third_party/pylint/pylint/checkers/typecheck.py - Issue 1920403002: [content/test/gpu] Run pylint check of gpu tests in unittest instead of PRESUBMIT

Unified Diff: third_party/pylint/pylint/checkers/typecheck.py

Issue 1920403002: [content/test/gpu] Run pylint check of gpu tests in unittest instead of PRESUBMIT (Closed) Base URL: https://chromium.googlesource.com/chromium/src.git@master

Patch Set: Update path to LICENSE.txt of logilab/README.chromium Created 4 years, 7 months ago

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Index: third_party/pylint/pylint/checkers/typecheck.py

diff --git a/third_party/pylint/pylint/checkers/typecheck.py b/third_party/pylint/pylint/checkers/typecheck.py

new file mode 100644

index 0000000000000000000000000000000000000000..9f074ae05f6cfd662e8f246ce7b2274cb2359adf

--- /dev/null

+++ b/third_party/pylint/pylint/checkers/typecheck.py

@@ -0,0 +1,627 @@

+# 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.

+"""try to find more bugs in the code using astroid inference capabilities

+"""

+import re

+import shlex

+import astroid

+from astroid import InferenceError, NotFoundError, YES, Instance

+from astroid.bases import BUILTINS

+from pylint.interfaces import IAstroidChecker, INFERENCE, INFERENCE_FAILURE

+from pylint.checkers import BaseChecker

+from pylint.checkers.utils import (

+ safe_infer, is_super,

+ check_messages, decorated_with_property)

+MSGS = {

+ 'E1101': ('%s %r has no %r member',

+ 'no-member',

+ 'Used when a variable is accessed for an unexistent member.',

+ {'old_names': [('E1103', 'maybe-no-member')]}),

+ 'E1102': ('%s is not callable',

+ 'not-callable',

+ 'Used when an object being called has been inferred to a non \

+ callable object'),

+ 'E1111': ('Assigning to function call which doesn\'t return',

+ 'assignment-from-no-return',

+ 'Used when an assignment is done on a function call but the \

+ inferred function doesn\'t return anything.'),

+ 'W1111': ('Assigning to function call which only returns None',

+ 'assignment-from-none',

+ 'Used when an assignment is done on a function call but the \

+ inferred function returns nothing but None.'),

+ 'E1120': ('No value for argument %s in %s call',

+ 'no-value-for-parameter',

+ 'Used when a function call passes too few arguments.'),

+ 'E1121': ('Too many positional arguments for %s call',

+ 'too-many-function-args',

+ 'Used when a function call passes too many positional \

+ arguments.'),

+ 'E1123': ('Unexpected keyword argument %r in %s call',

+ 'unexpected-keyword-arg',

+ 'Used when a function call passes a keyword argument that \

+ doesn\'t correspond to one of the function\'s parameter names.'),

+ 'E1124': ('Argument %r passed by position and keyword in %s call',

+ 'redundant-keyword-arg',

+ 'Used when a function call would result in assigning multiple \

+ values to a function parameter, one value from a positional \

+ argument and one from a keyword argument.'),

+ 'E1125': ('Missing mandatory keyword argument %r in %s call',

+ 'missing-kwoa',

+ ('Used when a function call does not pass a mandatory'

+ ' keyword-only argument.'),

+ {'minversion': (3, 0)}),

+ 'E1126': ('Sequence index is not an int, slice, or instance with __index__',

+ 'invalid-sequence-index',

+ 'Used when a sequence type is indexed with an invalid type. '

+ 'Valid types are ints, slices, and objects with an __index__ '

+ 'method.'),

+ 'E1127': ('Slice index is not an int, None, or instance with __index__',

+ 'invalid-slice-index',

+ 'Used when a slice index is not an integer, None, or an object \

+ with an __index__ method.'),

+ }

+# builtin sequence types in Python 2 and 3.

+SEQUENCE_TYPES = set(['str', 'unicode', 'list', 'tuple', 'bytearray',

+ 'xrange', 'range', 'bytes', 'memoryview'])

+def _determine_callable(callable_obj):

+ # Ordering is important, since BoundMethod is a subclass of UnboundMethod,

+ # and Function inherits Lambda.

+ if isinstance(callable_obj, astroid.BoundMethod):

+ # Bound methods have an extra implicit 'self' argument.

