third_party/pylint/checkers/python3.py - depot_tools - Git at Google

 # Copyright 2014 Google Inc.
 # 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.
 """Check Python 2 code for Python 2/3 source-compatible issues."""
 from __future__ import absolute_import

 import re
 import tokenize

 import astroid
 from pylint import checkers, interfaces
 from pylint.utils import WarningScope
 from pylint.checkers import utils


 _ZERO = re.compile("^0+$")

 def _is_old_octal(literal):
     if _ZERO.match(literal):
         return False
     if re.match('0\d+', literal):
         try:
             int(literal, 8)
         except ValueError:
             return False
         return True

 def _check_dict_node(node):
     inferred_types = set()
     try:
         inferred = node.infer()
         for inferred_node in inferred:
             inferred_types.add(inferred_node)
     except (astroid.InferenceError, astroid.UnresolvableName):
         pass
     return (not inferred_types
             or any(isinstance(x, astroid.Dict) for x in inferred_types))


 class Python3Checker(checkers.BaseChecker):

     __implements__ = interfaces.IAstroidChecker
     enabled = False
     name = 'python3'

     msgs = {
         # Errors for what will syntactically break in Python 3, warnings for
         # everything else.
         'E1601': ('print statement used',
                   'print-statement',
                   'Used when a print statement is used '
                   '(`print` is a function in Python 3)',
                   {'maxversion': (3, 0)}),
         'E1602': ('Parameter unpacking specified',
                   'parameter-unpacking',
                   'Used when parameter unpacking is specified for a function'
                   "(Python 3 doesn't allow it)",
                   {'maxversion': (3, 0)}),
         'E1603': ('Implicit unpacking of exceptions is not supported '
                   'in Python 3',
                   'unpacking-in-except',
                   'Python3 will not allow implicit unpacking of '
                   'exceptions in except clauses. '
                   'See http://www.python.org/dev/peps/pep-3110/',
                   {'maxversion': (3, 0),
                    'old_names': [('W0712', 'unpacking-in-except')]}),
         'E1604': ('Use raise ErrorClass(args) instead of '
                   'raise ErrorClass, args.',
                   'old-raise-syntax',
                   "Used when the alternate raise syntax "
                   "'raise foo, bar' is used "
                   "instead of 'raise foo(bar)'.",
                   {'maxversion': (3, 0),
                    'old_names': [('W0121', 'old-raise-syntax')]}),
         'E1605': ('Use of the `` operator',
                   'backtick',
                   'Used when the deprecated "``" (backtick) operator is used '
                   'instead  of the str() function.',
                   {'scope': WarningScope.NODE,
                    'maxversion': (3, 0),
                    'old_names': [('W0333', 'backtick')]}),
         'W1601': ('apply built-in referenced',
                   'apply-builtin',
                   'Used when the apply built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1602': ('basestring built-in referenced',
                   'basestring-builtin',
                   'Used when the basestring built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1603': ('buffer built-in referenced',
                   'buffer-builtin',
                   'Used when the buffer built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1604': ('cmp built-in referenced',
                   'cmp-builtin',
                   'Used when the cmp built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1605': ('coerce built-in referenced',
                   'coerce-builtin',
                   'Used when the coerce built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1606': ('execfile built-in referenced',
                   'execfile-builtin',
                   'Used when the execfile built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1607': ('file built-in referenced',
                   'file-builtin',
                   'Used when the file built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1608': ('long built-in referenced',
                   'long-builtin',
                   'Used when the long built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1609': ('raw_input built-in referenced',
                   'raw_input-builtin',
                   'Used when the raw_input built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1610': ('reduce built-in referenced',
                   'reduce-builtin',
                   'Used when the reduce built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1611': ('StandardError built-in referenced',
                   'standarderror-builtin',
                   'Used when the StandardError built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1612': ('unicode built-in referenced',
                   'unicode-builtin',
                   'Used when the unicode built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1613': ('xrange built-in referenced',
                   'xrange-builtin',
                   'Used when the xrange built-in function is referenced '
                   '(missing from Python 3)',
                   {'maxversion': (3, 0)}),
         'W1614': ('__coerce__ method defined',
                   'coerce-method',
                   'Used when a __coerce__ method is defined '
                   '(method is not used by Python 3)',
