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from pyflakes import messages as m
from pyflakes.checker import (
FutureImportation,
Importation,
ImportationFrom,
StarImportation,
SubmoduleImportation,
)
from pyflakes.test.harness import TestCase, skip
class TestImportationObject(TestCase):
def test_import_basic(self):
binding = Importation('a', None, 'a')
assert binding.source_statement == 'import a'
assert str(binding) == 'a'
def test_import_as(self):
binding = Importation('c', None, 'a')
assert binding.source_statement == 'import a as c'
assert str(binding) == 'a as c'
def test_import_submodule(self):
binding = SubmoduleImportation('a.b', None)
assert binding.source_statement == 'import a.b'
assert str(binding) == 'a.b'
def test_import_submodule_as(self):
# A submodule import with an as clause is not a SubmoduleImportation
binding = Importation('c', None, 'a.b')
assert binding.source_statement == 'import a.b as c'
assert str(binding) == 'a.b as c'
def test_import_submodule_as_source_name(self):
binding = Importation('a', None, 'a.b')
assert binding.source_statement == 'import a.b as a'
assert str(binding) == 'a.b as a'
def test_importfrom_relative(self):
binding = ImportationFrom('a', None, '.', 'a')
assert binding.source_statement == 'from . import a'
assert str(binding) == '.a'
def test_importfrom_relative_parent(self):
binding = ImportationFrom('a', None, '..', 'a')
assert binding.source_statement == 'from .. import a'
assert str(binding) == '..a'
def test_importfrom_relative_with_module(self):
binding = ImportationFrom('b', None, '..a', 'b')
assert binding.source_statement == 'from ..a import b'
assert str(binding) == '..a.b'
def test_importfrom_relative_with_module_as(self):
binding = ImportationFrom('c', None, '..a', 'b')
assert binding.source_statement == 'from ..a import b as c'
assert str(binding) == '..a.b as c'
def test_importfrom_member(self):
binding = ImportationFrom('b', None, 'a', 'b')
assert binding.source_statement == 'from a import b'
assert str(binding) == 'a.b'
def test_importfrom_submodule_member(self):
binding = ImportationFrom('c', None, 'a.b', 'c')
assert binding.source_statement == 'from a.b import c'
assert str(binding) == 'a.b.c'
def test_importfrom_member_as(self):
binding = ImportationFrom('c', None, 'a', 'b')
assert binding.source_statement == 'from a import b as c'
assert str(binding) == 'a.b as c'
def test_importfrom_submodule_member_as(self):
binding = ImportationFrom('d', None, 'a.b', 'c')
assert binding.source_statement == 'from a.b import c as d'
assert str(binding) == 'a.b.c as d'
def test_importfrom_star(self):
binding = StarImportation('a.b', None)
assert binding.source_statement == 'from a.b import *'
assert str(binding) == 'a.b.*'
def test_importfrom_star_relative(self):
binding = StarImportation('.b', None)
assert binding.source_statement == 'from .b import *'
assert str(binding) == '.b.*'
def test_importfrom_future(self):
binding = FutureImportation('print_function', None, None)
assert binding.source_statement == 'from __future__ import print_function'
assert str(binding) == '__future__.print_function'
def test_unusedImport_underscore(self):
"""
The magic underscore var should be reported as unused when used as an
import alias.
