# Copyright (c) 2003-2014 LOGILAB S.A. (Paris, FRANCE). # http://www.logilab.fr/ -- mailto:contact@logilab.fr # # This program is free software; you can redistribute it and/or modify it under # the terms of the GNU General Public License as published by the Free Software # Foundation; either version 2 of the License, or (at your option) any later # version. # # This program 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 General Public License for more details. # # You should have received a copy of the GNU General Public License along with # this program; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. """variables checkers for Python code """ import os import sys import re from copy import copy import astroid from astroid import modutils from pylint.interfaces import IAstroidChecker, INFERENCE, INFERENCE_FAILURE, HIGH from pylint.utils import get_global_option from pylint.checkers import BaseChecker from pylint.checkers.utils import ( PYMETHODS, is_ancestor_name, is_builtin, is_defined_before, is_error, is_func_default, is_func_decorator, assign_parent, check_messages, is_inside_except, clobber_in_except, get_all_elements, has_known_bases, node_ignores_exception, is_inside_abstract_class, is_comprehension, is_iterable, safe_infer) import six SPECIAL_OBJ = re.compile("^_{2}[a-z]+_{2}$") FUTURE = '__future__' PY3K = sys.version_info >= (3, 0) def _is_from_future_import(stmt, name): """Check if the name is a future import from another module.""" try: module = stmt.do_import_module(stmt.modname) except astroid.InferenceError: return for local_node in module.locals.get(name, []): if (isinstance(local_node, astroid.ImportFrom) and local_node.modname == FUTURE): return True def in_for_else_branch(parent, stmt): """Returns True if stmt in inside the else branch for a parent For stmt.""" return (isinstance(parent, astroid.For) and any(else_stmt.parent_of(stmt) for else_stmt in parent.orelse)) def overridden_method(klass, name): """get overridden method if any""" try: parent = next(klass.local_attr_ancestors(name)) except (StopIteration, KeyError): return None try: meth_node = parent[name] except KeyError: # We have found an ancestor defining but it's not in the local # dictionary. This may happen with astroid built from living objects. return None if isinstance(meth_node, astroid.FunctionDef): return meth_node return None def _get_unpacking_extra_info(node, infered): """return extra information to add to the message for unpacking-non-sequence and unbalanced-tuple-unpacking errors """ more = '' infered_module = infered.root().name if node.root().name == infered_module: if node.lineno == infered.lineno: more = ' %s' % infered.as_string() elif infered.lineno: more = ' defined at line %s' % infered.lineno elif infered.lineno: more = ' defined at line %s of %s' % (infered.lineno, infered_module) return more def _detect_global_scope(node, frame, defframe): """ Detect that the given frames shares a global scope. Two frames shares a global scope when neither of them are hidden under a function scope, as well as any of parent scope of them, until the root scope. In this case, depending from something defined later on will not work, because it is still undefined. Example: class A: # B has the same global scope as `C`, leading to a NameError. class B(C): ... class C: ... """ def_scope = scope = None if frame and frame.parent: scope = frame.parent.scope() if defframe and defframe.parent: def_scope = defframe.parent.scope() if isinstance(frame, astroid.FunctionDef): # If the parent of the current node is a # function, then it can be under its scope # (defined in, which doesn't concern us) or # the `->` part of annotations. The same goes # for annotations of function arguments, they'll have # their parent the Arguments node. if not isinstance(node.parent, (astroid.FunctionDef, astroid.Arguments)): return False elif any(not isinstance(f, (astroid.ClassDef, astroid.Module)) for f in (frame, defframe)): # Not interested in other frames, since they are already # not in a global scope. return False break_scopes = [] for s in (scope, def_scope): # Look for parent scopes. If there is anything different # than a module or a class scope, then they frames don't # share a global scope. parent_scope = s while parent_scope: if not isinstance(parent_scope, (astroid.ClassDef, astroid.Module)): break_scopes.append(parent_scope) break if parent_scope.parent: parent_scope = parent_scope.parent.scope() else: break if break_scopes and len(set(break_scopes)) != 1: # Store different scopes than expected. # If the stored scopes are, in fact, the very same, then it means # that the two frames (frame and defframe) shares