cpython/Lib/test/test_funcattrs.py

370 lines
8.3 KiB
Python

from test.test_support import verbose, TestFailed, verify
import types
class F:
def a(self):
pass
def b():
'my docstring'
pass
# __module__ is a special attribute
verify(b.__module__ == __name__)
verify(verify.__module__ == "test.test_support")
# setting attributes on functions
try:
b.publish
except AttributeError: pass
else: raise TestFailed('expected AttributeError')
if b.__dict__ != {}:
raise TestFailed('expected unassigned func.__dict__ to be {}')
b.publish = 1
if b.publish != 1:
raise TestFailed('function attribute not set to expected value')
docstring = 'its docstring'
b.__doc__ = docstring
if b.__doc__ != docstring:
raise TestFailed('problem with setting __doc__ attribute')
if 'publish' not in dir(b):
raise TestFailed('attribute not in dir()')
try:
del b.__dict__
except TypeError: pass
else: raise TestFailed('del func.__dict__ expected TypeError')
b.publish = 1
try:
b.__dict__ = None
except TypeError: pass
else: raise TestFailed('func.__dict__ = None expected TypeError')
d = {'hello': 'world'}
b.__dict__ = d
if b.__dict__ is not d:
raise TestFailed('func.__dict__ assignment to dictionary failed')
if b.hello != 'world':
raise TestFailed('attribute after func.__dict__ assignment failed')
f1 = F()
f2 = F()
try:
F.a.publish
except AttributeError: pass
else: raise TestFailed('expected AttributeError')
try:
f1.a.publish
except AttributeError: pass
else: raise TestFailed('expected AttributeError')
# In Python 2.1 beta 1, we disallowed setting attributes on unbound methods
# (it was already disallowed on bound methods). See the PEP for details.
# In Python 3.0 unbound methods are gone.
F.a.publish = 1
if F.a.publish != 1:
raise TestFailed('unbound method attribute not set to expected value')
if f1.a.publish != 1:
raise TestFailed('bound method attribute access did not work')
if f2.a.publish != 1:
raise TestFailed('bound method attribute access did not work')
if 'publish' not in dir(F.a):
raise TestFailed('attribute not in dir()')
try:
f1.a.publish = 0
except (AttributeError, TypeError): pass
else: raise TestFailed('expected AttributeError or TypeError')
# try setting __dict__
F.a.__dict__ = {'one': 11, 'two': 22, 'three': 33}
if f1.a.two != 22:
raise TestFailed('setting __dict__')
from UserDict import UserDict
d = UserDict({'four': 44, 'five': 55})
try:
F.a.__dict__ = d
except (AttributeError, TypeError): pass
else: raise TestFailed
if f2.a.one != f1.a.one != F.a.one != 11:
raise TestFailed
# __func__ may not be a Python method!
import types
F.id = id
eff = F()
eff.id = types.MethodType(id, eff)
if eff.id() != id(eff):
raise TestFailed
try:
F.id.foo
except AttributeError: pass
else: raise TestFailed
try:
F.id.foo = 12
except (AttributeError, TypeError): pass
else: raise TestFailed
try:
F.id.foo
except AttributeError: pass
else: raise TestFailed
try:
eff.id.foo
except AttributeError: pass
else: raise TestFailed
try:
eff.id.foo = 12
except (AttributeError, TypeError): pass
else: raise TestFailed
try:
eff.id.foo
except AttributeError: pass
else: raise TestFailed
# Regression test for a crash in pre-2.1a1
def another():
pass
try:
del another.__dict__
except TypeError: pass
else: raise TestFailed
try:
del another.__dict__
except TypeError: pass
else: raise TestFailed
try:
another.__dict__ = None
except TypeError: pass
else: raise TestFailed
try:
del another.bar
except AttributeError: pass
else: raise TestFailed
# This isn't specifically related to function attributes, but it does test a
# core dump regression in funcobject.c
del another.__defaults__
def foo():
pass
def bar():
pass
def temp():
print(1)
if foo==bar:
raise TestFailed
d={}
d[foo] = 1
foo.__code__ = temp.__code__
d[foo]
# Test all predefined function attributes systematically
def cantset(obj, name, value, exception=(AttributeError, TypeError)):