"""
self.flakes('import fu as _', m.UnusedImport)
class Test(TestCase):
def test_unusedImport(self):
self.flakes('import fu, bar', m.UnusedImport, m.UnusedImport)
self.flakes('from baz import fu, bar', m.UnusedImport, m.UnusedImport)
def test_unusedImport_relative(self):
self.flakes('from . import fu', m.UnusedImport)
self.flakes('from . import fu as baz', m.UnusedImport)
self.flakes('from .. import fu', m.UnusedImport)
self.flakes('from ... import fu', m.UnusedImport)
self.flakes('from .. import fu as baz', m.UnusedImport)
self.flakes('from .bar import fu', m.UnusedImport)
self.flakes('from ..bar import fu', m.UnusedImport)
self.flakes('from ...bar import fu', m.UnusedImport)
self.flakes('from ...bar import fu as baz', m.UnusedImport)
checker = self.flakes('from . import fu', m.UnusedImport)
error = checker.messages[0]
assert error.message == '%r imported but unused'
assert error.message_args == ('.fu', )
checker = self.flakes('from . import fu as baz', m.UnusedImport)
error = checker.messages[0]
assert error.message == '%r imported but unused'
assert error.message_args == ('.fu as baz', )
def test_aliasedImport(self):
self.flakes('import fu as FU, bar as FU',
m.RedefinedWhileUnused, m.UnusedImport)
self.flakes('from moo import fu as FU, bar as FU',
m.RedefinedWhileUnused, m.UnusedImport)
def test_aliasedImportShadowModule(self):
"""Imported aliases can shadow the source of the import."""
self.flakes('from moo import fu as moo; moo')
self.flakes('import fu as fu; fu')
self.flakes('import fu.bar as fu; fu')
def test_usedImport(self):
self.flakes('import fu; print(fu)')
self.flakes('from baz import fu; print(fu)')
self.flakes('import fu; del fu')
def test_usedImport_relative(self):
self.flakes('from . import fu; assert fu')
self.flakes('from .bar import fu; assert fu')
self.flakes('from .. import fu; assert fu')
self.flakes('from ..bar import fu as baz; assert baz')
def test_redefinedWhileUnused(self):
self.flakes('import fu; fu = 3', m.RedefinedWhileUnused)
self.flakes('import fu; fu, bar = 3', m.RedefinedWhileUnused)
self.flakes('import fu; [fu, bar] = 3', m.RedefinedWhileUnused)
def test_redefinedIf(self):
"""
Test that importing a module twice within an if
block does raise a warning.
"""
self.flakes('''
i = 2
if i==1:
import os
import os
os.path''', m.RedefinedWhileUnused)
def test_redefinedIfElse(self):
"""
Test that importing a module twice in if
and else blocks does not raise a warning.
"""
self.flakes('''
i = 2
if i==1:
import os
else:
import os
os.path''')
def test_redefinedTry(self):
"""
Test that importing a module twice in a try block
does raise a warning.
"""
self.flakes('''
try:
import os
import os
except:
pass
os.path''', m.RedefinedWhileUnused)
def test_redefinedTryExcept(self):
"""
Test that importing a module twice in a try
and except block does not raise a warning.
"""
self.flakes('''
try:
import os
except:
import os
os.path''')
def test_redefinedTryNested(self):
"""
Test that importing a module twice using a nested
try/except and if blocks does not issue a warning.
"""
self.flakes('''
try:
if True:
if True:
import os
except:
import os
os.path''')
def test_redefinedTryExceptMulti(self):
self.flakes("""
try:
from aa import mixer
except AttributeError:
from bb import mixer
except RuntimeError:
from cc import mixer
except:
from dd import mixer
mixer(123)
""")
def test_redefinedTryElse(self):
self.flakes("""
try:
from aa import mixer
except ImportError:
pass
else:
from bb import mixer
mixer(123)
""", m.RedefinedWhileUnused)
def test_redefinedTryExceptElse(self):
self.flakes("""
try:
import funca
except ImportError:
from bb import funca
from bb import funcb
else:
from bbb import funcb
print(funca, funcb)
""")
def test_redefinedTryExceptFinally(self):
self.flakes("""
try:
from aa import a
except ImportError:
from bb import a
finally:
a = 42
print(a)
""")
def test_redefinedTryExceptElseFinally(self):
self.flakes("""
try:
import b
except ImportError:
b = Ellipsis
from bb import a
else:
from aa import a
finally:
a = 42
print(a, b)
""")
def test_redefinedByFunction(self):
self.flakes('''
import fu
def fu():
pass
''', m.RedefinedWhileUnused)
def test_redefinedInNestedFunction(self):
"""
Test that shadowing a global name with a nested function definition
generates a warning.