the same scope, # and we could apply our lineno analysis over them. # For instance, this works when they are inside a function, the node # that uses a definition and the definition itself. return False # At this point, we are certain that frame and defframe shares a scope # and the definition of the first depends on the second. return frame.lineno < defframe.lineno def _fix_dot_imports(not_consumed): """ Try to fix imports with multiple dots, by returning a dictionary with the import names expanded. The function unflattens root imports, like 'xml' (when we have both 'xml.etree' and 'xml.sax'), to 'xml.etree' and 'xml.sax' respectively. """ # TODO: this should be improved in issue astroid #46 names = {} for name, stmts in six.iteritems(not_consumed): if any(isinstance(stmt, astroid.AssignName) and isinstance(stmt.assign_type(), astroid.AugAssign) for stmt in stmts): continue for stmt in stmts: if not isinstance(stmt, (astroid.ImportFrom, astroid.Import)): continue for imports in stmt.names: second_name = None if imports[0] == "*": # In case of wildcard imports, # pick the name from inside the imported module. second_name = name else: if imports[0].find(".") > -1 or name in imports: # Most likely something like 'xml.etree', # which will appear in the .locals as 'xml'. # Only pick the name if it wasn't consumed. second_name = imports[0] if second_name and second_name not in names: names[second_name] = stmt return sorted(names.items(), key=lambda a: a[1].fromlineno) def _find_frame_imports(name, frame): """ Detect imports in the frame, with the required *name*. Such imports can be considered assignments. Returns True if an import for the given name was found. """ imports = frame.nodes_of_class((astroid.Import, astroid.ImportFrom)) for import_node in imports: for import_name, import_alias in import_node.names: # If the import uses an alias, check only that. # Otherwise, check only the import name. if import_alias: if import_alias == name: return True elif import_name and import_name == name: return True MSGS = { 'E0601': ('Using variable %r before assignment', 'used-before-assignment', 'Used when a local variable is accessed before it\'s \ assignment.'), 'E0602': ('Undefined variable %r', 'undefined-variable', 'Used when an undefined variable is accessed.'), 'E0603': ('Undefined variable name %r in __all__', 'undefined-all-variable', 'Used when an undefined variable name is referenced in __all__.'), 'E0604': ('Invalid object %r in __all__, must contain only strings', 'invalid-all-object', 'Used when an invalid (non-string) object occurs in __all__.'), 'E0611': ('No name %r in module %r', 'no-name-in-module', 'Used when a name cannot be found in a module.'), 'W0601': ('Global variable %r undefined at the module level', 'global-variable-undefined', 'Used when a variable is defined through the "global" statement \ but the variable is not defined in the module scope.'), 'W0602': ('Using global for %r but no assignment is done', 'global-variable-not-assigned', 'Used when a variable is defined through the "global" statement \ but no assignment to this variable is done.'), 'W0603': ('Using the global statement', # W0121 'global-statement', 'Used when you use the "global" statement to update a global \ variable. Pylint just try to discourage this \ usage. That doesn\'t mean you can not use it !'), 'W0604': ('Using the global statement at the module level', # W0103 'global-at-module-level', 'Used when you use the "global" statement at the module level \ since it has no effect'), 'W0611': ('Unused %s', 'unused-import', 'Used when an imported module or variable is not used.'), 'W0612': ('Unused variable %r', 'unused-variable', 'Used when a variable is defined but not used.'), 'W0613': ('Unused argument %r', 'unused-argument', 'Used when a function or method argument is not used.'), 'W0614': ('Unused import %s from wildcard import', 'unused-wildcard-import', 'Used when an imported module or variable is not used from a \ `\'from X import *\'` style import.'), 'W0621': ('Redefining name %r from outer scope (line %s)', 'redefined-outer-name', 'Used when a variable\'s name hide a name defined in the outer \ scope.'), 'W0622': ('Redefining built-in %r', 'redefined-builtin', 'Used when a variable or function override a built-in.'), 'W0623': ('Redefining name %r from %s in exception handler', 'redefine-in-handler', 'Used when an exception handler assigns the exception \ to an existing name'), 'W0631': ('Using possibly undefined loop variable %r', 'undefined-loop-variable', 'Used when an loop variable (i.e. defined by a for loop or \ a list comprehension or a generator expression) is used outside \ the loop.'), 