def test_create_list_from_set(self):
from pypy.objspace.std.setobject import W_SetObject
from pypy.objspace.std.setobject import _initialize_set
space = self.space
w = space.wrap
w_l = W_ListObject(space, [space.wrap(1), space.wrap(2), space.wrap(3)])
w_set = W_SetObject(self.space)
_initialize_set(self.space, w_set, w_l)
w_set.iter = None # make sure fast path is used
w_l2 = W_ListObject(space, [])
space.call_method(w_l2, "__init__", w_set)
w_l2.sort(False)
assert space.eq_w(w_l, w_l2)
w_l = W_ListObject(space, [space.wrap("a"), space.wrap("b"), space.wrap("c")])
_initialize_set(self.space, w_set, w_l)
space.call_method(w_l2, "__init__", w_set)
w_l2.sort(False)
assert space.eq_w(w_l, w_l2)
def test_create_list_from_set(self):
from pypy.objspace.std.setobject import W_SetObject
from pypy.objspace.std.setobject import _initialize_set
space = self.space
w = space.wrap
w_l = W_ListObject(
space, [space.wrap(1), space.wrap(2),
space.wrap(3)])
w_set = W_SetObject(self.space)
_initialize_set(self.space, w_set, w_l)
w_set.iter = None # make sure fast path is used
w_l2 = W_ListObject(space, [])
space.call_method(w_l2, "__init__", w_set)
w_l2.sort(False)
assert space.eq_w(w_l, w_l2)
w_l = W_ListObject(space,
[space.wrap("a"),
space.wrap("b"),
space.wrap("c")])
_initialize_set(self.space, w_set, w_l)
space.call_method(w_l2, "__init__", w_set)
w_l2.sort(False)
assert space.eq_w(w_l, w_l2)
def test_listview(self):
space = self.space
s = W_SetObject(space, self.wrapped([1, 2]))
assert sorted(space.listview_int(s)) == [1, 2]
#
s = W_SetObject(space, self.wrapped(["a", "b"], bytes=True))
assert sorted(space.listview_bytes(s)) == ["a", "b"]
def test_compare(self):
s = W_SetObject(self.space)
_initialize_set(self.space, s, self.word)
t = W_SetObject(self.space)
_initialize_set(self.space, t, self.word)
assert self.space.eq_w(s, t)
u = self.space.wrap(set('simsalabim'))
assert self.space.eq_w(s, u)
def test_union(self):
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s2 = W_SetObject(self.space, self.wrapped([4, 5, 6, 7]))
s3 = W_SetObject(self.space, self.wrapped([4, "5", "6", 7]))
s4 = s1.descr_union(self.space, [s2])
s5 = s1.descr_union(self.space, [s3])
assert s4.strategy is self.space.fromcache(IntegerSetStrategy)
assert s5.strategy is self.space.fromcache(ObjectSetStrategy)
def test_intersection(self):
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s2 = W_SetObject(self.space, self.wrapped([4, 5, "six", "seven"]))
s3 = s1.intersect(s2)
skip(
"for now intersection with ObjectStrategy always results in another ObjectStrategy"
)
assert s3.strategy is self.space.fromcache(IntegerSetStrategy)
def test_union(self):
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s2 = W_SetObject(self.space, self.wrapped([4, 5, 6, 7]))
s3 = W_SetObject(self.space, self.wrapped([4, '5', '6', 7]))
s4 = s1.descr_union(self.space, [s2])
s5 = s1.descr_union(self.space, [s3])
assert s4.strategy is self.space.fromcache(IntegerSetStrategy)
assert s5.strategy is self.space.fromcache(ObjectSetStrategy)
def test_union(self):
from pypy.objspace.std.setobject import set_union__Set
s1 = W_SetObject(self.space, self.wrapped([1,2,3,4,5]))
s2 = W_SetObject(self.space, self.wrapped([4,5,6,7]))
s3 = W_SetObject(self.space, self.wrapped([4,'5','6',7]))
s4 = set_union__Set(self.space, s1, [s2])
s5 = set_union__Set(self.space, s1, [s3])
assert s4.strategy is self.space.fromcache(IntegerSetStrategy)