                   {'maxversion': (3, 0)}),
         'W1615': ('__delslice__ method defined',
                   'delslice-method',
                   'Used when a __delslice__ method is defined '
                   '(method is not used by Python 3)',
                   {'maxversion': (3, 0)}),
         'W1616': ('__getslice__ method defined',
                   'getslice-method',
                   'Used when a __getslice__ method is defined '
                   '(method is not used by Python 3)',
                   {'maxversion': (3, 0)}),
         'W1617': ('__setslice__ method defined',
                   'setslice-method',
                   'Used when a __setslice__ method is defined '
                   '(method is not used by Python 3)',
                   {'maxversion': (3, 0)}),
         'W1618': ('import missing `from __future__ import absolute_import`',
                   'no-absolute-import',
                   'Used when an import is not accompanied by '
                   '`from __future__ import absolute_import`'
                   ' (default behaviour in Python 3)',
                   {'maxversion': (3, 0)}),
         'W1619': ('division w/o __future__ statement',
                   'old-division',
                   'Used for non-floor division w/o a float literal or '
                   '``from __future__ import division``'
                   '(Python 3 returns a float for int division unconditionally)',
                   {'maxversion': (3, 0)}),
         'W1620': ('Calling a dict.iter*() method',
                   'dict-iter-method',
                   'Used for calls to dict.iterkeys(), itervalues() or iteritems() '
                   '(Python 3 lacks these methods)',
                   {'maxversion': (3, 0)}),
         'W1621': ('Calling a dict.view*() method',
                   'dict-view-method',
                   'Used for calls to dict.viewkeys(), viewvalues() or viewitems() '
                   '(Python 3 lacks these methods)',
                   {'maxversion': (3, 0)}),
         'W1622': ('Called a next() method on an object',
                   'next-method-called',
                   "Used when an object's next() method is called "
                   '(Python 3 uses the next() built-in function)',
                   {'maxversion': (3, 0)}),
         'W1623': ("Assigning to a class' __metaclass__ attribute",
                   'metaclass-assignment',
                   "Used when a metaclass is specified by assigning to __metaclass__ "
                   '(Python 3 specifies the metaclass as a class statement argument)',
                   {'maxversion': (3, 0)}),
         'W1624': ('Indexing exceptions will not work on Python 3',
                   'indexing-exception',
                   'Indexing exceptions will not work on Python 3. Use '
                   '`exception.args[index]` instead.',
                   {'maxversion': (3, 0),
                    'old_names': [('W0713', 'indexing-exception')]}),
         'W1625': ('Raising a string exception',
                   'raising-string',
                   'Used when a string exception is raised. This will not '
                   'work on Python 3.',
                   {'maxversion': (3, 0),
                    'old_names': [('W0701', 'raising-string')]}),
         'W1626': ('reload built-in referenced',
                   'reload-builtin',
                   'Used when the reload built-in function is referenced '
                   '(missing from Python 3). You can use instead imp.reload '
                   'or importlib.reload.',
                   {'maxversion': (3, 0)}),
         'W1627': ('__oct__ method defined',
                   'oct-method',
                   'Used when a __oct__ method is defined '
                   '(method is not used by Python 3)',
                   {'maxversion': (3, 0)}),
         'W1628': ('__hex__ method defined',
                   'hex-method',
                   'Used when a __hex__ method is defined '
                   '(method is not used by Python 3)',
                   {'maxversion': (3, 0)}),
         'W1629': ('__nonzero__ method defined',
                   'nonzero-method',
                   'Used when a __nonzero__ method is defined '
                   '(method is not used by Python 3)',
                   {'maxversion': (3, 0)}),
         'W1630': ('__cmp__ method defined',
                   'cmp-method',
                   'Used when a __cmp__ method is defined '
                   '(method is not used by Python 3)',
                   {'maxversion': (3, 0)}),
         'W1631': ('map is used as implicitly evaluated call',
                   'implicit-map-evaluation',
                   'Used when the map builtin is used as implicitly '
                   'evaluated call, as in "map(func, args)" on a single line. '
                   'This behaviour will not work in Python 3, where '
                   'map is a generator and must be evaluated. '
                   'Prefer a for-loop as alternative.',
                   {'maxversion': (3, 0)}),
         'W1632': ('input built-in referenced',
                   'input-builtin',
                   'Used when the input built-in is referenced '
                   '(backwards-incompatible semantics in Python 3)',
                   {'maxversion': (3, 0)}),
         'W1633': ('round built-in referenced',
                   'round-builtin',
                   'Used when the round built-in is referenced '
                   '(backwards-incompatible semantics in Python 3)',
                   {'maxversion': (3, 0)}),
     }