'E0632': ('Possible unbalanced tuple unpacking with ' 'sequence%s: ' 'left side has %d label(s), right side has %d value(s)', 'unbalanced-tuple-unpacking', 'Used when there is an unbalanced tuple unpacking in assignment', {'old_names': [('W0632', 'unbalanced-tuple-unpacking')]}), 'E0633': ('Attempting to unpack a non-sequence%s', 'unpacking-non-sequence', 'Used when something which is not ' 'a sequence is used in an unpack assignment', {'old_names': [('W0633', 'unpacking-non-sequence')]}), 'W0640': ('Cell variable %s defined in loop', 'cell-var-from-loop', 'A variable used in a closure is defined in a loop. ' 'This will result in all closures using the same value for ' 'the closed-over variable.'), } class VariablesChecker(BaseChecker): """checks for * unused variables / imports * undefined variables * redefinition of variable from builtins or from an outer scope * use of variable before assignment * __all__ consistency """ __implements__ = IAstroidChecker name = 'variables' msgs = MSGS priority = -1 options = (("init-import", {'default': 0, 'type' : 'yn', 'metavar' : '', 'help' : 'Tells whether we should check for unused import in \ __init__ files.'}), ("dummy-variables-rgx", {'default': ('_$|dummy'), 'type' :'regexp', 'metavar' : '', 'help' : 'A regular expression matching the name of dummy \ variables (i.e. expectedly not used).'}), ("additional-builtins", {'default': (), 'type' : 'csv', 'metavar' : '', 'help' : 'List of additional names supposed to be defined in \ builtins. Remember that you should avoid to define new builtins when possible.' }), ("callbacks", {'default' : ('cb_', '_cb'), 'type' : 'csv', 'metavar' : '', 'help' : 'List of strings which can identify a callback ' 'function by name. A callback name must start or ' 'end with one of those strings.'} ) ) def __init__(self, linter=None): BaseChecker.__init__(self, linter) self._to_consume = None # list of tuples: (to_consume:dict, consumed:dict, scope_type:str) self._checking_mod_attr = None def visit_module(self, node): """visit module : update consumption analysis variable checks globals doesn't overrides builtins """ self._to_consume = [(copy(node.locals), {}, 'module')] for name, stmts in six.iteritems(node.locals): if is_builtin(name) and not is_inside_except(stmts[0]): # do not print Redefining builtin for additional builtins self.add_message('redefined-builtin', args=name, node=stmts[0]) @check_messages('unused-import', 'unused-wildcard-import', 'redefined-builtin', 'undefined-all-variable', 'invalid-all-object') def leave_module(self, node): """leave module: check globals """ assert len(self._to_consume) == 1 not_consumed = self._to_consume.pop()[0] # attempt to check for __all__ if defined if '__all__' in node.locals: self._check_all(node, not_consumed) # don't check unused imports in __init__ files if not self.config.init_import and node.package: return self._check_imports(not_consumed) def _check_all(self, node, not_consumed): assigned = next(node.igetattr('__all__')) if assigned is astroid.YES: return for elt in getattr(assigned, 'elts', ()): try: elt_name = next(elt.infer()) except astroid.InferenceError: continue if elt_name is astroid.YES: continue if (not isinstance(elt_name, astroid.Const) or not isinstance(elt_name.value, six.string_types)): self.add_message('invalid-all-object', args=elt.as_string(), node=elt) continue elt_name = elt_name.value # If elt is in not_consumed, remove it from not_consumed if elt_name in not_consumed: del not_consumed[elt_name] continue if elt_name not in node.locals: if not node.package: self.add_message('undefined-all-variable', args=(elt_name, ), node=elt) else: basename = os.path.splitext(node.file)[0] if os.path.basename(basename) == '__init__': name = node.name + "." + elt_name try: modutils.file_from_modpath(name.split(".")) except ImportError: self.add_message('undefined-all-variable', args=(elt_name, ), node=elt) except SyntaxError: # don't yield an syntax-error warning, # because it will be later yielded # when the file will be checked pass def _check_imports(self, not_consumed): local_names = _fix_dot_imports(not_consumed) checked = set() for name, stmt in local_names: for imports in stmt.names: real_name = imported_name = imports[0] if imported_name == "*": real_name = name as_name = imports[1] if real_name in checked: continue if name not in (real_name, as_name): continue checked.add(real_name) if (isinstance(stmt, astroid.Import) or (isinstance(stmt, astroid.ImportFrom) and not stmt.modname)): if (isinstance(stmt, astroid.ImportFrom) and SPECIAL_OBJ.search(imported_name)): # Filter special objects (__doc__, __all__) etc., # because they can be imported for