assert s5.strategy is self.space.fromcache(ObjectSetStrategy)
def test_create_set_from_list(self):
from pypy.interpreter.baseobjspace import W_Root
from pypy.objspace.std.setobject import BytesSetStrategy, ObjectSetStrategy, UnicodeSetStrategy
from pypy.objspace.std.floatobject import W_FloatObject
w = self.space.wrap
wb = self.space.wrapbytes
intstr = self.space.fromcache(IntegerSetStrategy)
tmp_func = intstr.get_storage_from_list
# test if get_storage_from_list is no longer used
intstr.get_storage_from_list = None
w_list = W_ListObject(self.space, [w(1), w(2), w(3)])
w_set = W_SetObject(self.space)
_initialize_set(self.space, w_set, w_list)
assert w_set.strategy is intstr
assert intstr.unerase(w_set.sstorage) == {1: None, 2: None, 3: None}
w_list = W_ListObject(self.space, [wb("1"), wb("2"), wb("3")])
w_set = W_SetObject(self.space)
_initialize_set(self.space, w_set, w_list)
assert w_set.strategy is self.space.fromcache(BytesSetStrategy)
assert w_set.strategy.unerase(w_set.sstorage) == {
"1": None,
"2": None,
"3": None
}
w_list = self.space.iter(
W_ListObject(self.space,
[w(u"1"), w(u"2"), w(u"3")]))
w_set = W_SetObject(self.space)
_initialize_set(self.space, w_set, w_list)
assert w_set.strategy is self.space.fromcache(UnicodeSetStrategy)
assert w_set.strategy.unerase(w_set.sstorage) == {
u"1": None,
u"2": None,
u"3": None
}
w_list = W_ListObject(self.space, [w("1"), w(2), w("3")])
w_set = W_SetObject(self.space)
_initialize_set(self.space, w_set, w_list)
assert w_set.strategy is self.space.fromcache(ObjectSetStrategy)
for item in w_set.strategy.unerase(w_set.sstorage):
assert isinstance(item, W_Root)
w_list = W_ListObject(self.space, [w(1.0), w(2.0), w(3.0)])
w_set = W_SetObject(self.space)
_initialize_set(self.space, w_set, w_list)
assert w_set.strategy is self.space.fromcache(ObjectSetStrategy)
for item in w_set.strategy.unerase(w_set.sstorage):
assert isinstance(item, W_FloatObject)
# changed cached object, need to change it back for other tests to pass
intstr.get_storage_from_list = tmp_func
def test_intersection_order(self):
# theses tests make sure that intersection is done in the correct order
# (smallest first)
space = self.space
a = W_SetObject(self.space)
_initialize_set(self.space, a, self.space.wrap("abcdefg"))
a.intersect = None
b = W_SetObject(self.space)
_initialize_set(self.space, b, self.space.wrap("abc"))
result = a.descr_intersection(space, [b])
assert space.is_true(self.space.eq(result, W_SetObject(space, self.space.wrap("abc"))))
c = W_SetObject(self.space)
_initialize_set(self.space, c, self.space.wrap("e"))
d = W_SetObject(self.space)
_initialize_set(self.space, d, self.space.wrap("ab"))
# if ordering works correct we should start with set e
a.get_storage_copy = None
b.get_storage_copy = None
d.get_storage_copy = None
result = a.descr_intersection(space, [d, c, b])
assert space.is_true(self.space.eq(result, W_SetObject(space, self.space.wrap(""))))
def test_and(self):
s = W_SetObject(self.space)
_initialize_set(self.space, s, self.word)
t0 = W_SetObject(self.space)
_initialize_set(self.space, t0, self.otherword)
t1 = W_FrozensetObject(self.space, self.otherword)
r0 = and__Set_Set(self.space, s, t0)
r1 = and__Set_Set(self.space, s, t1)
assert eq__Set_Set(self.space, r0, r1) == self.true
sr = set_intersection__Set(self.space, s, [self.otherword])
assert eq__Set_Set(self.space, r0, sr) == self.true
def test_and(self):
