# copyright 2003-2013 LOGILAB S.A. (Paris, FRANCE), all rights reserved. # contact http://www.logilab.fr/ -- mailto:contact@logilab.fr # # This file is part of astroid. # # astroid is free software: you can redistribute it and/or modify it # under the terms of the GNU Lesser General Public License as published by the # Free Software Foundation, either version 2.1 of the License, or (at your # option) any later version. # # astroid is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or # FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License # for more details. # # You should have received a copy of the GNU Lesser General Public License along # with astroid. If not, see . """Module for some node classes. More nodes in scoped_nodes.py """ import sys from astroid.exceptions import NoDefault from astroid.bases import (NodeNG, Statement, Instance, InferenceContext, _infer_stmts, YES, BUILTINS) from astroid.mixins import (BlockRangeMixIn, AssignTypeMixin, ParentAssignTypeMixin, FromImportMixIn) PY3K = sys.version_info >= (3, 0) def unpack_infer(stmt, context=None): """recursively generate nodes inferred by the given statement. If the inferred value is a list or a tuple, recurse on the elements """ if isinstance(stmt, (List, Tuple)): for elt in stmt.elts: for infered_elt in unpack_infer(elt, context): yield infered_elt return # if infered is a final node, return it and stop infered = stmt.infer(context).next() if infered is stmt: yield infered return # else, infer recursivly, except YES object that should be returned as is for infered in stmt.infer(context): if infered is YES: yield infered else: for inf_inf in unpack_infer(infered, context): yield inf_inf def are_exclusive(stmt1, stmt2, exceptions=None): """return true if the two given statements are mutually exclusive `exceptions` may be a list of exception names. If specified, discard If branches and check one of the statement is in an exception handler catching one of the given exceptions. algorithm : 1) index stmt1's parents 2) climb among stmt2's parents until we find a common parent 3) if the common parent is a If or TryExcept statement, look if nodes are in exclusive branches """ # index stmt1's parents stmt1_parents = {} children = {} node = stmt1.parent previous = stmt1 while node: stmt1_parents[node] = 1 children[node] = previous previous = node node = node.parent # climb among stmt2's parents until we find a common parent node = stmt2.parent previous = stmt2 while node: if node in stmt1_parents: # if the common parent is a If or TryExcept statement, look if # nodes are in exclusive branches if isinstance(node, If) and exceptions is None: if (node.locate_child(previous)[1] is not node.locate_child(children[node])[1]): return True elif isinstance(node, TryExcept): c2attr, c2node = node.locate_child(previous) c1attr, c1node = node.locate_child(children[node]) if c1node is not c2node: if ((c2attr == 'body' and c1attr == 'handlers' and children[node].catch(exceptions)) or (c2attr == 'handlers' and c1attr == 'body' and previous.catch(exceptions)) or (c2attr == 'handlers' and c1attr == 'orelse') or (c2attr == 'orelse' and c1attr == 'handlers')): return True elif c2attr == 'handlers' and c1attr == 'handlers': return previous is not children[node] return False previous = node node = node.parent return False class LookupMixIn(object): """Mixin looking up a name in the right scope """ def lookup(self, name): """lookup a variable name return the scope node and the list of assignments associated to the given name according to the scope where it has been found (locals, globals or builtin) The lookup is starting from self's scope. If self is not a frame itself and the name is found in the inner frame locals, statements will be filtered to remove ignorable statements according to self's location """ return self.scope().scope_lookup(self, name) def ilookup(self, name): """infered lookup return an iterator on infered values of the statements returned by the lookup method """ frame, stmts = self.lookup(name) context = InferenceContext() return _infer_stmts(stmts, context, frame) def _filter_stmts(self, stmts, frame, offset): """filter statements to remove ignorable statements. If self is not a frame itself and the name is found in the inner frame locals, statements will be filtered to remove ignorable statements according to self's location """ # if offset == -1, my actual frame is not the inner frame but its parent # # class A(B): pass # # we need this to resolve B correctly if offset == -1: myframe = self.frame().parent.frame() else: myframe = self.frame() if not myframe is frame or self is frame: return stmts mystmt = self.statement() # line filtering if we are in the same frame # # take care node may be missing lineno information (this is the case for # nodes inserted for living objects) if myframe is frame and mystmt.fromlineno is not None: assert mystmt.fromlineno is not None, mystmt mylineno = mystmt.fromlineno + offset else: # disabling lineno filtering mylineno = 0 _stmts = [] _stmt_parents = [] for node in stmts: stmt = node.statement() # line filtering is on and we have reached our location, break if mylineno > 0 and stmt.fromlineno > mylineno: break assert hasattr(node, 'ass_type'), (node, node.scope(), node.scope().locals) ass_type = node.ass_type() if node.has_base(self): break _stmts, done = ass_type._get_filtered_stmts(self, node, _stmts, mystmt) if done: break optional_assign = ass_type.optional_assign if optional_assign and ass_type.parent_of(self): # we are inside a loop, loop var assigment is hidding previous # assigment _stmts = [node] _stmt_parents = [stmt.parent] continue # XXX comment various branches below!!! try: pindex = _stmt_parents.index(stmt.parent) except ValueError: pass else: # we got a parent index, this means the currently visited node # is at the same block level as a previously visited node if _stmts[pindex].ass_type().parent_of(ass_type): # both statements are not at the same block level continue # if currently visited node is following previously considered # assignement and both are not exclusive, we can drop the # previous one. For instance in the following code :: # # if a: # x = 1 # else: # x = 2 # print x # # we can't remove neither x = 1 nor x = 2 when looking for 'x' # of 'print x'; while in the following :: # # x = 1 # x = 2 # print x # # we can remove x = 1 when we see x = 2 # # moreover, on loop assignment types, assignment won't # necessarily be done if the loop has no iteration, so we don't # want to clear previous assigments if any (hence the test on # optional_assign) if not (optional_assign or are_exclusive(_stmts[pindex], node)): del _stmt_parents[pindex] del _stmts[pindex] if isinstance(node, AssName): if not optional_assign and stmt.parent is mystmt.parent: _stmts = [] _stmt_parents = [] elif isinstance(node, DelName): _stmts = [] _stmt_parents = [] continue if not are_exclusive(self, node): _stmts.append(node) _stmt_parents.append(stmt.parent) return _stmts # Name classes class AssName(LookupMixIn, ParentAssignTypeMixin, NodeNG): """class representing an AssName node""" class DelName(LookupMixIn, ParentAssignTypeMixin, NodeNG): """class representing a DelName node""" class Name(LookupMixIn, NodeNG): """class representing a Name node""" ##################### node classes ######################################## class Arguments(NodeNG, AssignTypeMixin): """class representing an Arguments node""" if PY3K: # Python 3.4+ uses a different approach regarding annotations, # each argument is a new class, _ast.arg, which exposes an # 'annotation' attribute. In astroid though, arguments are exposed # as is in the Arguments node and the only way to expose annotations # is by using something similar with Python 3.3: # - we expose 'varargannotation' and 'kwargannotation' of annotations # of varargs and kwargs. # - we expose 'annotation', a list with annotations for # for each normal argument. If an argument doesn't have an # annotation, its value will be None. _astroid_fields = ('args', 'defaults', 'kwonlyargs', 'kw_defaults', 'annotations', 'varargannotation', 'kwargannotation') annotations = None varargannotation = None kwargannotation = None else: _astroid_fields = ('args', 'defaults', 'kwonlyargs', 'kw_defaults') args = None defaults = None kwonlyargs = None kw_defaults = None def __init__(self, vararg=None, kwarg=None): self.vararg = vararg self.kwarg = kwarg def _infer_name(self, frame, name): if self.parent is frame: return name return None def format_args(self): """return arguments formatted as string""" result = [] if self.args: result.append(_format_args(self.args, self.defaults)) if self.vararg: result.append('*%s' % self.vararg) if self.kwarg: result.append('**%s' % self.kwarg) if self.kwonlyargs: if not self.vararg: result.append('*') result.append(_format_args(self.kwonlyargs, self.kw_defaults)) return ', '.join(result) def default_value(self, argname): """return the default value for an argument :raise `NoDefault`: if there is no default value defined """ i = _find_arg(argname, self.args)[0] if i is not None: idx = i - (len(self.args) - len(self.defaults)) if idx >= 0: return self.defaults[idx] i = _find_arg(argname, self.kwonlyargs)[0] if i is not None and self.kw_defaults[i] is not None: return self.kw_defaults[i] raise