exporting. continue if as_name is None: msg = "import %s" % imported_name else: msg = "%s imported as %s" % (imported_name, as_name) self.add_message('unused-import', args=msg, node=stmt) elif (isinstance(stmt, astroid.ImportFrom) and stmt.modname != FUTURE): if SPECIAL_OBJ.search(imported_name): # Filter special objects (__doc__, __all__) etc., # because they can be imported for exporting. continue if _is_from_future_import(stmt, name): # Check if the name is in fact loaded from a # __future__ import in another module. continue if imported_name == '*': self.add_message('unused-wildcard-import', args=name, node=stmt) else: if as_name is None: msg = "%s imported from %s" % (imported_name, stmt.modname) else: fields = (imported_name, stmt.modname, as_name) msg = "%s imported from %s as %s" % fields self.add_message('unused-import', args=msg, node=stmt) del self._to_consume def visit_classdef(self, node): """visit class: update consumption analysis variable """ self._to_consume.append((copy(node.locals), {}, 'class')) def leave_classdef(self, _): """leave class: update consumption analysis variable """ # do not check for not used locals here (no sense) self._to_consume.pop() def visit_lambda(self, node): """visit lambda: update consumption analysis variable """ self._to_consume.append((copy(node.locals), {}, 'lambda')) def leave_lambda(self, _): """leave lambda: update consumption analysis variable """ # do not check for not used locals here self._to_consume.pop() def visit_generatorexp(self, node): """visit genexpr: update consumption analysis variable """ self._to_consume.append((copy(node.locals), {}, 'comprehension')) def leave_generatorexp(self, _): """leave genexpr: update consumption analysis variable """ # do not check for not used locals here self._to_consume.pop() def visit_dictcomp(self, node): """visit dictcomp: update consumption analysis variable """ self._to_consume.append((copy(node.locals), {}, 'comprehension')) def leave_dictcomp(self, _): """leave dictcomp: update consumption analysis variable """ # do not check for not used locals here self._to_consume.pop() def visit_setcomp(self, node): """visit setcomp: update consumption analysis variable """ self._to_consume.append((copy(node.locals), {}, 'comprehension')) def leave_setcomp(self, _): """leave setcomp: update consumption analysis variable """ # do not check for not used locals here self._to_consume.pop() def visit_functiondef(self, node): """visit function: update consumption analysis variable and check locals """ self._to_consume.append((copy(node.locals), {}, 'function')) if not (self.linter.is_message_enabled('redefined-outer-name') or self.linter.is_message_enabled('redefined-builtin')): return globs = node.root().globals for name, stmt in node.items(): if is_inside_except(stmt): continue if name in globs and not isinstance(stmt, astroid.Global): definition = globs[name][0] if (isinstance(definition, astroid.ImportFrom) and definition.modname == FUTURE): # It is a __future__ directive, not a symbol. continue line = definition.fromlineno dummy_rgx = self.config.dummy_variables_rgx if not dummy_rgx.match(name): self.add_message('redefined-outer-name', args=(name, line), node=stmt) elif is_builtin(name): # do not print Redefining builtin for additional builtins self.add_message('redefined-builtin', args=name, node=stmt) def leave_functiondef(self, node): """leave function: check function's locals are consumed""" not_consumed = self._to_consume.pop()[0] if not (self.linter.is_message_enabled('unused-variable') or self.linter.is_message_enabled('unused-argument')): return # don't check arguments of function which are only raising an exception if is_error(node): return # don't check arguments of abstract methods or within an interface is_method = node.is_method() klass = node.parent.frame() if is_method and node.is_abstract(): return if is_method and isinstance(klass, astroid.ClassDef): confidence = INFERENCE if has_known_bases(klass) else INFERENCE_FAILURE else: confidence = HIGH authorized_rgx = self.config.dummy_variables_rgx called_overridden = False argnames = node.argnames() global_names = set() nonlocal_names = set() for global_stmt in node.nodes_of_class(astroid.Global): global_names.update(set(global_stmt.names)) for nonlocal_stmt in node.nodes_of_class(astroid.Nonlocal): nonlocal_names.update(set(nonlocal_stmt.names)) for name, stmts in six.iteritems(not_consumed): # ignore some special names specified by user configuration if authorized_rgx.match(name): continue # ignore names imported by the global statement # FIXME: should only ignore them if it's assigned latter stmt = stmts[0] if isinstance(stmt, astroid.Global): continue