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# pylint: disable=missing-docstring,too-few-public-methods,wrong-import-position,use-dict-literal
# pylint: disable=wrong-import-order, undefined-variable
REVISION = None
REVISION() # [not-callable]
def correct():
return 1
REVISION = correct()
class Correct:
"""callable object"""
class MetaCorrect:
"""callable object"""
def __call__(self):
return self
INSTANCE = Correct()
CALLABLE_INSTANCE = MetaCorrect()
CORRECT = CALLABLE_INSTANCE()
INCORRECT = INSTANCE() # [not-callable]
LIST = []
INCORRECT = LIST() # [not-callable]
DICT = {}
INCORRECT = DICT() # [not-callable]
TUPLE = ()
INCORRECT = TUPLE() # [not-callable]
INT = 1
INCORRECT = INT() # [not-callable]
# Test calling properties. Pylint can detect when using only the
# getter, but it doesn't infer properly when having a getter
# and a setter.
class MyProperty(property):
""" test subclasses """
class PropertyTest:
""" class """
def __init__(self):
self.attr = 4
@property
def test(self):
""" Get the attribute """
return self.attr
@test.setter
def test(self, value):
""" Set the attribute """
self.attr = value
@MyProperty
def custom(self):
""" Get the attribute """
return self.attr
@custom.setter
def custom(self, value):
""" Set the attribute """
self.attr = value
PROP = PropertyTest()
PROP.test(40) # [not-callable]
PROP.custom() # [not-callable]
# Safe from not-callable when using properties.
class SafeProperty:
@property
def static(self):
return staticmethod
@property
def klass(self):
return classmethod
@property
def get_lambda(self):
return lambda: None
@property
def other_function(self):
def function(arg):
return arg
return function
@property
def dict_builtin(self):
return dict
@property
def range_builtin(self):
return range
@property
def instance(self):
class Empty:
def __call__(self):
return 42
return Empty()
@property
def does_not_make_sense(self):
raise NotImplementedError
PROP1 = SafeProperty()
PROP1.static(2)
PROP1.klass(2)
PROP1.get_lambda()
PROP1.other_function(4)
PROP1.dict_builtin()
PROP1.range_builtin(4)
PROP1.instance()
PROP1.does_not_make_sense()
import missing # pylint: disable=import-error
class UnknownBaseCallable(missing.Blah):
pass
UnknownBaseCallable()()
# Regression test for #4426
# If property is inferable we shouldn't double emit the message
# See: https://github.com/pylint-dev/pylint/issues/4426
class ClassWithProperty:
@property
def value(self):
return 42
CLASS_WITH_PROP = ClassWithProperty().value() # [not-callable]
# Test typing.Namedtuple is callable
# See: https://github.com/pylint-dev/pylint/issues/1295
import typing
Named = typing.NamedTuple("Named", [("foo", int), ("bar", int)])
named = Named(1, 2)
# NamedTuple is callable, even if it aliased to an attribute
# See https://github.com/pylint-dev/pylint/issues/1730
class TestNamedTuple:
def __init__(self, field: str) -> None:
self.my_tuple = typing.NamedTuple("Tuple", [(field, int)])
self.item: self.my_tuple
def set_item(self, item: int) -> None:
self.item = self.my_tuple(item)
# Test descriptor call
def func():
pass
class ADescriptor:
def __get__(self, instance, owner):
return func
class AggregateCls:
a = ADescriptor()
AggregateCls().a()
# Make sure not-callable isn't raised for descriptors
# astroid can't process descriptors correctly so
# pylint needs to ignore not-callable for them
# right now
# Test for https://github.com/pylint-dev/pylint/issues/1699
import multiprocessing
multiprocessing.current_process()
# Make sure not-callable isn't raised for uninferable properties
class MyClass:
@property
def call(self):
return undefined
a = A()
a.call()
# Make sure the callable check does not crash when a node's parent cannot be determined.
def get_number(arg):
return 2 * arg
get_number(10)() # [not-callable]
class Klass:
def __init__(self):
self._x = None
@property
def myproperty(self):
if self._x is None:
self._x = lambda: None
return self._x
myobject = Klass()
myobject.myproperty()
class Klass2:
@property
def something(self):
if __file__.startswith('s'):
return str
return 'abcd'
obj2 = Klass2()
obj2.something()
# Regression test for https://github.com/pylint-dev/pylint/issues/7109
instance_or_cls = MyClass # pylint:disable=invalid-name
instance_or_cls = MyClass()
if not isinstance(instance_or_cls, MyClass):
new = MyClass.__new__(instance_or_cls)
new()
# Regression test for https://github.com/pylint-dev/pylint/issues/5113.
# Do not emit `not-callable`.
ATTRIBUTES = {
'DOMAIN': ("domain", str),
'IMAGE': ("image", bytes),
}
for key, (name, validate) in ATTRIBUTES.items():
name = validate(1)
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