+ return callable_obj, 1, callable_obj.type

+ elif isinstance(callable_obj, astroid.UnboundMethod):

+ return callable_obj, 0, 'unbound method'

+ elif isinstance(callable_obj, astroid.Function):

+ return callable_obj, 0, callable_obj.type

+ elif isinstance(callable_obj, astroid.Lambda):

+ return callable_obj, 0, 'lambda'

+ elif isinstance(callable_obj, astroid.Class):

+ # Class instantiation, lookup __new__ instead.

+ # If we only find object.__new__, we can safely check __init__

+ # instead.

+ try:

+ # Use the last definition of __new__.

+ new = callable_obj.local_attr('__new__')[-1]

+ except astroid.NotFoundError:

+ new = None

+ if not new or new.parent.scope().name == 'object':

+ try:

+ # Use the last definition of __init__.

+ callable_obj = callable_obj.local_attr('__init__')[-1]

+ except astroid.NotFoundError:

+ # do nothing, covered by no-init.

+ raise ValueError

+ else:

+ callable_obj = new

+ if not isinstance(callable_obj, astroid.Function):

+ raise ValueError

+ # both have an extra implicit 'cls'/'self' argument.

+ return callable_obj, 1, 'constructor'

+ else:

+ raise ValueError

+class TypeChecker(BaseChecker):

+ """try to find bugs in the code using type inference

+ """

+ __implements__ = (IAstroidChecker,)

+ # configuration section name

+ name = 'typecheck'

+ # messages

+ msgs = MSGS

+ priority = -1

+ # configuration options

+ options = (('ignore-mixin-members',

+ {'default' : True, 'type' : 'yn', 'metavar': '<y_or_n>',

+ 'help' : 'Tells whether missing members accessed in mixin \

+class should be ignored. A mixin class is detected if its name ends with \

+"mixin" (case insensitive).'}

+ ),

+ ('ignored-modules',

+ {'default': (),

+ 'type': 'csv',

+ 'metavar': '<module names>',

+ 'help': 'List of module names for which member attributes \

+should not be checked (useful for modules/projects where namespaces are \

+manipulated during runtime and thus existing member attributes cannot be \

+deduced by static analysis'},

+ ),

+ ('ignored-classes',

+ {'default' : ('SQLObject',),

+ 'type' : 'csv',

+ 'metavar' : '<members names>',

+ 'help' : 'List of classes names for which member attributes \

+should not be checked (useful for classes with attributes dynamically set).'}

+ ),

+ ('zope',

+ {'default' : False, 'type' : 'yn', 'metavar': '<y_or_n>',

+ 'help' : 'When zope mode is activated, add a predefined set \

+of Zope acquired attributes to generated-members.'}

+ ),

+ ('generated-members',

+ {'default' : ('REQUEST', 'acl_users', 'aq_parent'),

+ 'type' : 'string',

+ 'metavar' : '<members names>',

+ 'help' : 'List of members which are set dynamically and \

+missed by pylint inference system, and so shouldn\'t trigger E0201 when \

+accessed. Python regular expressions are accepted.'}

+ ),

+ )

+ def open(self):

+ # do this in open since config not fully initialized in __init__

+ self.generated_members = list(self.config.generated_members)

+ if self.config.zope:

+ self.generated_members.extend(('REQUEST', 'acl_users', 'aq_parent'))

+ def visit_assattr(self, node):

+ if isinstance(node.ass_type(), astroid.AugAssign):

+ self.visit_getattr(node)

+ def visit_delattr(self, node):

+ self.visit_getattr(node)

+ @check_messages('no-member')

+ def visit_getattr(self, node):

+ """check that the accessed attribute exists

+ to avoid to much false positives for now, we'll consider the code as

+ correct if a single of the inferred nodes has the accessed attribute.

+ function/method, super call and metaclasses are ignored

+ """

+ # generated_members may containt regular expressions

+ # (surrounded by quote `"` and followed by a comma `,`)

+ # REQUEST,aq_parent,"[a-zA-Z]+_set{1,2}"' =>

+ # ('REQUEST', 'aq_parent', '[a-zA-Z]+_set{1,2}')

+ if isinstance(self.config.generated_members, str):

+ gen = shlex.shlex(self.config.generated_members)

+ gen.whitespace += ','

+ gen.wordchars += '[]-+'

+ self.config.generated_members = tuple(tok.strip('"') for tok in gen)

+ for pattern in self.config.generated_members:

+ # attribute is marked as generated, stop here

+ if re.match(pattern, node.attrname):

+ return

+ try:

+ infered = list(node.expr.infer())

+ except InferenceError:

+ return

+ # list of (node, nodename) which are missing the attribute

+ missingattr = set()

+ ignoremim = self.config.ignore_mixin_members

+ inference_failure = False

+ for owner in infered:

+ # skip yes object

+ if owner is YES:

+ inference_failure = True

+ continue

+ # skip None anyway

+ if isinstance(owner, astroid.Const) and owner.value is None:

+ continue

+ # XXX "super" / metaclass call

+ if is_super(owner) or getattr(owner, 'type', None) == 'metaclass':

+ continue

+ name = getattr(owner, 'name', 'None')

+ if name in self.config.ignored_classes:

+ continue

+ if ignoremim and name[-5:].lower() == 'mixin':

+ continue

+ try:

+ if not [n for n in owner.getattr(node.attrname)

+ if not isinstance(n.statement(), astroid.AugAssign)]:

+ missingattr.add((owner, name))

+ continue

+ except AttributeError:

+ # XXX method / function

+ continue

+ except NotFoundError:

+ if isinstance(owner, astroid.Function) and owner.decorators:

+ continue

+ if isinstance(owner, Instance) and owner.has_dynamic_getattr():

+ continue

+ # explicit skipping of module member access

+ if owner.root().name in self.config.ignored_modules:

+ continue

+ if isinstance(owner, astroid.Class):

+ # Look up in the metaclass only if the owner is itself

+ # a class.

+ # TODO: getattr doesn't return by default members

+ # from the metaclass, because handling various cases

+ # of methods accessible from the metaclass itself

+ # and/or subclasses only is too complicated for little to

+ # no benefit.

+ metaclass = owner.metaclass()

+ try:

+ if metaclass and metaclass.getattr(node.attrname):

+ continue

+ except NotFoundError:

+ pass

+ missingattr.add((owner, name))

+ continue

+ # stop on the first found

+ break

+ else:

+ # we have not found any node with the attributes, display the

+ # message for infered nodes

+ done = set()

+ for owner, name in missingattr:

+ if isinstance(owner, Instance):

+ actual = owner._proxied

+ else:

+ actual = owner

+ if actual in done:

+ continue

+ done.add(actual)

+ confidence = INFERENCE if not inference_failure else INFERENCE_FAILURE

+ self.add_message('no-member', node=node,

+ args=(owner.display_type(), name,

+ node.attrname),

+ confidence=confidence)

+ @check_messages('assignment-from-no-return', 'assignment-from-none')

+ def visit_assign(self, node):

+ """check that if assigning to a function call, the function is

+ possibly returning something valuable

+ """

+ if not isinstance(node.value, astroid.CallFunc):

+ return

+ function_node = safe_infer(node.value.func)

+ # skip class, generator and incomplete function definition

+ if not (isinstance(function_node, astroid.Function) and

+ function_node.root().fully_defined()):

+ return

+ if function_node.is_generator() \

+ or function_node.is_abstract(pass_is_abstract=False):

+ return

+ returns = list(function_node.nodes_of_class(astroid.Return,

+ skip_klass=astroid.Function))

+ if len(returns) == 0:

+ self.add_message('assignment-from-no-return', node=node)

+ else:

+ for rnode in returns:

+ if not (isinstance(rnode.value, astroid.Const)

+ and rnode.value.value is None

+ or rnode.value is None):

+ break

+ else:

+ self.add_message('assignment-from-none', node=node)

+ def _check_uninferable_callfunc(self, node):

+ """

+ Check that the given uninferable CallFunc node does not

+ call an actual function.

+ """

+ if not isinstance(node.func, astroid.Getattr):

+ return

+ # Look for properties. First, obtain

+ # the lhs of the Getattr node and search the attribute

+ # there. If that attribute is a property or a subclass of properties,

+ # then most likely it's not callable.

+ # TODO: since astroid doesn't understand descriptors very well

+ # we will not handle them here, right now.

+ expr = node.func.expr

+ klass = safe_infer(expr)

+ if (klass is None or klass is astroid.YES or

+ not isinstance(klass, astroid.Instance)):

+ return

+ try:

+ attrs = klass._proxied.getattr(node.func.attrname)

+ except astroid.NotFoundError:

+ return

+ for attr in attrs:

+ if attr is astroid.YES:

+ continue

+ if not isinstance(attr, astroid.Function):

+ continue

+ # Decorated, see if it is decorated with a property.

+ # Also, check the returns and see if they are callable.

+ if decorated_with_property(attr):

+ if all(return_node.callable()

+ for return_node in attr.infer_call_result(node)):

+ continue

+ else:

+ self.add_message('not-callable', node=node,

+ args=node.func.as_string())

+ break

+ @check_messages(*(list(MSGS.keys())))

+ def visit_callfunc(self, node):

+ """check that called functions/methods are inferred to callable objects,

+ and that the arguments passed to the function match the parameters in

+ the inferred function's definition

+ """

+ # Build the set of keyword arguments, checking for duplicate keywords,

+ # and count the positional arguments.