s = W_SetObject(self.space)
_initialize_set(self.space, s, self.word)
t0 = W_SetObject(self.space)
_initialize_set(self.space, t0, self.otherword)
t1 = W_FrozensetObject(self.space, self.otherword)
r0 = s.descr_and(self.space, t0)
r1 = s.descr_and(self.space, t1)
assert r0.descr_eq(self.space, r1) == self.true
sr = s.descr_intersection(self.space, [self.otherword])
assert r0.descr_eq(self.space, sr) == self.true
def test_and(self):
s = W_SetObject(self.space)
_initialize_set(self.space, s, self.word)
t0 = W_SetObject(self.space)
_initialize_set(self.space, t0, self.otherword)
t1 = W_FrozensetObject(self.space, self.otherword)
r0 = s.descr_and(self.space, t0)
r1 = s.descr_and(self.space, t1)
assert r0.descr_eq(self.space, r1) == self.true
sr = s.descr_intersection(self.space, [self.otherword])
assert r0.descr_eq(self.space, sr) == self.true
def test_from_list(self):
s = W_SetObject(self.space, self.wrapped([1,2,3,4,5]))
assert s.strategy is self.space.fromcache(IntegerSetStrategy)
s = W_SetObject(self.space, self.wrapped([1,"two",3,"four",5]))
assert s.strategy is self.space.fromcache(ObjectSetStrategy)
s = W_SetObject(self.space)
assert s.strategy is self.space.fromcache(EmptySetStrategy)
s = W_SetObject(self.space, self.wrapped([]))
assert s.strategy is self.space.fromcache(EmptySetStrategy)
def test_listview_str_int_on_set(self):
w = self.space.wrap
w_a = W_SetObject(self.space)
_initialize_set(self.space, w_a, w("abcdefg"))
assert sorted(self.space.listview_str(w_a)) == list("abcdefg")
assert self.space.listview_int(w_a) is None
w_b = W_SetObject(self.space)
_initialize_set(self.space, w_b, self.space.newlist([w(1),w(2),w(3),w(4),w(5)]))
assert sorted(self.space.listview_int(w_b)) == [1,2,3,4,5]
assert self.space.listview_str(w_b) is None
def test_switch_to_object(self):
s = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s.add(self.space.wrap("six"))
assert s.strategy is self.space.fromcache(ObjectSetStrategy)
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s2 = W_SetObject(self.space, self.wrapped(["six", "seven"]))
s1.update(s2)
assert s1.strategy is self.space.fromcache(ObjectSetStrategy)
def test_listview_bytes_int_on_set(self):
w = self.space.wrap
wb = self.space.newbytes
w_a = W_SetObject(self.space)
_initialize_set(self.space, w_a, wb("abcdefg"))
assert sorted(self.space.listview_int(w_a)) == [97, 98, 99, 100, 101, 102, 103]
assert self.space.listview_bytes(w_a) is None
w_b = W_SetObject(self.space)
_initialize_set(self.space, w_b, self.space.newlist([w(1),w(2),w(3),w(4),w(5)]))
assert sorted(self.space.listview_int(w_b)) == [1,2,3,4,5]
assert self.space.listview_bytes(w_b) is None
def _wrap_not_rpython(self, x):
"NOT_RPYTHON"
# _____ this code is here to support testing only _____
# we might get there in non-translated versions if 'x' is
# a long that fits the correct range.
if is_valid_int(x):
return self.newint(x)
# wrap() of a container works on CPython, but the code is
# not RPython. Don't use -- it is kept around mostly for tests.
# Use instead newdict(), newlist(), newtuple().
if isinstance(x, dict):
items_w = [(self.wrap(k), self.wrap(v))
for (k, v) in x.iteritems()]
r = self.newdict()
r.initialize_content(items_w)
return r
if isinstance(x, tuple):
wrappeditems = [self.wrap(item) for item in list(x)]
return self.newtuple(wrappeditems)
if isinstance(x, list):
wrappeditems = [self.wrap(item) for item in x]
return self.newlist(wrappeditems)