if isinstance(stmt, (astroid.Import, astroid.ImportFrom)): # Detect imports, assigned to global statements. if not global_names: continue skip = False for import_name, import_alias in stmt.names: # If the import uses an alias, check only that. # Otherwise, check only the import name. if import_alias: if import_alias in global_names: skip = True break elif import_name in global_names: skip = True break if skip: continue # care about functions with unknown argument (builtins) if name in argnames: if is_method: # don't warn for the first argument of a (non static) method if node.type != 'staticmethod' and name == argnames[0]: continue # don't warn for argument of an overridden method if not called_overridden: overridden = overridden_method(klass, node.name) called_overridden = True if overridden is not None and name in overridden.argnames(): continue if node.name in PYMETHODS and node.name not in ('__init__', '__new__'): continue # don't check callback arguments if any(node.name.startswith(cb) or node.name.endswith(cb) for cb in self.config.callbacks): continue self.add_message('unused-argument', args=name, node=stmt, confidence=confidence) else: if stmt.parent and isinstance(stmt.parent, astroid.Assign): if name in nonlocal_names: continue self.add_message('unused-variable', args=name, node=stmt) @check_messages('global-variable-undefined', 'global-variable-not-assigned', 'global-statement', 'global-at-module-level', 'redefined-builtin') def visit_global(self, node): """check names imported exists in the global scope""" frame = node.frame() if isinstance(frame, astroid.Module): self.add_message('global-at-module-level', node=node) return module = frame.root() default_message = True for name in node.names: try: assign_nodes = module.getattr(name) except astroid.NotFoundError: # unassigned global, skip assign_nodes = [] for anode in assign_nodes: if anode.parent is None: # node returned for builtin attribute such as __file__, # __doc__, etc... continue if anode.frame() is frame: # same scope level assignment break else: if not _find_frame_imports(name, frame): self.add_message('global-variable-not-assigned', args=name, node=node) default_message = False if not assign_nodes: continue for anode in assign_nodes: if anode.parent is None: self.add_message('redefined-builtin', args=name, node=node) break if anode.frame() is module: # module level assignment break else: # global undefined at the module scope self.add_message('global-variable-undefined', args=name, node=node) default_message = False if default_message: self.add_message('global-statement', node=node) def _check_late_binding_closure(self, node, assignment_node): def _is_direct_lambda_call(): return (isinstance(node_scope.parent, astroid.Call) and node_scope.parent.func is node_scope) node_scope = node.scope() if not isinstance(node_scope, (astroid.Lambda, astroid.FunctionDef)): return if isinstance(node.parent, astroid.Arguments): return if isinstance(assignment_node, astroid.Comprehension): if assignment_node.parent.parent_of(node.scope()): self.add_message('cell-var-from-loop', node=node, args=node.name) else: assign_scope = assignment_node.scope() maybe_for = assignment_node while not isinstance(maybe_for, astroid.For): if maybe_for is assign_scope: break maybe_for = maybe_for.parent else: if (maybe_for.parent_of(node_scope) and not _is_direct_lambda_call() and not isinstance(node_scope.statement(), astroid.Return)): self.add_message('cell-var-from-loop', node=node, args=node.name) def _loopvar_name(self, node, name): # filter variables according to node's scope # XXX used to filter parents but don't remember why, and removing this # fixes a W0631 false positive reported by Paul Hachmann on 2008/12 on # python-projects (added to func_use_for_or_listcomp_var test) #astmts = [stmt for stmt in node.lookup(name)[1] # if hasattr(stmt, 'ass_type')] and # not stmt.statement().parent_of(node)] if not self.linter.is_message_enabled('undefined-loop-variable'): return astmts = [stmt for stmt in node.lookup(name)[1] if hasattr(stmt, 'ass_type')] # filter variables according their respective scope test is_statement # and parent to avoid #74747. This is not a total fix, which would # introduce a mechanism similar to special attribute lookup in # modules. Also, in order to get correct inference in this case, the # scope lookup rules would need to be changed to return the initial # assignment (which does not exist in code per se) as well as any later # modifications. if not astmts or (astmts[0].is_statement or astmts[0].parent) \ and astmts[0].statement().parent_of(node): _astmts = [] else: _astmts = astmts[:1] for i, stmt in