"""
self.flakes('''
import fu
def bar():
def baz():
def fu():
pass
''', m.RedefinedWhileUnused, m.UnusedImport)
def test_redefinedInNestedFunctionTwice(self):
"""
Test that shadowing a global name with a nested function definition
generates a warning.
"""
self.flakes('''
import fu
def bar():
import fu
def baz():
def fu():
pass
''',
m.RedefinedWhileUnused, m.RedefinedWhileUnused,
m.UnusedImport, m.UnusedImport)
def test_redefinedButUsedLater(self):
"""
Test that a global import which is redefined locally,
but used later in another scope does not generate a warning.
"""
self.flakes('''
import unittest, transport
class GetTransportTestCase(unittest.TestCase):
def test_get_transport(self):
transport = 'transport'
self.assertIsNotNone(transport)
class TestTransportMethodArgs(unittest.TestCase):
def test_send_defaults(self):
transport.Transport()
''')
def test_redefinedByClass(self):
self.flakes('''
import fu
class fu:
pass
''', m.RedefinedWhileUnused)
def test_redefinedBySubclass(self):
"""
If an imported name is redefined by a class statement which also uses
that name in the bases list, no warning is emitted.
"""
self.flakes('''
from fu import bar
class bar(bar):
pass
''')
def test_redefinedInClass(self):
"""
Test that shadowing a global with a class attribute does not produce a
warning.
"""
self.flakes('''
import fu
class bar:
fu = 1
print(fu)
''')
def test_importInClass(self):
"""
Test that import within class is a locally scoped attribute.
"""
self.flakes('''
class bar:
import fu
''')
self.flakes('''
class bar:
import fu
fu
''', m.UndefinedName)
def test_usedInFunction(self):
self.flakes('''
import fu
def fun():
print(fu)
''')
def test_shadowedByParameter(self):
self.flakes('''
import fu
def fun(fu):
print(fu)
''', m.UnusedImport, m.RedefinedWhileUnused)
self.flakes('''
import fu
def fun(fu):
print(fu)
print(fu)
''')
def test_newAssignment(self):
self.flakes('fu = None')
def test_usedInGetattr(self):
self.flakes('import fu; fu.bar.baz')
self.flakes('import fu; "bar".fu.baz', m.UnusedImport)
def test_usedInSlice(self):
self.flakes('import fu; print(fu.bar[1:])')
def test_usedInIfBody(self):
self.flakes('''
import fu
if True: print(fu)
''')
def test_usedInIfConditional(self):
self.flakes('''
import fu
if fu: pass
''')
def test_usedInElifConditional(self):
self.flakes('''
import fu
if False: pass
elif fu: pass
''')
def test_usedInElse(self):
self.flakes('''
import fu
if False: pass
else: print(fu)
''')
def test_usedInCall(self):
self.flakes('import fu; fu.bar()')
def test_usedInClass(self):
self.flakes('''
import fu
class bar:
bar = fu
''')
def test_usedInClassBase(self):
self.flakes('''
import fu
class bar(object, fu.baz):
pass
''')
def test_notUsedInNestedScope(self):
self.flakes('''
import fu
def bleh():
pass
print(fu)
''')
def test_usedInFor(self):
self.flakes('''
import fu
for bar in range(9):
print(fu)
''')
def test_usedInForElse(self):
self.flakes('''
import fu
for bar in range(10):
pass
else:
print(fu)
''')
def test_redefinedByFor(self):
self.flakes('''
import fu
for fu in range(2):
pass
''', m.ImportShadowedByLoopVar)
def test_shadowedByFor(self):
"""
Test that shadowing a global name with a for loop variable generates a
warning.
"""
self.flakes('''
import fu
fu.bar()
for fu in ():
pass
''', m.ImportShadowedByLoopVar)
def test_shadowedByForDeep(self):
"""
Test that shadowing a global name with a for loop variable nested in a
tuple unpack generates a warning.