# The following cases are even stranger.
# Really really only for tests.
if type(x) is long:
return self.wraplong(x)
if isinstance(x, slice):
return W_SliceObject(self.wrap(x.start), self.wrap(x.stop),
self.wrap(x.step))
if isinstance(x, complex):
return W_ComplexObject(x.real, x.imag)
if isinstance(x, set):
res = W_SetObject(self,
self.newlist([self.wrap(item) for item in x]))
return res
if isinstance(x, frozenset):
wrappeditems = [self.wrap(item) for item in x]
return W_FrozensetObject(self, wrappeditems)
if x is __builtin__.Ellipsis:
# '__builtin__.Ellipsis' avoids confusion with special.Ellipsis
return self.w_Ellipsis
if self.config.objspace.nofaking:
raise OperationError(
self.w_RuntimeError,
self.wrap("nofaking enabled: refusing "
"to wrap cpython value %r" % (x, )))
if isinstance(x, type(Exception)) and issubclass(x, Exception):
w_result = self.wrap_exception_cls(x)
if w_result is not None:
return w_result
from pypy.objspace.std.fake import fake_object
return fake_object(self, x)
def test_discard(self):
class FakeInt(object):
def __init__(self, value):
self.value = value
def __hash__(self):
return hash(self.value)
def __eq__(self, other):
if other == self.value:
return True
return False
s1 = W_SetObject(self.space, self.wrapped([1,2,3,4,5]))
s1.descr_discard(self.space, self.space.wrap("five"))
skip("currently not supported")
assert s1.strategy is self.space.fromcache(IntegerSetStrategy)
set_discard__Set_ANY(self.space, s1, self.space.wrap(FakeInt(5)))
assert s1.strategy is self.space.fromcache(ObjectSetStrategy)
def test_discard(self):
class FakeInt(object):
def __init__(self, value):
self.value = value
def __hash__(self):
return hash(self.value)
def __eq__(self, other):
if other == self.value:
return True
return False
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s1.descr_discard(self.space, self.space.wrap("five"))
skip("currently not supported")
assert s1.strategy is self.space.fromcache(IntegerSetStrategy)
set_discard__Set_ANY(self.space, s1, self.space.wrap(FakeInt(5)))
assert s1.strategy is self.space.fromcache(ObjectSetStrategy)
def test_iter(self):
space = self.space
s = W_SetObject(space, self.wrapped([1, 2]))
it = s.iter()
assert isinstance(it, IntegerIteratorImplementation)
assert space.unwrap(it.next()) == 1
assert space.unwrap(it.next()) == 2
#
s = W_SetObject(space, self.wrapped(["a", "b"]))
it = s.iter()
assert isinstance(it, BytesIteratorImplementation)
assert space.unwrap(it.next()) == "a"
assert space.unwrap(it.next()) == "b"
#
s = W_SetObject(space, self.wrapped([u"a", u"b"]))
it = s.iter()
assert isinstance(it, UnicodeIteratorImplementation)
assert space.unwrap(it.next()) == u"a"
assert space.unwrap(it.next()) == u"b"
def test_switch_to_object(self):
s = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s.add(self.space.wrap("six"))
assert s.strategy is self.space.fromcache(ObjectSetStrategy)
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s2 = W_SetObject(self.space, self.wrapped(["six", "seven"]))
s1.update(s2)
assert s1.strategy is self.space.fromcache(ObjectSetStrategy)
def test_integer_strategy_with_w_long(self):
# tests all calls to is_plain_int1() so far
space = self.space
w = W_LongObject(rbigint.fromlong(42))
s1 = W_SetObject(space, self.wrapped([]))
s1.add(w)
assert s1.strategy is space.fromcache(IntegerSetStrategy)
#
s1 = W_SetObject(space, space.newlist([w]))
assert s1.strategy is space.fromcache(IntegerSetStrategy)
def _wrap_not_rpython(self, x):
"NOT_RPYTHON"
# _____ this code is here to support testing only _____
# wrap() of a container works on CPython, but the code is
# not RPython. Don't use -- it is kept around mostly for tests.
# Use instead newdict(), newlist(), newtuple().
if isinstance(x, dict):
items_w = [(self.wrap(k), self.wrap(v))
for (k, v) in x.iteritems()]
r = self.newdict()
r.initialize_content(items_w)
return r
if isinstance(x, tuple):
wrappeditems = [self.wrap(item) for item in list(x)]
return self.newtuple(wrappeditems)
if isinstance(x, list):
wrappeditems = [self.wrap(item) for item in x]
return self.newlist(wrappeditems)