+ keyword_args = set()

+ num_positional_args = 0

+ for arg in node.args:

+ if isinstance(arg, astroid.Keyword):

+ keyword_args.add(arg.arg)

+ else:

+ num_positional_args += 1

+ called = safe_infer(node.func)

+ # only function, generator and object defining __call__ are allowed

+ if called is not None and not called.callable():

+ self.add_message('not-callable', node=node,

+ args=node.func.as_string())

+ self._check_uninferable_callfunc(node)

+ try:

+ called, implicit_args, callable_name = _determine_callable(called)

+ except ValueError:

+ # Any error occurred during determining the function type, most of

+ # those errors are handled by different warnings.

+ return

+ num_positional_args += implicit_args

+ if called.args.args is None:

+ # Built-in functions have no argument information.

+ return

+ if len(called.argnames()) != len(set(called.argnames())):

+ # Duplicate parameter name (see E9801). We can't really make sense

+ # of the function call in this case, so just return.

+ return

+ # Analyze the list of formal parameters.

+ num_mandatory_parameters = len(called.args.args) - len(called.args.defaults)

+ parameters = []

+ parameter_name_to_index = {}

+ for i, arg in enumerate(called.args.args):

+ if isinstance(arg, astroid.Tuple):

+ name = None

+ # Don't store any parameter names within the tuple, since those

+ # are not assignable from keyword arguments.

+ else:

+ if isinstance(arg, astroid.Keyword):

+ name = arg.arg

+ else:

+ assert isinstance(arg, astroid.AssName)

+ # This occurs with:

+ # def f( (a), (b) ): pass

+ name = arg.name

+ parameter_name_to_index[name] = i

+ if i >= num_mandatory_parameters:

+ defval = called.args.defaults[i - num_mandatory_parameters]

+ else:

+ defval = None

+ parameters.append([(name, defval), False])

+ kwparams = {}

+ for i, arg in enumerate(called.args.kwonlyargs):

+ if isinstance(arg, astroid.Keyword):

+ name = arg.arg

+ else:

+ assert isinstance(arg, astroid.AssName)

+ name = arg.name

+ kwparams[name] = [called.args.kw_defaults[i], False]

+ # Match the supplied arguments against the function parameters.

+ # 1. Match the positional arguments.

+ for i in range(num_positional_args):

+ if i < len(parameters):

+ parameters[i][1] = True

+ elif called.args.vararg is not None:

+ # The remaining positional arguments get assigned to the *args

+ # parameter.

+ break

+ else:

+ # Too many positional arguments.

+ self.add_message('too-many-function-args',

+ node=node, args=(callable_name,))

+ break

+ # 2. Match the keyword arguments.

+ for keyword in keyword_args:

+ if keyword in parameter_name_to_index:

+ i = parameter_name_to_index[keyword]

+ if parameters[i][1]:

+ # Duplicate definition of function parameter.

+ self.add_message('redundant-keyword-arg',

+ node=node, args=(keyword, callable_name))

+ else:

+ parameters[i][1] = True

+ elif keyword in kwparams:

+ if kwparams[keyword][1]: # XXX is that even possible?

+ # Duplicate definition of function parameter.

+ self.add_message('redundant-keyword-arg', node=node,

+ args=(keyword, callable_name))

+ else:

+ kwparams[keyword][1] = True

+ elif called.args.kwarg is not None:

+ # The keyword argument gets assigned to the **kwargs parameter.

+ pass

+ else:

+ # Unexpected keyword argument.

+ self.add_message('unexpected-keyword-arg', node=node,

+ args=(keyword, callable_name))

+ # 3. Match the *args, if any. Note that Python actually processes

+ # *args _before_ any keyword arguments, but we wait until after

+ # looking at the keyword arguments so as to make a more conservative

+ # guess at how many values are in the *args sequence.

+ if node.starargs is not None:

+ for i in range(num_positional_args, len(parameters)):

+ [(name, defval), assigned] = parameters[i]

+ # Assume that *args provides just enough values for all

+ # non-default parameters after the last parameter assigned by

+ # the positional arguments but before the first parameter

+ # assigned by the keyword arguments. This is the best we can

+ # get without generating any false positives.

+ if (defval is not None) or assigned:

+ break

+ parameters[i][1] = True

+ # 4. Match the **kwargs, if any.