     _bad_builtins = frozenset([
         'apply',
         'basestring',
         'buffer',
         'cmp',
         'coerce',
         'execfile',
         'file',
         'input',  # Not missing, but incompatible semantics
         'long',
         'raw_input',
         'reduce',
         'round',  # Not missing, but incompatible semantics
         'StandardError',
         'unicode',
         'xrange',
         'reload',
     ])

     _unused_magic_methods = frozenset([
         '__coerce__',
         '__delslice__',
         '__getslice__',
         '__setslice__',
         '__oct__',
         '__hex__',
         '__nonzero__',
         '__cmp__',
     ])

     def __init__(self, *args, **kwargs):
         self._future_division = False
         self._future_absolute_import = False
         super(Python3Checker, self).__init__(*args, **kwargs)

     def visit_function(self, node):
         if node.is_method() and node.name in self._unused_magic_methods:
             method_name = node.name
             if node.name.startswith('__'):
                 method_name = node.name[2:-2]
             self.add_message(method_name + '-method', node=node)

     @utils.check_messages('parameter-unpacking')
     def visit_arguments(self, node):
         for arg in node.args:
             if isinstance(arg, astroid.Tuple):
                 self.add_message('parameter-unpacking', node=arg)

     @utils.check_messages('implicit-map-evaluation')
     def visit_discard(self, node):
         if (isinstance(node.value, astroid.CallFunc) and
                 isinstance(node.value.func, astroid.Name) and
                 node.value.func.name == 'map'):
             module = node.value.func.lookup('map')[0]
             if getattr(module, 'name', None) == '__builtin__':
                 self.add_message('implicit-map-evaluation', node=node)

     def visit_name(self, node):
         """Detect when a "bad" built-in is referenced."""
         found_node = node.lookup(node.name)[0]
         if getattr(found_node, 'name', None) == '__builtin__':
             if node.name in self._bad_builtins:
                 message = node.name.lower() + '-builtin'
                 self.add_message(message, node=node)

     @utils.check_messages('print-statement')
     def visit_print(self, node):
         self.add_message('print-statement', node=node)

     @utils.check_messages('no-absolute-import')
     def visit_from(self, node):
         if node.modname == '__future__':
             for name, _ in node.names:
                 if name == 'division':
                     self._future_division = True
                 elif name == 'absolute_import':
                     self._future_absolute_import = True
         elif not self._future_absolute_import:
             self.add_message('no-absolute-import', node=node)

     @utils.check_messages('no-absolute-import')
     def visit_import(self, node):
         if not self._future_absolute_import:
             self.add_message('no-absolute-import', node=node)

     @utils.check_messages('metaclass-assignment')
     def visit_class(self, node):
         if '__metaclass__' in node.locals:
             self.add_message('metaclass-assignment', node=node)