# The following cases are even stranger.
# Really really only for tests.
if type(x) is long:
return self.wraplong(x)
if isinstance(x, slice):
return W_SliceObject(self.wrap(x.start), self.wrap(x.stop),
self.wrap(x.step))
if isinstance(x, complex):
return W_ComplexObject(x.real, x.imag)
if isinstance(x, set):
res = W_SetObject(self,
self.newlist([self.wrap(item) for item in x]))
return res
if isinstance(x, frozenset):
wrappeditems = [self.wrap(item) for item in x]
return W_FrozensetObject(self, wrappeditems)
if x is __builtin__.Ellipsis:
# '__builtin__.Ellipsis' avoids confusion with special.Ellipsis
return self.w_Ellipsis
raise OperationError(
self.w_RuntimeError,
self.wrap("refusing to wrap cpython value %r" % (x, )))
def test_from_list(self):
s = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
assert s.strategy is self.space.fromcache(IntegerSetStrategy)
s = W_SetObject(self.space, self.wrapped([1, "two", 3, "four", 5]))
assert s.strategy is self.space.fromcache(ObjectSetStrategy)
s = W_SetObject(self.space)
assert s.strategy is self.space.fromcache(EmptySetStrategy)
s = W_SetObject(self.space, self.wrapped([]))
assert s.strategy is self.space.fromcache(EmptySetStrategy)
s = W_SetObject(self.space, self.wrapped(["a", "b"], bytes=True))
assert s.strategy is self.space.fromcache(BytesSetStrategy)
s = W_SetObject(self.space, self.wrapped([u"a", u"b"]))
assert s.strategy is self.space.fromcache(UnicodeSetStrategy)
def test_iter(self):
space = self.space
s = W_SetObject(space, self.wrapped([1, 2]))
it = s.iter()
assert isinstance(it, IntegerIteratorImplementation)
assert space.unwrap(it.next()) == 1
assert space.unwrap(it.next()) == 2
#
s = W_SetObject(space, self.wrapped(["a", "b"]))
it = s.iter()
assert isinstance(it, BytesIteratorImplementation)
assert space.unwrap(it.next()) == "a"
assert space.unwrap(it.next()) == "b"
#
s = W_SetObject(space, self.wrapped([u"a", u"b"]))
it = s.iter()
assert isinstance(it, UnicodeIteratorImplementation)
assert space.unwrap(it.next()) == u"a"
assert space.unwrap(it.next()) == u"b"
def descr__new__(space, w_settype, __args__):
from pypy.objspace.std.setobject import W_SetObject, newset
w_obj = space.allocate_instance(W_SetObject, w_settype)
W_SetObject.__init__(w_obj, space)
return w_obj
def test_switch_to_unicode(self):
s = W_SetObject(self.space, self.wrapped([]))
s.add(self.space.wrap(u"six"))
assert s.strategy is self.space.fromcache(UnicodeSetStrategy)
def test_remove(self):
from pypy.objspace.std.setobject import set_remove__Set_ANY
s1 = W_SetObject(self.space, self.wrapped([1]))
set_remove__Set_ANY(self.space, s1, self.space.wrap(1))
assert s1.strategy is self.space.fromcache(EmptySetStrategy)
def test_clear(self):
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s1.clear()
assert s1.strategy is self.space.fromcache(EmptySetStrategy)
def test_remove(self):
s1 = W_SetObject(self.space, self.wrapped([1]))
self.space.call_method(s1, 'remove', self.space.wrap(1))
assert s1.strategy is self.space.fromcache(EmptySetStrategy)
def test_symmetric_difference(self):
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s2 = W_SetObject(self.space, self.wrapped(["six", "seven"]))
s1.symmetric_difference_update(s2)
assert s1.strategy is self.space.fromcache(ObjectSetStrategy)
def test_symmetric_difference(self):
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s2 = W_SetObject(self.space, self.wrapped(["six", "seven"]))
s1.symmetric_difference_update(s2)
assert s1.strategy is self.space.fromcache(ObjectSetStrategy)
def test_intersection(self):
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s2 = W_SetObject(self.space, self.wrapped([4, 5, "six", "seven"]))
s3 = s1.intersect(s2)
skip("for now intersection with ObjectStrategy always results in another ObjectStrategy")
assert s3.strategy is self.space.fromcache(IntegerSetStrategy)