"""
self.flakes('''
import fu
fu.bar()
for (x, y, z, (a, b, c, (fu,))) in ():
pass
''', m.ImportShadowedByLoopVar)
# Same with a list instead of a tuple
self.flakes('''
import fu
fu.bar()
for [x, y, z, (a, b, c, (fu,))] in ():
pass
''', m.ImportShadowedByLoopVar)
def test_usedInReturn(self):
self.flakes('''
import fu
def fun():
return fu
''')
def test_usedInOperators(self):
self.flakes('import fu; 3 + fu.bar')
self.flakes('import fu; 3 % fu.bar')
self.flakes('import fu; 3 - fu.bar')
self.flakes('import fu; 3 * fu.bar')
self.flakes('import fu; 3 ** fu.bar')
self.flakes('import fu; 3 / fu.bar')
self.flakes('import fu; 3 // fu.bar')
self.flakes('import fu; -fu.bar')
self.flakes('import fu; ~fu.bar')
self.flakes('import fu; 1 == fu.bar')
self.flakes('import fu; 1 | fu.bar')
self.flakes('import fu; 1 & fu.bar')
self.flakes('import fu; 1 ^ fu.bar')
self.flakes('import fu; 1 >> fu.bar')
self.flakes('import fu; 1 << fu.bar')
def test_usedInAssert(self):
self.flakes('import fu; assert fu.bar')
def test_usedInSubscript(self):
self.flakes('import fu; fu.bar[1]')
def test_usedInLogic(self):
self.flakes('import fu; fu and False')
self.flakes('import fu; fu or False')
self.flakes('import fu; not fu.bar')
def test_usedInList(self):
self.flakes('import fu; [fu]')
def test_usedInTuple(self):
self.flakes('import fu; (fu,)')
def test_usedInTry(self):
self.flakes('''
import fu
try: fu
except: pass
''')
def test_usedInExcept(self):
self.flakes('''
import fu
try: fu
except: pass
''')
def test_redefinedByExcept(self):
expected = [m.RedefinedWhileUnused]
# The exc variable is unused inside the exception handler.
expected.append(m.UnusedVariable)
self.flakes('''
import fu
try: pass
except Exception as fu: pass
''', *expected)
def test_usedInRaise(self):
self.flakes('''
import fu
raise fu.bar
''')
def test_usedInYield(self):
self.flakes('''
import fu
def gen():
yield fu
''')
def test_usedInDict(self):
self.flakes('import fu; {fu:None}')
self.flakes('import fu; {1:fu}')
def test_usedInParameterDefault(self):
self.flakes('''
import fu
def f(bar=fu):
pass
''')
def test_usedInAttributeAssign(self):
self.flakes('import fu; fu.bar = 1')
def test_usedInKeywordArg(self):
self.flakes('import fu; fu.bar(stuff=fu)')
def test_usedInAssignment(self):
self.flakes('import fu; bar=fu')
self.flakes('import fu; n=0; n+=fu')
def test_usedInListComp(self):
self.flakes('import fu; [fu for _ in range(1)]')
self.flakes('import fu; [1 for _ in range(1) if fu]')
def test_usedInTryFinally(self):
self.flakes('''
import fu
try: pass
finally: fu
''')
self.flakes('''
import fu
try: fu
finally: pass
''')
def test_usedInWhile(self):
self.flakes('''
import fu
while 0:
fu
''')
self.flakes('''
import fu
while fu: pass
''')
def test_usedInGlobal(self):
"""
A 'global' statement shadowing an unused import should not prevent it
from being reported.
"""
self.flakes('''
import fu
def f(): global fu
''', m.UnusedImport)
def test_usedAndGlobal(self):
"""
A 'global' statement shadowing a used import should not cause it to be
reported as unused.
"""
self.flakes('''
import foo
def f(): global foo
def g(): foo.is_used()
''')
def test_assignedToGlobal(self):
"""
Binding an import to a declared global should not cause it to be
reported as unused.