     @utils.check_messages('old-division')
     def visit_binop(self, node):
         if not self._future_division and node.op == '/':
             for arg in (node.left, node.right):
                 if isinstance(arg, astroid.Const) and isinstance(arg.value, float):
                     break
             else:
                 self.add_message('old-division', node=node)

     @utils.check_messages('next-method-called',
                           'dict-iter-method',
                           'dict-view-method')
     def visit_callfunc(self, node):
         if not isinstance(node.func, astroid.Getattr):
             return
         if any([node.args, node.starargs, node.kwargs]):
             return
         if node.func.attrname == 'next':
             self.add_message('next-method-called', node=node)
         else:
             if _check_dict_node(node.func.expr):
                 if node.func.attrname in ('iterkeys', 'itervalues', 'iteritems'):
                     self.add_message('dict-iter-method', node=node)
                 elif node.func.attrname in ('viewkeys', 'viewvalues', 'viewitems'):
                     self.add_message('dict-view-method', node=node)

     @utils.check_messages('indexing-exception')
     def visit_subscript(self, node):
         """ Look for indexing exceptions. """
         try:
             for infered in node.value.infer():
                 if not isinstance(infered, astroid.Instance):
                     continue
                 if utils.inherit_from_std_ex(infered):
                     self.add_message('indexing-exception', node=node)
         except astroid.InferenceError:
             return

     @utils.check_messages('unpacking-in-except')
     def visit_excepthandler(self, node):
         """Visit an except handler block and check for exception unpacking."""
         if isinstance(node.name, (astroid.Tuple, astroid.List)):
             self.add_message('unpacking-in-except', node=node)

     @utils.check_messages('backtick')
     def visit_backquote(self, node):
         self.add_message('backtick', node=node)

     @utils.check_messages('raising-string', 'old-raise-syntax')
     def visit_raise(self, node):
         """Visit a raise statement and check for raising
         strings or old-raise-syntax.
         """
         if (node.exc is not None and
                 node.inst is not None and
                 node.tback is None):
             self.add_message('old-raise-syntax', node=node)

         # Ignore empty raise.
         if node.exc is None:
             return
         expr = node.exc
         if self._check_raise_value(node, expr):
             return
         else:
             try:
                 value = next(astroid.unpack_infer(expr))
             except astroid.InferenceError:
                 return
             self._check_raise_value(node, value)

     def _check_raise_value(self, node, expr):
         if isinstance(expr, astroid.Const):
             value = expr.value
             if isinstance(value, str):
                 self.add_message('raising-string', node=node)
                 return True


 class Python3TokenChecker(checkers.BaseTokenChecker):
     __implements__ = interfaces.ITokenChecker
     name = 'python3'
     enabled = False

     msgs = {
         'E1606': ('Use of long suffix',
                   'long-suffix',
                   'Used when "l" or "L" is used to mark a long integer. '
                   'This will not work in Python 3, since `int` and `long` '
                   'types have merged.',
                   {'maxversion': (3, 0)}),
         'E1607': ('Use of the <> operator',
                   'old-ne-operator',
                   'Used when the deprecated "<>" operator is used instead '
                   'of "!=". This is removed in Python 3.',
                   {'maxversion': (3, 0),
                    'old_names': [('W0331', 'old-ne-operator')]}),
         'E1608': ('Use of old octal literal',
                   'old-octal-literal',
                   'Usen when encountering the old octal syntax, '
                   'removed in Python 3. To use the new syntax, '
                   'prepend 0o on the number.',
                   {'maxversion': (3, 0)}),
     }

     def process_tokens(self, tokens):
         for idx, (tok_type, token, start, _, _) in enumerate(tokens):
             if tok_type == tokenize.NUMBER:
                 if token.lower().endswith('l'):
                     # This has a different semantic than lowercase-l-suffix.
                     self.add_message('long-suffix', line=start[0])
                 elif _is_old_octal(token):
                     self.add_message('old-octal-literal', line=start[0])
             if tokens[idx][1] == '<>':
                 self.add_message('old-ne-operator', line=tokens[idx][2][0])


