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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
"""Test descriptors, binary ops, etc.
Made for Jython.
"""
import types
import unittest
from test import test_support
class Old:
pass
class New(object):
pass
old = Old()
new = New()
class TestDescrTestCase(unittest.TestCase):
def test_class_dict_is_copy(self):
class FooMeta(type):
def __new__(meta, name, bases, class_dict):
cls = type.__new__(meta, name, bases, class_dict)
self.assert_('foo' not in class_dict)
cls.foo = 'bar'
self.assert_('foo' not in class_dict)
return cls
class Foo(object):
__metaclass__ = FooMeta
def test_descr___get__(self):
class Foo(object):
__slots__ = 'bar'
def hello(self):
pass
def hi(self):
pass
hi = staticmethod(hi)
foo = Foo()
foo.bar = 'baz'
self.assertEqual(Foo.bar.__get__(foo), 'baz')
self.assertEqual(Foo.bar.__get__(None, Foo), Foo.bar)
bound = Foo.hello.__get__(foo)
self.assert_(isinstance(bound, types.MethodType))
self.assert_(bound.im_self is foo)
self.assertEqual(Foo.hello.__get__(None, Foo), Foo.hello)
bound = Foo.hi.__get__(foo)
self.assert_(isinstance(bound, types.MethodType))
self.assert_(bound.im_self is foo)
unbound = Foo.hi.__get__(None, foo)
self.assert_(isinstance(unbound, types.MethodType))
self.assert_(unbound.im_self is None)
def test_ints(self):
class C(int):
pass
try:
foo = int(None)
except TypeError:
pass
else:
self.assert_(False, "should have raised TypeError")
try:
foo = C(None)
except TypeError:
pass
else:
self.assert_(False, "should have raised TypeError")
def test_raising_custom_attribute_error(self):
class RaisesCustomMsg(object):
def __get__(self, instance, type):
raise AttributeError("Custom message")
class CustomAttributeError(AttributeError): pass
class RaisesCustomErr(object):
def __get__(self, instance, type):
raise CustomAttributeError
class Foo(object):
custom_msg = RaisesCustomMsg()
custom_err = RaisesCustomErr()
self.assertRaises(CustomAttributeError, lambda: Foo().custom_err)
try:
Foo().custom_msg
self.assert_(False) # Previous line should raise AttributteError
except AttributeError, e:
self.assertEquals("Custom message", str(e))
def test_set_without_get(self):
class Descr(object):
def __init__(self, name):
self.name = name
def __set__(self, obj, value):
obj.__dict__[self.name] = value
descr = Descr("a")
class X(object):
a = descr
x = X()
self.assertTrue(x.a is descr)
x.a = 42
self.assertEqual(x.a, 42)
class SubclassDescrTestCase(unittest.TestCase):
def test_subclass_cmp_right_op(self):
# Case 1: subclass of int
class B(int):
def __ge__(self, other):
return "B.__ge__"
def __le__(self, other):
return "B.__le__"
self.assertEqual(B(1) >= 1, "B.__ge__")
self.assertEqual(1 >= B(1), "B.__le__")
# Case 2: subclass of object
class C(object):
def __ge__(self, other):
return "C.__ge__"
def __le__(self, other):
return "C.__le__"
self.assertEqual(C() >= 1, "C.__ge__")
self.assertEqual(1 >= C(), "C.__le__")
# Case 3: subclass of new-style class; here it gets interesting
class D(C):
def __ge__(self, other):
return "D.__ge__"
def __le__(self, other):
return "D.__le__"
self.assertEqual(D() >= C(), "D.__ge__")
self.assertEqual(C() >= D(), "D.__le__")
# Case 4: comparison is different than other binops
class E(C):
pass
self.assertEqual(E.__le__, C.__le__)
self.assertEqual(E() >= 1, "C.__ge__")
self.assertEqual(1 >= E(), "C.__le__")
self.assertEqual(E() >= C(), "C.__ge__")
self.assertEqual(C() >= E(), "C.__le__") # different
def test_subclass_binop(self):
def raises(exc, expected, callable, *args):
try:
callable(*args)
except exc, msg:
if str(msg) != expected:
self.assert_(False, "Message %r, expected %r" % (str(msg),
expected))
else:
self.assert_(False, "Expected %s" % exc)
class B(object):
pass
class C(object):
def __radd__(self, o):
return '%r + C()' % (o,)
def __rmul__(self, o):
return '%r * C()' % (o,)
# Test strs, unicode, lists and tuples
mapping = []