"""
self.flakes('''
def f(): global foo; import foo
def g(): foo.is_used()
''')
def test_usedInExec(self):
exec_stmt = 'exec("print(1)", fu.bar)'
self.flakes('import fu; %s' % exec_stmt)
def test_usedInLambda(self):
self.flakes('import fu; lambda: fu')
def test_shadowedByLambda(self):
self.flakes('import fu; lambda fu: fu',
m.UnusedImport, m.RedefinedWhileUnused)
self.flakes('import fu; lambda fu: fu\nfu()')
def test_usedInSliceObj(self):
self.flakes('import fu; "meow"[::fu]')
def test_unusedInNestedScope(self):
self.flakes('''
def bar():
import fu
fu
''', m.UnusedImport, m.UndefinedName)
def test_methodsDontUseClassScope(self):
self.flakes('''
class bar:
import fu
def fun(self):
fu
''', m.UndefinedName)
def test_nestedFunctionsNestScope(self):
self.flakes('''
def a():
def b():
fu
import fu
''')
def test_nestedClassAndFunctionScope(self):
self.flakes('''
def a():
import fu
class b:
def c(self):
print(fu)
''')
def test_importStar(self):
"""Use of import * at module level is reported."""
self.flakes('from fu import *', m.ImportStarUsed, m.UnusedImport)
self.flakes('''
try:
from fu import *
except:
pass
''', m.ImportStarUsed, m.UnusedImport)
checker = self.flakes('from fu import *',
m.ImportStarUsed, m.UnusedImport)
error = checker.messages[0]
assert error.message.startswith("'from %s import *' used; unable ")
assert error.message_args == ('fu', )
error = checker.messages[1]
assert error.message == '%r imported but unused'
assert error.message_args == ('fu.*', )
def test_importStar_relative(self):
"""Use of import * from a relative import is reported."""
self.flakes('from .fu import *', m.ImportStarUsed, m.UnusedImport)
self.flakes('''
try:
from .fu import *
except:
pass
''', m.ImportStarUsed, m.UnusedImport)
checker = self.flakes('from .fu import *',
m.ImportStarUsed, m.UnusedImport)
error = checker.messages[0]
assert error.message.startswith("'from %s import *' used; unable ")
assert error.message_args == ('.fu', )
error = checker.messages[1]
assert error.message == '%r imported but unused'
assert error.message_args == ('.fu.*', )
checker = self.flakes('from .. import *',
m.ImportStarUsed, m.UnusedImport)
error = checker.messages[0]
assert error.message.startswith("'from %s import *' used; unable ")
assert error.message_args == ('..', )
error = checker.messages[1]
assert error.message == '%r imported but unused'
assert error.message_args == ('from .. import *', )
def test_localImportStar(self):
"""import * is only allowed at module level."""
self.flakes('''
def a():
from fu import *
''', m.ImportStarNotPermitted)
self.flakes('''
class a:
from fu import *
''', m.ImportStarNotPermitted)
checker = self.flakes('''
class a:
from .. import *
''', m.ImportStarNotPermitted)
error = checker.messages[0]
assert error.message == "'from %s import *' only allowed at module level"
assert error.message_args == ('..', )
def test_packageImport(self):
"""
If a dotted name is imported and used, no warning is reported.
"""
self.flakes('''
import fu.bar
fu.bar
''')
def test_unusedPackageImport(self):
"""
If a dotted name is imported and not used, an unused import warning is
reported.
"""
self.flakes('import fu.bar', m.UnusedImport)
def test_duplicateSubmoduleImport(self):
"""
If a submodule of a package is imported twice, an unused import warning
and a redefined while unused warning are reported.
"""
self.flakes('''
import fu.bar, fu.bar
fu.bar
''', m.RedefinedWhileUnused)
self.flakes('''
import fu.bar
import fu.bar
fu.bar
''', m.RedefinedWhileUnused)
def test_differentSubmoduleImport(self):
"""
If two different submodules of a package are imported, no duplicate
import warning is reported for the package.