 def register(linter):
     linter.register_checker(Python3Checker(linter))
     linter.register_checker(Python3TokenChecker(linter))
	# Copyright 2014 Google Inc.
	# 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.
	"""Check Python 2 code for Python 2/3 source-compatible issues."""
	from __future__ import absolute_import

	import re
	import tokenize

	import astroid
	from pylint import checkers, interfaces
	from pylint.utils import WarningScope
	from pylint.checkers import utils


	_ZERO = re.compile("^0+$")

	def _is_old_octal(literal):
	if _ZERO.match(literal):
	return False
	if re.match('0\d+', literal):
	try:
	int(literal, 8)
	except ValueError:
	return False
	return True

	def _check_dict_node(node):
	inferred_types = set()
	try:
	inferred = node.infer()
	for inferred_node in inferred:
	inferred_types.add(inferred_node)
	except (astroid.InferenceError, astroid.UnresolvableName):
	pass
	return (not inferred_types
	or any(isinstance(x, astroid.Dict) for x in inferred_types))


	class Python3Checker(checkers.BaseChecker):

	__implements__ = interfaces.IAstroidChecker
	enabled = False
	name = 'python3'

	msgs = {
	# Errors for what will syntactically break in Python 3, warnings for
	# everything else.
	'E1601': ('print statement used',
	'print-statement',
	'Used when a print statement is used '
	'(`print` is a function in Python 3)',
	{'maxversion': (3, 0)}),
	'E1602': ('Parameter unpacking specified',
	'parameter-unpacking',
	'Used when parameter unpacking is specified for a function'
	"(Python 3 doesn't allow it)",
	{'maxversion': (3, 0)}),
	'E1603': ('Implicit unpacking of exceptions is not supported '
	'in Python 3',
	'unpacking-in-except',
	'Python3 will not allow implicit unpacking of '
	'exceptions in except clauses. '
	'See http://www.python.org/dev/peps/pep-3110/',
	{'maxversion': (3, 0),
	'old_names': [('W0712', 'unpacking-in-except')]}),
	'E1604': ('Use raise ErrorClass(args) instead of '
	'raise ErrorClass, args.',
	'old-raise-syntax',
	"Used when the alternate raise syntax "
	"'raise foo, bar' is used "
	"instead of 'raise foo(bar)'.",
	{'maxversion': (3, 0),
	'old_names': [('W0121', 'old-raise-syntax')]}),
	'E1605': ('Use of the `` operator',
	'backtick',
	'Used when the deprecated "``" (backtick) operator is used '
	'instead of the str() function.',
	{'scope': WarningScope.NODE,
	'maxversion': (3, 0),
	'old_names': [('W0333', 'backtick')]}),
	'W1601': ('apply built-in referenced',
	'apply-builtin',
	'Used when the apply built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1602': ('basestring built-in referenced',
	'basestring-builtin',
	'Used when the basestring built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1603': ('buffer built-in referenced',
	'buffer-builtin',
	'Used when the buffer built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1604': ('cmp built-in referenced',
	'cmp-builtin',
	'Used when the cmp built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1605': ('coerce built-in referenced',
	'coerce-builtin',
	'Used when the coerce built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1606': ('execfile built-in referenced',
	'execfile-builtin',
	'Used when the execfile built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1607': ('file built-in referenced',
	'file-builtin',
	'Used when the file built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1608': ('long built-in referenced',
	'long-builtin',
	'Used when the long built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1609': ('raw_input built-in referenced',
	'raw_input-builtin',
	'Used when the raw_input built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1610': ('reduce built-in referenced',
	'reduce-builtin',
	'Used when the reduce built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1611': ('StandardError built-in referenced',
	'standarderror-builtin',
	'Used when the StandardError built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1612': ('unicode built-in referenced',
	'unicode-builtin',
	'Used when the unicode built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1613': ('xrange built-in referenced',
	'xrange-builtin',