enumerate(astmts[1:]): if (astmts[i].statement().parent_of(stmt) and not in_for_else_branch(astmts[i].statement(), stmt)): continue _astmts.append(stmt) astmts = _astmts if len(astmts) == 1: assign = astmts[0].assign_type() if (isinstance(assign, (astroid.For, astroid.Comprehension, astroid.GeneratorExp)) and assign.statement() is not node.statement()): self.add_message('undefined-loop-variable', args=name, node=node) @check_messages('redefine-in-handler') def visit_excepthandler(self, node): for name in get_all_elements(node.name): clobbering, args = clobber_in_except(name) if clobbering: self.add_message('redefine-in-handler', args=args, node=name) def visit_assignname(self, node): if isinstance(node.assign_type(), astroid.AugAssign): self.visit_name(node) def visit_delname(self, node): self.visit_name(node) @staticmethod def _defined_in_function_definition(node, frame): in_annotation_or_default = False if (isinstance(frame, astroid.FunctionDef) and node.statement() is frame): in_annotation_or_default = ( ( PY3K and (node in frame.args.annotations or node is frame.args.varargannotation or node is frame.args.kwargannotation) ) or frame.args.parent_of(node) ) return in_annotation_or_default @staticmethod def _next_to_consume(node, name, to_consume): # mark the name as consumed if it's defined in this scope found_node = to_consume.get(name) if (found_node and isinstance(node.parent, astroid.Assign) and node.parent == found_node[0].parent): lhs = found_node[0].parent.targets[0] if lhs.name == name: # this name is defined in this very statement found_node = None return found_node @staticmethod def _is_variable_violation(node, name, defnode, stmt, defstmt, frame, defframe, base_scope_type, recursive_klass): maybee0601 = True annotation_return = False if frame is not defframe: maybee0601 = _detect_global_scope(node, frame, defframe) elif defframe.parent is None: # we are at the module level, check the name is not # defined in builtins if name in defframe.scope_attrs or astroid.builtin_lookup(name)[1]: maybee0601 = False else: # we are in a local scope, check the name is not # defined in global or builtin scope if defframe.root().lookup(name)[1]: maybee0601 = False else: # check if we have a nonlocal if name in defframe.locals: maybee0601 = not any(isinstance(child, astroid.Nonlocal) and name in child.names for child in defframe.get_children()) if (base_scope_type == 'lambda' and isinstance(frame, astroid.ClassDef) and name in frame.locals): # This rule verifies that if the definition node of the # checked name is an Arguments node and if the name # is used a default value in the arguments defaults # and the actual definition of the variable label # is happening before the Arguments definition. # # bar = None # foo = lambda bar=bar: bar # # In this case, maybee0601 should be False, otherwise # it should be True. maybee0601 = not (isinstance(defnode, astroid.Arguments) and node in defnode.defaults and frame.locals[name][0].fromlineno < defstmt.fromlineno) elif (isinstance(defframe, astroid.ClassDef) and isinstance(frame, astroid.FunctionDef)): # Special rule for function return annotations, # which uses the same name as the class where # the function lives. if (PY3K and node is frame.returns and defframe.parent_of(frame.returns)): maybee0601 = annotation_return = True if (maybee0601 and defframe.name in defframe.locals and defframe.locals[name][0].lineno < frame.lineno): # Detect class assignments with the same # name as the class. In this case, no warning # should be raised. maybee0601 = False if isinstance(node.parent, astroid.Arguments): maybee0601 = stmt.fromlineno <= defstmt.fromlineno elif recursive_klass: maybee0601 = True else: maybee0601 = maybee0601 and stmt.fromlineno <= defstmt.fromlineno return maybee0601, annotation_return def _ignore_class_scope(self, node, name, frame): # Detect if we are in a local class scope, as an assignment. # For example, the following is fair game. # # class A: # b = 1 # c = lambda b=b: b * b # # class B: # tp = 1 # def func(self, arg: tp): # ... # class C: # tp = 2 # def func(self, arg=tp): # ... in_annotation_or_default = self._defined_in_function_definition( node, frame) if in_annotation_or_default: frame_locals = frame.parent.scope().locals else: frame_locals = frame.locals return not ((isinstance(frame, astroid.ClassDef) or in_annotation_or_default) and name in frame_locals) @check_messages(*(MSGS.keys())) def visit_name(self, node): """check that a name is defined if the current scope and doesn't redefine a built-in """ stmt = node.statement() if stmt.fromlineno is None: # name node from a astroid built from live code, skip assert not