"""
self.flakes('''
import fu.bar, fu.baz
fu.bar, fu.baz
''')
self.flakes('''
import fu.bar
import fu.baz
fu.bar, fu.baz
''')
def test_used_package_with_submodule_import(self):
"""
Usage of package marks submodule imports as used.
"""
self.flakes('''
import fu
import fu.bar
fu.x
''')
self.flakes('''
import fu.bar
import fu
fu.x
''')
def test_used_package_with_submodule_import_of_alias(self):
"""
Usage of package by alias marks submodule imports as used.
"""
self.flakes('''
import foo as f
import foo.bar
f.bar.do_something()
''')
self.flakes('''
import foo as f
import foo.bar.blah
f.bar.blah.do_something()
''')
def test_unused_package_with_submodule_import(self):
"""
When a package and its submodule are imported, only report once.
"""
checker = self.flakes('''
import fu
import fu.bar
''', m.UnusedImport)
error = checker.messages[0]
assert error.message == '%r imported but unused'
assert error.message_args == ('fu.bar', )
assert error.lineno == 5 if self.withDoctest else 3
def test_assignRHSFirst(self):
self.flakes('import fu; fu = fu')
self.flakes('import fu; fu, bar = fu')
self.flakes('import fu; [fu, bar] = fu')
self.flakes('import fu; fu += fu')
def test_tryingMultipleImports(self):
self.flakes('''
try:
import fu
except ImportError:
import bar as fu
fu
''')
def test_nonGlobalDoesNotRedefine(self):
self.flakes('''
import fu
def a():
fu = 3
return fu
fu
''')
def test_functionsRunLater(self):
self.flakes('''
def a():
fu
import fu
''')
def test_functionNamesAreBoundNow(self):
self.flakes('''
import fu
def fu():
fu
fu
''', m.RedefinedWhileUnused)
def test_ignoreNonImportRedefinitions(self):
self.flakes('a = 1; a = 2')
@skip("todo")
def test_importingForImportError(self):
self.flakes('''
try:
import fu
except ImportError:
pass
''')
def test_importedInClass(self):
"""Imports in class scope can be used through self."""
self.flakes('''
class c:
import i
def __init__(self):
self.i
''')
def test_importUsedInMethodDefinition(self):
"""
Method named 'foo' with default args referring to module named 'foo'.
"""
self.flakes('''
import foo
class Thing(object):
def foo(self, parser=foo.parse_foo):
pass
''')
def test_futureImport(self):
"""__future__ is special."""
self.flakes('from __future__ import division')
self.flakes('''
"docstring is allowed before future import"
from __future__ import division
''')
def test_futureImportFirst(self):
"""
__future__ imports must come before anything else.
"""
self.flakes('''
x = 5
from __future__ import division
''', m.LateFutureImport)
self.flakes('''
from foo import bar
from __future__ import division
bar
''', m.LateFutureImport)
def test_futureImportUsed(self):
"""__future__ is special, but names are injected in the namespace."""
self.flakes('''
from __future__ import division
from __future__ import print_function
assert print_function is not division
''')
def test_futureImportUndefined(self):
"""Importing undefined names from __future__ fails."""
self.flakes('''
from __future__ import print_statement
''', m.FutureFeatureNotDefined)
def test_futureImportStar(self):
"""Importing '*' from __future__ fails."""
self.flakes('''
from __future__ import *
''', m.FutureFeatureNotDefined)
class TestSpecialAll(TestCase):
"""
Tests for suppression of unused import warnings by C{__all__}.
"""
def test_ignoredInFunction(self):
"""
An C{__all__} definition does not suppress unused import warnings in a
function scope.
"""
self.flakes('''
def foo():
import bar
__all__ = ["bar"]
''', m.UnusedImport, m.UnusedVariable)
def test_ignoredInClass(self):
"""
An C{__all__} definition in a class does not suppress unused import warnings.
"""
self.flakes('''
import bar
class foo:
__all__ = ["bar"]
''', m.UnusedImport)
def test_ignored_when_not_directly_assigned(self):
self.flakes('''
import bar
(__all__,) = ("foo",)
''', m.UnusedImport)
def test_warningSuppressed(self):
"""
If a name is imported and unused but is named in C{__all__}, no warning
is reported.
