inferred.instance_attrs if not _can_assign_attr(inferred, node.attrname): continue elif isinstance(inferred, bases.Instance): # Const, Tuple or other containers that inherit from # `Instance` continue elif inferred.is_function: iattrs = inferred.instance_attrs else: iattrs = inferred.locals except AttributeError: # XXX log error continue values = iattrs.setdefault(node.attrname, []) if node in values: continue # get assign in __init__ first XXX useful ? if ( frame.name == "__init__" and values and values[0].frame(future=True).name != "__init__" ): values.insert(0, node) else: values.append(node) except InferenceError: pass def build_namespace_package_module(name: str, path: List[str]) -> nodes.Module: return nodes.Module(name, doc="", path=path, package=True) def parse(code, module_name="", path=None, apply_transforms=True): """Parses a source string in order to obtain an astroid AST from it :param str code: The code for the module. :param str module_name: The name for the module, if any :param str path: The path for the module :param bool apply_transforms: Apply the transforms for the give code. Use it if you don't want the default transforms to be applied. """ code = textwrap.dedent(code) builder = AstroidBuilder( manager=AstroidManager(), apply_transforms=apply_transforms ) return builder.string_build(code, modname=module_name, path=path) def _extract_expressions(node): """Find expressions in a call to _TRANSIENT_FUNCTION and extract them. The function walks the AST recursively to search for expressions that are wrapped into a call to _TRANSIENT_FUNCTION. If it finds such an expression, it completely removes the function call node from the tree, replacing it by the wrapped expression inside the parent. :param node: An astroid node. :type node: astroid.bases.NodeNG :yields: The sequence of wrapped expressions on the modified tree expression can be found. """ if ( isinstance(node, nodes.Call) and isinstance(node.func, nodes.Name) and node.func.name == _TRANSIENT_FUNCTION ): real_expr = node.args[0] real_expr.parent = node.parent # Search for node in all _astng_fields (the fields checked when # get_children is called) of its parent. Some of those fields may # be lists or tuples, in which case the elements need to be checked. # When we find it, replace it by real_expr, so that the AST looks # like no call to _TRANSIENT_FUNCTION ever took place. for name in node.parent._astroid_fields: child = getattr(node.parent, name) if isinstance(child, (list, tuple)): for idx, compound_child in enumerate(child): if compound_child is node: child[idx] = real_expr elif child is node: setattr(node.parent, name, real_expr) yield real_expr else: for child in node.get_children(): yield from _extract_expressions(child) def _find_statement_by_line(node, line): """Extracts the statement on a specific line from an AST. If the line number of node matches line, it will be returned; otherwise its children are iterated and the function is called recursively. :param node: An astroid node. :type node: astroid.bases.NodeNG :param line: The line number of the statement to extract. :type line: int :returns: The statement on the line, or None if no statement for the line can be found. :rtype: astroid.bases.NodeNG or None """ if isinstance(node, (nodes.ClassDef, nodes.FunctionDef, nodes.MatchCase)): # This is an inaccuracy in the AST: the nodes that can be # decorated do not carry explicit information on which line # the actual definition (class/def), but .fromline seems to # be close enough. node_line = node.fromlineno else: node_line = node.lineno if node_line == line: return node for child in node.get_children(): result = _find_statement_by_line(child, line) if result: return result return None def extract_node(code: str, module_name: str = "") -> Union[NodeNG, List[NodeNG]]: """Parses some Python code as a module and extracts a designated AST node. Statements: To extract one or more statement nodes, append #@ to the end of the line Examples: >>> def x(): >>> def y(): >>> return 1 #@ The return statement will be extracted. >>> class X(object): >>> def meth(self): #@ >>> pass The function object 'meth' will be extracted. Expressions: To extract arbitrary expressions, surround them with the fake function call __(...). After parsing, the surrounded expression will be returned and the whole AST (accessible via the returned node's parent attribute) will look like the function call was never there in the first place. Examples: >>> a = __(1) The const node will be extracted. >>> def x(d=__(foo.bar)): pass The node containing the default argument will be extracted. >>> def foo(a, b): >>> return 0 < __(len(a)) < b The node containing the function call 'len' will be extracted. If no statements or expressions are selected, the last toplevel statement will be returned. If the selected statement is a discard statement, (i.e. an expression turned into a statement), the wrapped expression is returned instead. For convenience, singleton lists are unpacked. :param str code: A piece of Python code that is parsed as a module. Will be passed through textwrap.dedent first. :param str module_name: The name of the module. :returns: The designated node from the parse tree, or a list of nodes. """ def _extract(node): if isinstance(node, nodes.Expr): return node.value return node requested_lines = [] for idx, line in enumerate(code.splitlines()): if line.strip().endswith(_STATEMENT_SELECTOR): requested_lines.append(idx + 1) tree = parse(code, module_name=module_name) if not tree.body: raise ValueError("Empty tree, cannot extract from it") extracted = [] if requested_lines: extracted = [_find_statement_by_line(tree, line) for line in requested_lines] # Modifies the tree. extracted.extend(_extract_expressions(tree)) if not extracted: extracted.append(tree.body[-1]) extracted = [_extract(node) for node in extracted] if len(extracted) == 1: return extracted[0] return extracted def _parse_string(data, type_comments=True): parser_module = get_parser_module(type_comments=type_comments) try: parsed = parser_module.parse(data + "\n", type_comments=type_comments) except SyntaxError as exc: # If the type annotations are misplaced for some reason, we do not want # to fail the entire parsing of the file, so we need to retry the parsing without # type comment support. if exc.args[0] != MISPLACED_TYPE_ANNOTATION_ERROR or not type_comments: raise parser_module = get_parser_module(type_comments=False) parsed = parser_module.parse(data + "\n", type_comments=False) return parsed, parser_module