	'Used when the xrange built-in function is referenced '
	'(missing from Python 3)',
	{'maxversion': (3, 0)}),
	'W1614': ('__coerce__ method defined',
	'coerce-method',
	'Used when a __coerce__ method is defined '
	'(method is not used by Python 3)',
	{'maxversion': (3, 0)}),
	'W1615': ('__delslice__ method defined',
	'delslice-method',
	'Used when a __delslice__ method is defined '
	'(method is not used by Python 3)',
	{'maxversion': (3, 0)}),
	'W1616': ('__getslice__ method defined',
	'getslice-method',
	'Used when a __getslice__ method is defined '
	'(method is not used by Python 3)',
	{'maxversion': (3, 0)}),
	'W1617': ('__setslice__ method defined',
	'setslice-method',
	'Used when a __setslice__ method is defined '
	'(method is not used by Python 3)',
	{'maxversion': (3, 0)}),
	'W1618': ('import missing `from __future__ import absolute_import`',
	'no-absolute-import',
	'Used when an import is not accompanied by '
	'`from __future__ import absolute_import`'
	' (default behaviour in Python 3)',
	{'maxversion': (3, 0)}),
	'W1619': ('division w/o __future__ statement',
	'old-division',
	'Used for non-floor division w/o a float literal or '
	'``from __future__ import division``'
	'(Python 3 returns a float for int division unconditionally)',
	{'maxversion': (3, 0)}),
	'W1620': ('Calling a dict.iter*() method',
	'dict-iter-method',
	'Used for calls to dict.iterkeys(), itervalues() or iteritems() '
	'(Python 3 lacks these methods)',
	{'maxversion': (3, 0)}),
	'W1621': ('Calling a dict.view*() method',
	'dict-view-method',
	'Used for calls to dict.viewkeys(), viewvalues() or viewitems() '
	'(Python 3 lacks these methods)',
	{'maxversion': (3, 0)}),
	'W1622': ('Called a next() method on an object',
	'next-method-called',
	"Used when an object's next() method is called "
	'(Python 3 uses the next() built-in function)',
	{'maxversion': (3, 0)}),
	'W1623': ("Assigning to a class' __metaclass__ attribute",
	'metaclass-assignment',
	"Used when a metaclass is specified by assigning to __metaclass__ "
	'(Python 3 specifies the metaclass as a class statement argument)',
	{'maxversion': (3, 0)}),
	'W1624': ('Indexing exceptions will not work on Python 3',
	'indexing-exception',
	'Indexing exceptions will not work on Python 3. Use '
	'`exception.args[index]` instead.',
	{'maxversion': (3, 0),
	'old_names': [('W0713', 'indexing-exception')]}),
	'W1625': ('Raising a string exception',
	'raising-string',
	'Used when a string exception is raised. This will not '
	'work on Python 3.',
	{'maxversion': (3, 0),
	'old_names': [('W0701', 'raising-string')]}),
	'W1626': ('reload built-in referenced',
	'reload-builtin',
	'Used when the reload built-in function is referenced '
	'(missing from Python 3). You can use instead imp.reload '
	'or importlib.reload.',
	{'maxversion': (3, 0)}),
	'W1627': ('__oct__ method defined',
	'oct-method',
	'Used when a __oct__ method is defined '
	'(method is not used by Python 3)',
	{'maxversion': (3, 0)}),
	'W1628': ('__hex__ method defined',
	'hex-method',
	'Used when a __hex__ method is defined '
	'(method is not used by Python 3)',
	{'maxversion': (3, 0)}),
	'W1629': ('__nonzero__ method defined',
	'nonzero-method',
	'Used when a __nonzero__ method is defined '
	'(method is not used by Python 3)',
	{'maxversion': (3, 0)}),
	'W1630': ('__cmp__ method defined',
	'cmp-method',
	'Used when a __cmp__ method is defined '
	'(method is not used by Python 3)',
	{'maxversion': (3, 0)}),
	'W1631': ('map is used as implicitly evaluated call',
	'implicit-map-evaluation',
	'Used when the map builtin is used as implicitly '
	'evaluated call, as in "map(func, args)" on a single line. '
	'This behaviour will not work in Python 3, where '
	'map is a generator and must be evaluated. '
	'Prefer a for-loop as alternative.',
	{'maxversion': (3, 0)}),
	'W1632': ('input built-in referenced',
	'input-builtin',
	'Used when the input built-in is referenced '
	'(backwards-incompatible semantics in Python 3)',
	{'maxversion': (3, 0)}),
	'W1633': ('round built-in referenced',
	'round-builtin',
	'Used when the round built-in is referenced '
	'(backwards-incompatible semantics in Python 3)',
	{'maxversion': (3, 0)}),
	}