def test_switch_to_unicode(self):
s = W_SetObject(self.space, self.wrapped([]))
s.add(self.space.wrap(u"six"))
assert s.strategy is self.space.fromcache(UnicodeSetStrategy)
def newset(self, iterable_w=None):
if iterable_w is None:
return W_SetObject(self, None)
return W_SetObject(self, self.newtuple(iterable_w))
def test_intersection_order(self):
# theses tests make sure that intersection is done in the correct order
# (smallest first)
space = self.space
a = W_SetObject(self.space)
_initialize_set(self.space, a, self.space.wrap("abcdefg"))
a.intersect = None
b = W_SetObject(self.space)
_initialize_set(self.space, b, self.space.wrap("abc"))
result = a.descr_intersection(space, [b])
assert space.is_true(
self.space.eq(result, W_SetObject(space, self.space.wrap("abc"))))
c = W_SetObject(self.space)
_initialize_set(self.space, c, self.space.wrap("e"))
d = W_SetObject(self.space)
_initialize_set(self.space, d, self.space.wrap("ab"))
# if ordering works correct we should start with set e
a.get_storage_copy = None
b.get_storage_copy = None
d.get_storage_copy = None
result = a.descr_intersection(space, [d, c, b])
assert space.is_true(
self.space.eq(result, W_SetObject(space, self.space.wrap(""))))
def test_clear(self):
s1 = W_SetObject(self.space, self.wrapped([1, 2, 3, 4, 5]))
s1.clear()
assert s1.strategy is self.space.fromcache(EmptySetStrategy)
def test_compare(self):
s = W_SetObject(self.space, None)
_initialize_set(self.space, s, self.word)
t = W_SetObject(self.space, None)
_initialize_set(self.space, t, self.word)
assert self.space.eq_w(s, t)
def descr__new__(space, w_settype, __args__):
from pypy.objspace.std.setobject import W_SetObject
w_obj = space.allocate_instance(W_SetObject, w_settype)
W_SetObject.__init__(w_obj, space, None)
return w_obj
def newset(self):
from pypy.objspace.std.setobject import newset
return W_SetObject(self, None)
def _wrap_not_rpython(self, x):
"NOT_RPYTHON"
# _____ this code is here to support testing only _____
# wrap() of a container works on CPython, but the code is
# not RPython. Don't use -- it is kept around mostly for tests.
# Use instead newdict(), newlist(), newtuple().
if isinstance(x, dict):
items_w = [(self.wrap(k), self.wrap(v)) for (k, v) in x.iteritems()]
r = self.newdict()
r.initialize_content(items_w)
return r
if isinstance(x, tuple):
wrappeditems = [self.wrap(item) for item in list(x)]
return self.newtuple(wrappeditems)
if isinstance(x, list):
wrappeditems = [self.wrap(item) for item in x]
return self.newlist(wrappeditems)
# The following cases are even stranger.
# Really really only for tests.
if type(x) is long:
if self.config.objspace.std.withsmalllong:
from pypy.rlib.rarithmetic import r_longlong
try:
rx = r_longlong(x)
except OverflowError:
pass
else:
from pypy.objspace.std.smalllongobject import \
W_SmallLongObject
return W_SmallLongObject(rx)
return W_LongObject.fromlong(x)
if isinstance(x, slice):
return W_SliceObject(self.wrap(x.start),
self.wrap(x.stop),
self.wrap(x.step))
if isinstance(x, complex):
return W_ComplexObject(x.real, x.imag)
if isinstance(x, set):
rdict_w = r_dict(self.eq_w, self.hash_w)
for item in x:
rdict_w[self.wrap(item)] = None
res = W_SetObject(self, rdict_w)
return res
if isinstance(x, frozenset):
wrappeditems = [self.wrap(item) for item in x]
return W_FrozensetObject(self, wrappeditems)
if x is __builtin__.Ellipsis:
# '__builtin__.Ellipsis' avoids confusion with special.Ellipsis
return self.w_Ellipsis
if self.config.objspace.nofaking:
raise OperationError(self.w_RuntimeError,
self.wrap("nofaking enabled: refusing "
"to wrap cpython value %r" %(x,)))
if isinstance(x, type(Exception)) and issubclass(x, Exception):
w_result = self.wrap_exception_cls(x)
if w_result is not None:
return w_result
from pypy.objspace.std.fake import fake_object
return fake_object(self, x)