stmt.root().file.endswith('.py') return name = node.name frame = stmt.scope() # if the name node is used as a function default argument's value or as # a decorator, then start from the parent frame of the function instead # of the function frame - and thus open an inner class scope if (is_func_default(node) or is_func_decorator(node) or is_ancestor_name(frame, node)): start_index = len(self._to_consume) - 2 else: start_index = len(self._to_consume) - 1 # iterates through parent scopes, from the inner to the outer base_scope_type = self._to_consume[start_index][-1] # pylint: disable=too-many-nested-blocks; refactoring this block is a pain. for i in range(start_index, -1, -1): to_consume, consumed, scope_type = self._to_consume[i] # if the current scope is a class scope but it's not the inner # scope, ignore it. This prevents to access this scope instead of # the globals one in function members when there are some common # names. The only exception is when the starting scope is a # comprehension and its direct outer scope is a class if scope_type == 'class' and i != start_index and not ( base_scope_type == 'comprehension' and i == start_index-1): if self._ignore_class_scope(node, name, frame): continue # the name has already been consumed, only check it's not a loop # variable used outside the loop if name in consumed: defnode = assign_parent(consumed[name][0]) self._check_late_binding_closure(node, defnode) self._loopvar_name(node, name) break found_node = self._next_to_consume(node, name, to_consume) if found_node: consumed[name] = found_node else: continue # checks for use before assignment defnode = assign_parent(to_consume[name][0]) if defnode is not None: self._check_late_binding_closure(node, defnode) defstmt = defnode.statement() defframe = defstmt.frame() # The class reuses itself in the class scope. recursive_klass = (frame is defframe and defframe.parent_of(node) and isinstance(defframe, astroid.ClassDef) and node.name == defframe.name) maybee0601, annotation_return = self._is_variable_violation( node, name, defnode, stmt, defstmt, frame, defframe, base_scope_type, recursive_klass) if (maybee0601 and not is_defined_before(node) and not astroid.are_exclusive(stmt, defstmt, ('NameError', 'Exception', 'BaseException'))): # Used and defined in the same place, e.g `x += 1` and `del x` defined_by_stmt = ( defstmt is stmt and isinstance(node, (astroid.DelName, astroid.AssignName)) ) if (recursive_klass or defined_by_stmt or annotation_return or isinstance(defstmt, astroid.Delete)): if not node_ignores_exception(node, NameError): self.add_message('undefined-variable', args=name, node=node) elif base_scope_type != 'lambda': # E0601 may *not* occurs in lambda scope. self.add_message('used-before-assignment', args=name, node=node) elif base_scope_type == 'lambda': # E0601 can occur in class-level scope in lambdas, as in # the following example: # class A: # x = lambda attr: f + attr # f = 42 if isinstance(frame, astroid.ClassDef) and name in frame.locals: if isinstance(node.parent, astroid.Arguments): if stmt.fromlineno <= defstmt.fromlineno: # Doing the following is fine: # class A: # x = 42 # y = lambda attr=x: attr self.add_message('used-before-assignment', args=name, node=node) else: self.add_message('undefined-variable', args=name, node=node) elif scope_type == 'lambda': self.add_message('undefined-variable', node=node, args=name) del to_consume[name] # check it's not a loop variable used outside the loop self._loopvar_name(node, name) break else: # we have not found the name, if it isn't a builtin, that's an # undefined name ! if not (name in astroid.Module.scope_attrs or is_builtin(name) or name in self.config.additional_builtins): if not node_ignores_exception(node, NameError): self.add_message('undefined-variable', args=name, node=node) @check_messages('no-name-in-module') def visit_import(self, node): """check modules attribute accesses""" if node_ignores_exception(node, ImportError): # No need to verify this, since ImportError is already # handled by the client code. return for name, _ in node.names: parts = name.split('.') try: module = next(node.infer_name_module(parts[0])) except astroid.ResolveError: continue self._check_module_attrs(node, module, parts[1:]) @check_messages('no-name-in-module') def visit_importfrom(self, node): """check modules attribute accesses""" if node_ignores_exception(node, ImportError): # No need to verify this, since ImportError is already # handled by the client code. return name_parts = node.modname.split('.') try: module = node.do_import_module(name_parts[0]) except Exception: return module = self._check_module_attrs(node, module, name_parts[1:]) if not module: return for name, _ in node.names: if name == '*': continue self._check_module_attrs(node, module, name.split('.')) @check_messages('unbalanced-tuple-unpacking', 'unpacking-non-sequence') def visit_assign(self, node): """Check unbalanced tuple unpacking for assignments and unpacking non-sequences. """ if not isinstance(node.targets[0], (astroid.Tuple, astroid.List)): return targets = node.targets[0].itered() try: infered = safe_infer(node.value) if infered is not None: self._check_unpacking(infered, node, targets) except astroid.InferenceError: return def _check_unpacking(self, infered, node, targets): """ Check for unbalanced tuple unpacking and unpacking non sequences. """ if is_inside_abstract_class(node): return if is_comprehension(node): return if infered is astroid.YES: return if (isinstance(infered.parent, astroid.Arguments) and isinstance(node.value, astroid.Name) and node.value.name == infered.parent.vararg): # Variable-length argument, we can't determine the length. return if isinstance(infered, (astroid.Tuple, astroid.List)): # attempt to check unpacking is properly balanced values = infered.itered() if len(targets) != len(values): # Check if we have starred nodes. if any(isinstance(target, astroid.Starred) for target in targets): return self.add_message('unbalanced-tuple-unpacking', node=node, args=(_get_unpacking_extra_info(node, infered), len(targets), len(values))) # attempt to check unpacking may be possible (ie RHS is iterable) else: if not is_iterable(infered): self.add_message('unpacking-non-sequence', node=node, args=(_get_unpacking_extra_info(node, infered),)) def _check_module_attrs(self, node, module, module_names): """check that module_names (list of string) are accessible through the given module if the latest access name corresponds to a module, return it """ assert isinstance(module, astroid.Module), module ignored_modules = get_global_option(self, 'ignored-modules', default=[]) while module_names: name = module_names.pop(0) if name == '__dict__': module = None break try: module = next(module.getattr(name)[0].infer()) if module is astroid.YES: return None except astroid.NotFoundError: if module.name in ignored_modules: return None self.add_message('no-name-in-module', args=(name, module.name), node=node) return None except astroid.InferenceError: return None if module_names: # FIXME: other message if name is not the latest part of # module_names ? modname = module and module.name or '__dict__' self.add_message('no-name-in-module', node=node, args=('.'.join(module_names), modname)) return None if isinstance(module, astroid.Module): return module return None class VariablesChecker3k(VariablesChecker): '''Modified variables checker for 3k''' # listcomp have now also their scope def visit_listcomp(self, node): """visit dictcomp: update consumption analysis variable """ self._to_consume.append((copy(node.locals), {}, 'comprehension')) def leave_listcomp(self, _): """leave dictcomp: update consumption analysis variable """ # do not check for not used locals here self._to_consume.pop() def leave_module(self, node): """ Update consumption analysis variable for metaclasses. """ module_locals = self._to_consume[0][0] module_imports = self._to_consume[0][1] consumed = {} for klass in node.nodes_of_class(astroid.ClassDef): found = metaclass = name = None if not klass._metaclass: # Skip if this class doesn't use # explictly a metaclass, but inherits it from ancestors continue metaclass = klass.metaclass() # Look the name in the already found locals. # If it's not found there, look in the module locals # and in the imported modules. if isinstance(klass._metaclass, astroid.Name): name = klass._metaclass.name elif metaclass: # if it uses a `metaclass=module.Class` name = metaclass.root().name if name: found = consumed.setdefault( name, module_locals.get(name, module_imports.get(name))) if found is None and not metaclass: name = None if isinstance(klass._metaclass, astroid.Name): name = klass._metaclass.name elif isinstance(klass._metaclass, astroid.Attribute): name = klass._metaclass.as_string() if name is not None: if not (name in astroid.Module.scope_attrs or is_builtin(name) or name in self.config.additional_builtins or name in node.locals): self.add_message('undefined-variable', node=klass, args=(name, )) # Pop the consumed items, in order to # avoid having unused-import false positives for name in consumed: module_locals.pop(name, None) super(VariablesChecker3k, self).leave_module(node) if sys.version_info >= (3, 0): VariablesChecker = VariablesChecker3k def register(linter): """required method to auto register this checker""" linter.register_checker(VariablesChecker(linter))