	_bad_builtins = frozenset([
	'apply',
	'basestring',
	'buffer',
	'cmp',
	'coerce',
	'execfile',
	'file',
	'input', # Not missing, but incompatible semantics
	'long',
	'raw_input',
	'reduce',
	'round', # Not missing, but incompatible semantics
	'StandardError',
	'unicode',
	'xrange',
	'reload',
	])

	_unused_magic_methods = frozenset([
	'__coerce__',
	'__delslice__',
	'__getslice__',
	'__setslice__',
	'__oct__',
	'__hex__',
	'__nonzero__',
	'__cmp__',
	])

	def __init__(self, args, *kwargs):
	self._future_division = False
	self._future_absolute_import = False
	super(Python3Checker, self).__init__(args, *kwargs)

	def visit_function(self, node):
	if node.is_method() and node.name in self._unused_magic_methods:
	method_name = node.name
	if node.name.startswith('__'):
	method_name = node.name[2:-2]
	self.add_message(method_name + '-method', node=node)

	@utils.check_messages('parameter-unpacking')
	def visit_arguments(self, node):
	for arg in node.args:
	if isinstance(arg, astroid.Tuple):
	self.add_message('parameter-unpacking', node=arg)

	@utils.check_messages('implicit-map-evaluation')
	def visit_discard(self, node):
	if (isinstance(node.value, astroid.CallFunc) and
	isinstance(node.value.func, astroid.Name) and
	node.value.func.name == 'map'):
	module = node.value.func.lookup('map')[0]
	if getattr(module, 'name', None) == '__builtin__':
	self.add_message('implicit-map-evaluation', node=node)

	def visit_name(self, node):
	"""Detect when a "bad" built-in is referenced."""
	found_node = node.lookup(node.name)[0]
	if getattr(found_node, 'name', None) == '__builtin__':
	if node.name in self._bad_builtins:
	message = node.name.lower() + '-builtin'
	self.add_message(message, node=node)

	@utils.check_messages('print-statement')
	def visit_print(self, node):
	self.add_message('print-statement', node=node)

	@utils.check_messages('no-absolute-import')
	def visit_from(self, node):
	if node.modname == '__future__':
	for name, _ in node.names:
	if name == 'division':
	self._future_division = True
	elif name == 'absolute_import':
	self._future_absolute_import = True
	elif not self._future_absolute_import:
	self.add_message('no-absolute-import', node=node)

	@utils.check_messages('no-absolute-import')
	def visit_import(self, node):
	if not self._future_absolute_import:
	self.add_message('no-absolute-import', node=node)

	@utils.check_messages('metaclass-assignment')
	def visit_class(self, node):
	if '__metaclass__' in node.locals:
	self.add_message('metaclass-assignment', node=node)

	@utils.check_messages('old-division')
	def visit_binop(self, node):
	if not self._future_division and node.op == '/':
	for arg in (node.left, node.right):
	if isinstance(arg, astroid.Const) and isinstance(arg.value, float):
	break
	else:
	self.add_message('old-division', node=node)