NoDefault() def is_argument(self, name): """return True if the name is defined in arguments""" if name == self.vararg: return True if name == self.kwarg: return True return self.find_argname(name, True)[1] is not None def find_argname(self, argname, rec=False): """return index and Name node with given name""" if self.args: # self.args may be None in some cases (builtin function) return _find_arg(argname, self.args, rec) return None, None def get_children(self): """override get_children to skip over None elements in kw_defaults""" for child in super(Arguments, self).get_children(): if child is not None: yield child def _find_arg(argname, args, rec=False): for i, arg in enumerate(args): if isinstance(arg, Tuple): if rec: found = _find_arg(argname, arg.elts) if found[0] is not None: return found elif arg.name == argname: return i, arg return None, None def _format_args(args, defaults=None): values = [] if args is None: return '' if defaults is not None: default_offset = len(args) - len(defaults) for i, arg in enumerate(args): if isinstance(arg, Tuple): values.append('(%s)' % _format_args(arg.elts)) else: values.append(arg.name) if defaults is not None and i >= default_offset: if defaults[i-default_offset] is not None: values[-1] += '=' + defaults[i-default_offset].as_string() return ', '.join(values) class AssAttr(NodeNG, ParentAssignTypeMixin): """class representing an AssAttr node""" _astroid_fields = ('expr',) expr = None class Assert(Statement): """class representing an Assert node""" _astroid_fields = ('test', 'fail',) test = None fail = None class Assign(Statement, AssignTypeMixin): """class representing an Assign node""" _astroid_fields = ('targets', 'value',) targets = None value = None class AugAssign(Statement, AssignTypeMixin): """class representing an AugAssign node""" _astroid_fields = ('target', 'value',) target = None value = None class Backquote(NodeNG): """class representing a Backquote node""" _astroid_fields = ('value',) value = None class BinOp(NodeNG): """class representing a BinOp node""" _astroid_fields = ('left', 'right',) left = None right = None class BoolOp(NodeNG): """class representing a BoolOp node""" _astroid_fields = ('values',) values = None class Break(Statement): """class representing a Break node""" class CallFunc(NodeNG): """class representing a CallFunc node""" _astroid_fields = ('func', 'args', 'starargs', 'kwargs') func = None args = None starargs = None kwargs = None def __init__(self): self.starargs = None self.kwargs = None class Compare(NodeNG): """class representing a Compare node""" _astroid_fields = ('left', 'ops',) left = None ops = None def get_children(self): """override get_children for tuple fields""" yield self.left for _, comparator in self.ops: yield comparator # we don't want the 'op' def last_child(self): """override last_child""" # XXX maybe if self.ops: return self.ops[-1][1] #return self.left class Comprehension(NodeNG): """class representing a Comprehension node""" _astroid_fields = ('target', 'iter', 'ifs') target = None iter = None ifs = None optional_assign = True def ass_type(self): return self def _get_filtered_stmts(self, lookup_node, node, stmts, mystmt): """method used in filter_stmts""" if self is mystmt: if isinstance(lookup_node, (Const, Name)): return [lookup_node], True elif self.statement() is mystmt: # original node's statement is the assignment, only keeps # current node (gen exp, list comp) return [node], True return stmts, False class Const(NodeNG, Instance): """represent a constant node like num, str, bool, None, bytes""" def __init__(self, value=None): self.value = value def getitem(self, index, context=None): if isinstance(self.value, basestring): return Const(self.value[index]) raise TypeError('%r (value=%s)' % (self, self.value)) def has_dynamic_getattr(self): return False def itered(self): if isinstance(self.value, basestring): return self.value raise TypeError() def pytype(self): return self._proxied.qname() class Continue(Statement): """class representing a Continue node""" class Decorators(NodeNG): """class representing a Decorators node""" _astroid_fields = ('nodes',) nodes = None def __init__(self, nodes=None): self.nodes = nodes def scope(self): # skip the function node to go directly to the upper level scope return self.parent.parent.scope() class DelAttr(NodeNG, ParentAssignTypeMixin): """class representing a DelAttr node""" _astroid_fields = ('expr',) expr = None class Delete(Statement, AssignTypeMixin): """class representing a Delete node""" _astroid_fields = ('targets',) targets = None class Dict(NodeNG, Instance): """class representing a Dict node""" _astroid_fields = ('items',) def __init__(self, items=None): if items is None: self.items = [] else: self.items = [(const_factory(k), const_factory(v)) for k, v in items.iteritems()] def pytype(self): return '%s.dict' % BUILTINS def get_children(self): """get children of a Dict node""" # overrides get_children for key, value in self.items: yield key yield value def last_child(self): """override last_child""" if self.items: return self.items[-1][1] return None def itered(self): return self.items[::2] def getitem(self, lookup_key, context=None): for key, value in self.items: for inferedkey in key.infer(context): if inferedkey is YES: continue if isinstance(inferedkey, Const) \ and inferedkey.value == lookup_key: return value # This should raise KeyError, but all call sites only catch # IndexError. Let's leave it like that for now. raise IndexError(lookup_key) class Discard(Statement): """class representing a Discard node""" _astroid_fields = ('value',) value = None class Ellipsis(NodeNG): """class representing an Ellipsis node""" class EmptyNode(NodeNG): """class representing an EmptyNode node""" class ExceptHandler(Statement, AssignTypeMixin): """class representing an ExceptHandler node""" _astroid_fields = ('type', 'name', 'body',) type = None name = None body = None def _blockstart_toline(self): if self.name: return self.name.tolineno elif self.type: return self.type.tolineno else: return self.lineno def set_line_info(self, lastchild): self.fromlineno = self.lineno self.tolineno = lastchild.tolineno self.blockstart_tolineno = self._blockstart_toline() def catch(self, exceptions): if self.type is None or exceptions is None: return True for node in self.type.nodes_of_class(Name): if node.name in exceptions: return True class Exec(Statement): """class representing an Exec node""" _astroid_fields = ('expr', 'globals', 'locals',) expr = None globals = None locals = None class ExtSlice(NodeNG): """class representing an ExtSlice node""" _astroid_fields = ('dims',) dims = None class For(BlockRangeMixIn, AssignTypeMixin, Statement): """class representing a For node""" _astroid_fields = ('target', 'iter', 'body', 'orelse',) target = None iter = None body = None orelse = None optional_assign = True def _blockstart_toline(self): return self.iter.tolineno class From(FromImportMixIn, Statement): """class representing a From node""" def __init__(self, fromname, names, level=0): self.modname = fromname self.names = names self.level = level class Getattr(NodeNG): """class representing a Getattr node""" _astroid_fields = ('expr',) expr = None class Global(Statement): """class representing a Global node""" def __init__(self, names): self.names = names def _infer_name(self, frame, name): return name class If(BlockRangeMixIn, Statement): """class representing an If node""" _astroid_fields = ('test', 'body', 'orelse') test = None body = None orelse = None def _blockstart_toline(self): return self.test.tolineno def block_range(self, lineno): """handle block line numbers range for if statements""" if lineno == self.body[0].fromlineno: return lineno, lineno if lineno <= self.body[-1].tolineno: return lineno, self.body[-1].tolineno return self._elsed_block_range(lineno, self.orelse, self.body[0].fromlineno - 1) class IfExp(NodeNG): """class representing an IfExp node""" _astroid_fields = ('test', 'body', 'orelse') test = None body = None orelse = None class Import(FromImportMixIn, Statement): """class representing an Import node""" class Index(NodeNG): """class representing an Index node""" _astroid_fields = ('value',) value = None class Keyword(NodeNG): """class representing a Keyword node""" _astroid_fields = ('value',) value = None class List(NodeNG, Instance, ParentAssignTypeMixin): """class representing a List node""" _astroid_fields = ('elts',) def __init__(self, elts=None): if elts is None: self.elts = [] else: self.elts = [const_factory(e) for e in elts] def pytype(self): return '%s.list' % BUILTINS def getitem(self, index, context=None): return self.elts[index] def itered(self): return self.elts class Nonlocal(Statement): """class representing a Nonlocal node""" def __init__(self, names): self.names = names def _infer_name(self, frame, name): return name class Pass(Statement): """class representing a Pass node""" class Print(Statement): """class representing a Print node""" _astroid_fields = ('dest', 'values',) dest = None values = None class Raise(Statement): """class representing a Raise node""" exc = None if sys.version_info < (3, 0): _astroid_fields = ('exc', 'inst', 'tback') inst = None tback = None else: _astroid_fields = ('exc', 'cause') exc = None cause = None def raises_not_implemented(self): if