+ if node.kwargs is not None:

+ for i, [(name, defval), assigned] in enumerate(parameters):

+ # Assume that *kwargs provides values for all remaining

+ # unassigned named parameters.

+ if name is not None:

+ parameters[i][1] = True

+ else:

+ # **kwargs can't assign to tuples.

+ pass

+ # Check that any parameters without a default have been assigned

+ # values.

+ for [(name, defval), assigned] in parameters:

+ if (defval is None) and not assigned:

+ if name is None:

+ display_name = '<tuple>'

+ else:

+ display_name = repr(name)

+ self.add_message('no-value-for-parameter', node=node,

+ args=(display_name, callable_name))

+ for name in kwparams:

+ defval, assigned = kwparams[name]

+ if defval is None and not assigned:

+ self.add_message('missing-kwoa', node=node,

+ args=(name, callable_name))

+ @check_messages('invalid-sequence-index')

+ def visit_extslice(self, node):

+ # Check extended slice objects as if they were used as a sequence

+ # index to check if the object being sliced can support them

+ return self.visit_index(node)

+ @check_messages('invalid-sequence-index')

+ def visit_index(self, node):

+ if not node.parent or not hasattr(node.parent, "value"):

+ return

+ # Look for index operations where the parent is a sequence type.

+ # If the types can be determined, only allow indices to be int,

+ # slice or instances with __index__.

+ parent_type = safe_infer(node.parent.value)

+ if not isinstance(parent_type, (astroid.Class, astroid.Instance)):

+ return

+ # Determine what method on the parent this index will use

+ # The parent of this node will be a Subscript, and the parent of that

+ # node determines if the Subscript is a get, set, or delete operation.

+ operation = node.parent.parent

+ if isinstance(operation, astroid.Assign):

+ methodname = '__setitem__'

+ elif isinstance(operation, astroid.Delete):

+ methodname = '__delitem__'

+ else:

+ methodname = '__getitem__'

+ # Check if this instance's __getitem__, __setitem__, or __delitem__, as

+ # appropriate to the statement, is implemented in a builtin sequence

+ # type. This way we catch subclasses of sequence types but skip classes

+ # that override __getitem__ and which may allow non-integer indices.

+ try:

+ methods = parent_type.getattr(methodname)

+ if methods is astroid.YES:

+ return

+ itemmethod = methods[0]

+ except (astroid.NotFoundError, IndexError):

+ return

+ if not isinstance(itemmethod, astroid.Function):

+ return

+ if itemmethod.root().name != BUILTINS:

+ return

+ if not itemmethod.parent:

+ return

+ if itemmethod.parent.name not in SEQUENCE_TYPES:

+ return

+ # For ExtSlice objects coming from visit_extslice, no further

+ # inference is necessary, since if we got this far the ExtSlice

+ # is an error.

+ if isinstance(node, astroid.ExtSlice):

+ index_type = node

+ else:

+ index_type = safe_infer(node)

+ if index_type is None or index_type is astroid.YES:

+ return

+ # Constants must be of type int

+ if isinstance(index_type, astroid.Const):

+ if isinstance(index_type.value, int):

+ return

+ # Instance values must be int, slice, or have an __index__ method

+ elif isinstance(index_type, astroid.Instance):

+ if index_type.pytype() in (BUILTINS + '.int', BUILTINS + '.slice'):

+ return

+ try:

+ index_type.getattr('__index__')

+ return

+ except astroid.NotFoundError:

+ pass

+ # Anything else is an error

+ self.add_message('invalid-sequence-index', node=node)

+ @check_messages('invalid-slice-index')

+ def visit_slice(self, node):

+ # Check the type of each part of the slice

+ for index in (node.lower, node.upper, node.step):

+ if index is None:

+ continue

+ index_type = safe_infer(index)

+ if index_type is None or index_type is astroid.YES:

+ continue

+ # Constants must of type int or None

+ if isinstance(index_type, astroid.Const):

+ if isinstance(index_type.value, (int, type(None))):

+ continue

+ # Instance values must be of type int, None or an object

+ # with __index__

+ elif isinstance(index_type, astroid.Instance):

+ if index_type.pytype() in (BUILTINS + '.int',

+ BUILTINS + '.NoneType'):

+ continue

+ try:

+ index_type.getattr('__index__')

+ return

+ except astroid.NotFoundError:

+ pass

+ # Anything else is an error

+ self.add_message('invalid-slice-index', node=node)

+def register(linter):

+ """required method to auto register this checker """

+ linter.register_checker(TypeChecker(linter))

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