"""
self.flakes('''
import foo
__all__ = ["foo"]
''')
self.flakes('''
import foo
__all__ = ("foo",)
''')
def test_augmentedAssignment(self):
"""
The C{__all__} variable is defined incrementally.
"""
self.flakes('''
import a
import c
__all__ = ['a']
__all__ += ['b']
if 1 < 3:
__all__ += ['c', 'd']
''', m.UndefinedExport, m.UndefinedExport)
def test_list_concatenation_assignment(self):
"""
The C{__all__} variable is defined through list concatenation.
"""
self.flakes('''
import sys
__all__ = ['a'] + ['b'] + ['c']
''', m.UndefinedExport, m.UndefinedExport, m.UndefinedExport, m.UnusedImport)
def test_tuple_concatenation_assignment(self):
"""
The C{__all__} variable is defined through tuple concatenation.
"""
self.flakes('''
import sys
__all__ = ('a',) + ('b',) + ('c',)
''', m.UndefinedExport, m.UndefinedExport, m.UndefinedExport, m.UnusedImport)
def test_all_with_attributes(self):
self.flakes('''
from foo import bar
__all__ = [bar.__name__]
''')
def test_all_with_names(self):
# not actually valid, but shouldn't produce a crash
self.flakes('''
from foo import bar
__all__ = [bar]
''')
def test_all_with_attributes_added(self):
self.flakes('''
from foo import bar
from bar import baz
__all__ = [bar.__name__] + [baz.__name__]
''')
def test_all_mixed_attributes_and_strings(self):
self.flakes('''
from foo import bar
from foo import baz
__all__ = ['bar', baz.__name__]
''')
def test_unboundExported(self):
"""
If C{__all__} includes a name which is not bound, a warning is emitted.
"""
self.flakes('''
__all__ = ["foo"]
''', m.UndefinedExport)
# Skip this in __init__.py though, since the rules there are a little
# different.
for filename in ["foo/__init__.py", "__init__.py"]:
self.flakes('''
__all__ = ["foo"]
''', filename=filename)
def test_importStarExported(self):
"""
Report undefined if import * is used
"""
self.flakes('''
from math import *
__all__ = ['sin', 'cos']
csc(1)
''', m.ImportStarUsed, m.ImportStarUsage, m.ImportStarUsage, m.ImportStarUsage)
def test_importStarNotExported(self):
"""Report unused import when not needed to satisfy __all__."""
self.flakes('''
from foolib import *
a = 1
__all__ = ['a']
''', m.ImportStarUsed, m.UnusedImport)
def test_usedInGenExp(self):
"""
Using a global in a generator expression results in no warnings.
"""
self.flakes('import fu; (fu for _ in range(1))')
self.flakes('import fu; (1 for _ in range(1) if fu)')
def test_redefinedByGenExp(self):
"""
Re-using a global name as the loop variable for a generator
expression results in a redefinition warning.
"""
self.flakes('import fu; (1 for fu in range(1))',
m.RedefinedWhileUnused, m.UnusedImport)
def test_usedAsDecorator(self):
"""
Using a global name in a decorator statement results in no warnings,
but using an undefined name in a decorator statement results in an
undefined name warning.
"""
self.flakes('''
from interior import decorate
@decorate
def f():
return "hello"
''')
self.flakes('''
from interior import decorate
@decorate('value')
def f():
return "hello"
''')
self.flakes('''
@decorate
def f():
return "hello"
''', m.UndefinedName)
def test_usedAsClassDecorator(self):
"""
Using an imported name as a class decorator results in no warnings,
but using an undefined name as a class decorator results in an
undefined name warning.
"""
self.flakes('''
from interior import decorate
@decorate
class foo:
pass
''')
self.flakes('''
from interior import decorate
@decorate("foo")
class bar:
pass
''')
self.flakes('''
@decorate
class foo:
pass
''', m.UndefinedName)