not self.exc: return for name in self.exc.nodes_of_class(Name): if name.name == 'NotImplementedError': return True class Return(Statement): """class representing a Return node""" _astroid_fields = ('value',) value = None class Set(NodeNG, Instance, ParentAssignTypeMixin): """class representing a Set node""" _astroid_fields = ('elts',) def __init__(self, elts=None): if elts is None: self.elts = [] else: self.elts = [const_factory(e) for e in elts] def pytype(self): return '%s.set' % BUILTINS def itered(self): return self.elts class Slice(NodeNG): """class representing a Slice node""" _astroid_fields = ('lower', 'upper', 'step') lower = None upper = None step = None class Starred(NodeNG, ParentAssignTypeMixin): """class representing a Starred node""" _astroid_fields = ('value',) value = None class Subscript(NodeNG): """class representing a Subscript node""" _astroid_fields = ('value', 'slice') value = None slice = None class TryExcept(BlockRangeMixIn, Statement): """class representing a TryExcept node""" _astroid_fields = ('body', 'handlers', 'orelse',) body = None handlers = None orelse = None def _infer_name(self, frame, name): return name def _blockstart_toline(self): return self.lineno def block_range(self, lineno): """handle block line numbers range for try/except statements""" last = None for exhandler in self.handlers: if exhandler.type and lineno == exhandler.type.fromlineno: return lineno, lineno if exhandler.body[0].fromlineno <= lineno <= exhandler.body[-1].tolineno: return lineno, exhandler.body[-1].tolineno if last is None: last = exhandler.body[0].fromlineno - 1 return self._elsed_block_range(lineno, self.orelse, last) class TryFinally(BlockRangeMixIn, Statement): """class representing a TryFinally node""" _astroid_fields = ('body', 'finalbody',) body = None finalbody = None def _blockstart_toline(self): return self.lineno def block_range(self, lineno): """handle block line numbers range for try/finally statements""" child = self.body[0] # py2.5 try: except: finally: if (isinstance(child, TryExcept) and child.fromlineno == self.fromlineno and lineno > self.fromlineno and lineno <= child.tolineno): return child.block_range(lineno) return self._elsed_block_range(lineno, self.finalbody) class Tuple(NodeNG, Instance, ParentAssignTypeMixin): """class representing a Tuple node""" _astroid_fields = ('elts',) def __init__(self, elts=None): if elts is None: self.elts = [] else: self.elts = [const_factory(e) for e in elts] def pytype(self): return '%s.tuple' % BUILTINS def getitem(self, index, context=None): return self.elts[index] def itered(self): return self.elts class UnaryOp(NodeNG): """class representing an UnaryOp node""" _astroid_fields = ('operand',) operand = None class While(BlockRangeMixIn, Statement): """class representing a While node""" _astroid_fields = ('test', 'body', 'orelse',) test = None body = None orelse = None def _blockstart_toline(self): return self.test.tolineno def block_range(self, lineno): """handle block line numbers range for for and while statements""" return self. _elsed_block_range(lineno, self.orelse) class With(BlockRangeMixIn, AssignTypeMixin, Statement): """class representing a With node""" _astroid_fields = ('items', 'body') items = None body = None def _blockstart_toline(self): return self.items[-1][0].tolineno def get_children(self): for expr, var in self.items: yield expr if var: yield var for elt in self.body: yield elt class Yield(NodeNG): """class representing a Yield node""" _astroid_fields = ('value',) value = None class YieldFrom(Yield): """ Class representing a YieldFrom node. """ # constants ############################################################## CONST_CLS = { list: List, tuple: Tuple, dict: Dict, set: Set, type(None): Const, } def _update_const_classes(): """update constant classes, so the keys of CONST_CLS can be reused""" klasses = (bool, int, float, complex, str) if sys.version_info < (3, 0): klasses += (unicode, long) if sys.version_info >= (2, 6): klasses += (bytes,) for kls in klasses: CONST_CLS[kls] = Const _update_const_classes() def const_factory(value): """return an astroid node for a python value""" # XXX we should probably be stricter here and only consider stuff in # CONST_CLS or do better treatment: in case where value is not in CONST_CLS, # we should rather recall the builder on this value than returning an empty # node (another option being that const_factory shouldn't be called with something # not in CONST_CLS) assert not isinstance(value, NodeNG) try: return CONST_CLS[value.__class__](value) except (KeyError, AttributeError): node = EmptyNode() node.object = value return node