verify(hasattr(obj, name)) # Otherwise it's probably a typo
try:
setattr(obj, name, value)
except exception:
pass
else:
raise TestFailed("shouldn't be able to set %s to %r" % (name, value))
try:
delattr(obj, name)
except (AttributeError, TypeError):
pass
else:
raise TestFailed("shouldn't be able to del %s" % name)
def test_func_closure():
a = 12
def f(): print(a)
c = f.__closure__
verify(isinstance(c, tuple))
verify(len(c) == 1)
verify(c[0].__class__.__name__ == "cell") # don't have a type object handy
cantset(f, "__closure__", c)
def test_empty_cell():
def f(): print(a)
try:
f.__closure__[0].cell_contents
except ValueError:
pass
else:
raise TestFailed("shouldn't be able to read an empty cell")
a = 12
def test_func_doc():
def f(): pass
verify(f.__doc__ is None)
f.__doc__ = "hello"
verify(f.__doc__ == "hello")
del f.__doc__
verify(f.__doc__ is None)
def test_func_globals():
def f(): pass
verify(f.__globals__ is globals())
cantset(f, "__globals__", globals())
def test_func_name():
def f(): pass
verify(f.__name__ == "f")
f.__name__ = "g"
verify(f.__name__ == "g")
cantset(f, "__globals__", 1)
cantset(f, "__name__", 1)
# test that you can access func.__name__ in restricted mode
s = """def f(): pass\nf.__name__"""
exec(s, {'__builtins__':{}})
def test_func_code():
a = b = 24
def f(): pass
def g(): print(12)
def f1(): print(a)
def g1(): print(b)
def f2(): print(a, b)
verify(type(f.__code__) is types.CodeType)
f.__code__ = g.__code__
cantset(f, "__code__", None)
# can't change the number of free vars
cantset(f, "__code__", f1.__code__, exception=ValueError)
cantset(f1, "__code__", f.__code__, exception=ValueError)
cantset(f1, "__code__", f2.__code__, exception=ValueError)
f1.__code__ = g1.__code__
def test_func_defaults():
def f(a, b): return (a, b)
verify(f.__defaults__ is None)
f.__defaults__ = (1, 2)
verify(f.__defaults__ == (1, 2))
verify(f(10) == (10, 2))
def g(a=1, b=2): return (a, b)
verify(g.__defaults__ == (1, 2))
del g.__defaults__
verify(g.__defaults__ is None)
try:
g()
except TypeError:
pass
else:
raise TestFailed("shouldn't be allowed to call g() w/o defaults")
def test_func_dict():
def f(): pass
a = f.__dict__
verify(a == {})
f.hello = 'world'
verify(a == {'hello': 'world'})
verify(a is f.__dict__)
f.__dict__ = {'world': 'hello'}
verify(f.world == "hello")
verify(f.__dict__ == {'world': 'hello'})
cantset(f, "__dict__", None)
def test___self__():
class C:
def foo(self): pass
#verify(C.foo.__self__.__class__ is C)
verify(C().foo.__self__.__class__ is C)
#cantset(C.foo, "__self__.__class__", C)
cantset(C().foo, "__self__.__class__", C)
def test___func__():
def foo(self): pass
class C:
pass
C.foo = foo
#verify(C.foo.__func__ is foo)
verify(C().foo.__func__ is foo)
#cantset(C.foo, "__func__", foo)
cantset(C().foo, "__func__", foo)
def test___self__():
class C:
def foo(self): pass
#verify(C.foo.__self__ is None)
c = C()
#verify(c.foo.__self__ is c)
#cantset(C.foo, "__self__", None)
#cantset(c.foo, "__self__", c)
def test_im_dict():
class C:
def foo(self): pass
foo.bar = 42
verify(C.foo.__dict__ == {'bar': 42})
verify(C().foo.__dict__ == {'bar': 42})
#cantset(C.foo, "__dict__", C.foo.__dict__)
#cantset(C().foo, "__dict__", C.foo.__dict__)
def test_im_doc():
class C:
def foo(self): "hello"
verify(C.foo.__doc__ == "hello")
verify(C().foo.__doc__ == "hello")
#cantset(C.foo, "__doc__", "hello")
#cantset(C().foo, "__doc__", "hello")
def test_im_name():
class C:
def foo(self): pass
verify(C.foo.__name__ == "foo")
verify(C().foo.__name__ == "foo")
#cantset(C.foo, "__name__", "foo")
#cantset(C().foo, "__name__", "foo")
def testmore():
test_func_closure()
test_empty_cell()
test_func_doc()
test_func_globals()
test_func_name()
test_func_code()
test_func_defaults()
test_func_dict()
# Tests for instance method attributes
test___self__()
test___func__()
test___self__()
test_im_dict()
test_im_doc()
test_im_name()
testmore()