# + binop
mapping.append((lambda o: 'foo' + o,
TypeError, "cannot concatenate 'str' and 'B' objects",
"'foo' + C()"))
# XXX: There's probably work to be done here besides just emulating this
# message
if test_support.is_jython:
mapping.append((lambda o: u'foo' + o,
TypeError, "cannot concatenate 'unicode' and 'B' objects",
"u'foo' + C()"))
else:
mapping.append((lambda o: u'foo' + o,
TypeError,
'coercing to Unicode: need string or buffer, B found',
"u'foo' + C()"))
mapping.append((lambda o: [1, 2] + o,
TypeError, 'can only concatenate list (not "B") to list',
'[1, 2] + C()'))
mapping.append((lambda o: ('foo', 'bar') + o,
TypeError, 'can only concatenate tuple (not "B") to tuple',
"('foo', 'bar') + C()"))
# * binop
mapping.append((lambda o: 'foo' * o,
TypeError, "can't multiply sequence by non-int of type 'B'",
"'foo' * C()"))
mapping.append((lambda o: u'foo' * o,
TypeError, "can't multiply sequence by non-int of type 'B'",
"u'foo' * C()"))
mapping.append((lambda o: [1, 2] * o,
TypeError, "can't multiply sequence by non-int of type 'B'",
'[1, 2] * C()'))
mapping.append((lambda o: ('foo', 'bar') * o,
TypeError, "can't multiply sequence by non-int of type 'B'",
"('foo', 'bar') * C()"))
for func, bexc, bexc_msg, cresult in mapping:
raises(bexc, bexc_msg, lambda : func(B()))
self.assertEqual(func(C()), cresult)
def test_overriding_base_binop(self):
class MulBase(object):
def __init__(self, value):
self.value = value
def __mul__(self, other):
return self.value * other.value
def __rmul__(self, other):
return other.value * self.value
class DoublerBase(MulBase):
def __mul__(self, other):
return 2 * (self.value * other.value)
class AnotherDoubler(DoublerBase):
pass
self.assertEquals(DoublerBase(2) * AnotherDoubler(3), 12)
def test_oldstyle_binop_notimplemented(self):
class Foo:
pass
class Bar(object):
def __radd__(self, other):
return 3
self.assertEqual(Foo() + Bar(), 3)
def test_int_mul(self):
# http://bugs.jython.org/issue1332
class Foo(tuple):
def __rmul__(self, other):
return 'foo'
foo = Foo()
self.assertEqual(3.0 * foo, 'foo')
self.assertEqual(4 * foo, 'foo')
class InPlaceTestCase(unittest.TestCase):
def test_iadd(self):
class Foo(object):
def __add__(self, other):
return 1
def __radd__(self, other):
return 2
class Bar(object):
pass
class Baz(object):
def __iadd__(self, other):
return NotImplemented
foo = Foo()
foo += Bar()
self.assertEqual(foo, 1)
bar = Bar()
bar += Foo()
self.assertEqual(bar, 2)
baz = Baz()
baz += Foo()
self.assertEqual(baz, 2)
def test_imul(self):
class FooInplace(list):
def __imul__(self, other):
return [1]
class Bar(FooInplace):
def __mul__(self, other):
return [2]
foo = FooInplace()
foo *= 3
self.assertEqual(foo, [1])
foo = Bar([3])
foo *= 3
self.assertEqual(foo, [1])
class Baz(FooInplace):
def __mul__(self, other):
return [3]
baz = Baz()
baz *= 3
self.assertEqual(baz, [1])
def test_list(self):
class Foo(list):
def __mul__(self, other):
return [1]
foo = Foo([2])
foo *= 3
if test_support.is_jython:
self.assertEqual(foo, [2, 2, 2])
else:
# CPython ignores list.__imul__ on a subclass with __mul__
# (unlike Jython and PyPy)
self.assertEqual(foo, [1])
class Bar(object):
def __radd__(self, other):
return 1
def __rmul__(self, other):
return 2
l = []
l += Bar()
self.assertEqual(l, 1)
l = []
l *= Bar()
self.assertEqual(l, 2)
def test_iand(self):
# Jython's set __iand__ (as well as isub, ixor, etc) was
# previously broken
class Foo(set):
def __and__(self, other):
return set([1])
foo = Foo()
foo &= 3
self.assertEqual(foo, set([1]))
class DescrExceptionsTestCase(unittest.TestCase):
def test_hex(self):
self._test(hex)
def test_oct(self):
self._test(oct)
def test_other(self):
for op in '-', '+', '~':
try:
eval('%s(old)' % op)
except AttributeError:
pass
else:
self._assert(False, 'Expected an AttributeError, op: %s' % op)
try:
eval('%s(new)' % op)
except TypeError:
pass
else:
self._assert(False, 'Expected a TypeError, op: %s' % op)
def _test(self, func):
self.assertRaises(AttributeError, func, old)
self.assertRaises(TypeError, func, new)
def test_eq(self):
class A(object):
def __eq__(self, other):
return self.value == other.value
self.assertRaises(AttributeError, lambda: A() == A())
class GetAttrTestCase(unittest.TestCase):
def test_raising_custom_attribute_error(self):
# Very similar to
# test_descr_jy.TestDescrTestCase.test_raising_custom_attribute_error
class BarAttributeError(AttributeError): pass
class Bar(object):
def __getattr__(self, name):
raise BarAttributeError
class BarClassic:
def __getattr__(self, name):
raise BarAttributeError
class Foo(object):
def __getattr__(self, name):
raise AttributeError("Custom message")
class FooClassic:
def __getattr__(self, name):
raise AttributeError("Custom message")
self.assertRaises(BarAttributeError, lambda: Bar().x)
self.assertRaises(BarAttributeError, lambda: BarClassic().x)
try:
Foo().x
self.assert_(False) # Previous line should raise AttributteError
except AttributeError, e:
self.assertEquals("Custom message", str(e))
try:
FooClassic().x
self.assert_(False) # Previous line should raise AttributteError
except AttributeError, e:
self.assertEquals("Custom message", str(e))
class Base(object):
def __init__(self, name):
self.name = name
def lookup_where(obj, name):
mro = type(obj).__mro__
for t in mro:
if name in t.__dict__:
return t.__dict__[name], t
return None, None
def refop(x, y, opname, ropname):
# this has been validated by running the tests on top of cpython
# so for the space of possibilities that the tests touch it is known
# to behave like cpython as long as the latter doesn't change its own
# algorithm
t1 = type(x)
t2 = type(y)
op, where1 = lookup_where(x, opname)
rop, where2 = lookup_where(y, ropname)
if op is None and rop is not None:
return rop(y, x)
if rop and where1 is not where2:
if (issubclass(t2, t1) and not issubclass(where1, where2) and
not issubclass(t1, where2)):
return rop(y, x)
if op is None:
return "TypeError"
return op(x,y)
def do_test(X, Y, name, impl):
x = X('x')
y = Y('y')
opname = '__%s__' % name
ropname = '__r%s__' % name
count = [0]
fail = []
def check(z1, z2):
ref = refop(z1, z2, opname, ropname)
try:
v = impl(z1, z2)
except TypeError:
v = "TypeError"
if v != ref:
fail.append(count[0])
def override_in_hier(n=6):
if n == 0:
count[0] += 1
check(x, y)
check(y, x)
return
f = lambda self, other: (n, self.name, other.name)
if n % 2 == 0:
name = opname
else:
name = ropname
for C in Y.__mro__:
if name in C.__dict__:
continue
if C is not object:
setattr(C, name, f)
override_in_hier(n - 1)
if C is not object:
delattr(C, name)
override_in_hier()
#print count[0]
return fail
class BinopCombinationsTestCase(unittest.TestCase):
"""Try to test more exhaustively binop overriding combination
cases"""
def test_binop_combinations_mul(self):
class X(Base):
pass
class Y(X):
pass
fail = do_test(X, Y, 'mul', lambda x, y: x*y)
#print len(fail)
self.assert_(not fail)
def test_binop_combinations_sub(self):
class X(Base):
pass
class Y(X):
pass
fail = do_test(X, Y, 'sub', lambda x, y: x-y)
#print len(fail)
self.assert_(not fail)
def test_binop_combinations_pow(self):
class X(Base):
pass
class Y(X):
pass
fail = do_test(X, Y, 'pow', lambda x, y: x**y)
#print len(fail)
self.assert_(not fail)
def test_binop_combinations_more_exhaustive(self):
class X(Base):
pass
class B1(object):
pass
class B2(object):
pass
class X1(B1, X, B2):
pass
class C1(object):
pass
class C2(object):
pass
class Y(C1, X1, C2):
pass
fail = do_test(X, Y, 'sub', lambda x, y: x - y)
#print len(fail)
self.assert_(not fail)
def test_main():
test_support.run_unittest(TestDescrTestCase,
SubclassDescrTestCase,
InPlaceTestCase,
DescrExceptionsTestCase,
GetAttrTestCase,
BinopCombinationsTestCase)
if __name__ == '__main__':
test_main()