	@utils.check_messages('next-method-called',
	'dict-iter-method',
	'dict-view-method')
	def visit_callfunc(self, node):
	if not isinstance(node.func, astroid.Getattr):
	return
	if any([node.args, node.starargs, node.kwargs]):
	return
	if node.func.attrname == 'next':
	self.add_message('next-method-called', node=node)
	else:
	if _check_dict_node(node.func.expr):
	if node.func.attrname in ('iterkeys', 'itervalues', 'iteritems'):
	self.add_message('dict-iter-method', node=node)
	elif node.func.attrname in ('viewkeys', 'viewvalues', 'viewitems'):
	self.add_message('dict-view-method', node=node)

	@utils.check_messages('indexing-exception')
	def visit_subscript(self, node):
	""" Look for indexing exceptions. """
	try:
	for infered in node.value.infer():
	if not isinstance(infered, astroid.Instance):
	continue
	if utils.inherit_from_std_ex(infered):
	self.add_message('indexing-exception', node=node)
	except astroid.InferenceError:
	return

	@utils.check_messages('unpacking-in-except')
	def visit_excepthandler(self, node):
	"""Visit an except handler block and check for exception unpacking."""
	if isinstance(node.name, (astroid.Tuple, astroid.List)):
	self.add_message('unpacking-in-except', node=node)

	@utils.check_messages('backtick')
	def visit_backquote(self, node):
	self.add_message('backtick', node=node)

	@utils.check_messages('raising-string', 'old-raise-syntax')
	def visit_raise(self, node):
	"""Visit a raise statement and check for raising
	strings or old-raise-syntax.
	"""
	if (node.exc is not None and
	node.inst is not None and
	node.tback is None):
	self.add_message('old-raise-syntax', node=node)

	# Ignore empty raise.
	if node.exc is None:
	return
	expr = node.exc
	if self._check_raise_value(node, expr):
	return
	else:
	try:
	value = next(astroid.unpack_infer(expr))
	except astroid.InferenceError:
	return
	self._check_raise_value(node, value)

	def _check_raise_value(self, node, expr):
	if isinstance(expr, astroid.Const):
	value = expr.value
	if isinstance(value, str):
	self.add_message('raising-string', node=node)
	return True


	class Python3TokenChecker(checkers.BaseTokenChecker):
	__implements__ = interfaces.ITokenChecker
	name = 'python3'
	enabled = False

	msgs = {
	'E1606': ('Use of long suffix',
	'long-suffix',
	'Used when "l" or "L" is used to mark a long integer. '
	'This will not work in Python 3, since `int` and `long` '
	'types have merged.',
	{'maxversion': (3, 0)}),
	'E1607': ('Use of the <> operator',
	'old-ne-operator',
	'Used when the deprecated "<>" operator is used instead '
	'of "!=". This is removed in Python 3.',
	{'maxversion': (3, 0),
	'old_names': [('W0331', 'old-ne-operator')]}),
	'E1608': ('Use of old octal literal',
	'old-octal-literal',
	'Usen when encountering the old octal syntax, '
	'removed in Python 3. To use the new syntax, '
	'prepend 0o on the number.',
	{'maxversion': (3, 0)}),
	}

	def process_tokens(self, tokens):
	for idx, (tok_type, token, start, _, _) in enumerate(tokens):
	if tok_type == tokenize.NUMBER:
	if token.lower().endswith('l'):
	# This has a different semantic than lowercase-l-suffix.
	self.add_message('long-suffix', line=start[0])
	elif _is_old_octal(token):
	self.add_message('old-octal-literal', line=start[0])
	if tokens[idx][1] == '<>':
	self.add_message('old-ne-operator', line=tokens[idx][2][0])


	def register(linter):
	linter.register_checker(Python3Checker(linter))
	linter.register_checker(Python3TokenChecker(linter))