import py, os, sys
from .support import setup_make, soext


currpath = py.path.local(__file__).dirpath()
test_dct = str(currpath.join("advancedcppDict"))+soext

def setup_module(mod):
    setup_make("advancedcpp")

def setup_module(mod):
    if sys.platform == 'win32':
        py.test.skip("win32 not supported so far")
    for refl_dict in ["advancedcppDict.so", "advancedcpp2Dict.so"]:
        err = os.system("cd '%s' && make %s" % (currpath, refl_dict))
        if err:
            raise OSError("'make' failed (see stderr)")

class AppTestADVANCEDCPP:
    spaceconfig = dict(usemodules=['_cppyy', '_rawffi', 'itertools'])

    def setup_class(cls):
        cls.w_test_dct = cls.space.newtext(test_dct)
        cls.w_advanced = cls.space.appexec([], """():
            import ctypes, _cppyy
            _cppyy._post_import_startup()
            return ctypes.CDLL(%r, ctypes.RTLD_GLOBAL)""" % (test_dct, ))

    def test01_default_arguments(self):
        """Test usage of default arguments"""

        import _cppyy as cppyy
        def test_defaulter(n, t):
            defaulter = getattr(cppyy.gbl, '%s_defaulter' % n)

            d = defaulter()
            assert d.m_a == t(11)
            assert d.m_b == t(22)
            assert d.m_c == t(33)
            d.__destruct__()

            d = defaulter(0)
            assert d.m_a ==  t(0)
            assert d.m_b == t(22)
            assert d.m_c == t(33)
            d.__destruct__()

            d = defaulter(1, 2)
            assert d.m_a ==  t(1)
            assert d.m_b ==  t(2)
            assert d.m_c == t(33)
            d.__destruct__()

            d = defaulter(3, 4, 5)
            assert d.m_a ==  t(3)
            assert d.m_b ==  t(4)
            assert d.m_c ==  t(5)
            d.__destruct__()

            defaulter_func = getattr(cppyy.gbl, '%s_defaulter_func' %n)
            answers = [11, 22, 33, 3]
            for idx in range(4):
                assert defaulter_func(idx) == answers[idx]

        test_defaulter('short',  int)
        test_defaulter('ushort', int)
        test_defaulter('int',    int)
        test_defaulter('uint',   int)
        test_defaulter('long',   long)
        test_defaulter('ulong',  long)
        test_defaulter('llong',  long)
        test_defaulter('ullong', long)
        test_defaulter('float',  float)
        test_defaulter('double', float)

        assert cppyy.gbl.string_defaulter_func(0)               == "aap"
        assert cppyy.gbl.string_defaulter_func(0, "zus")        == "zus"
        assert cppyy.gbl.string_defaulter_func(1)               == "noot"
        assert cppyy.gbl.string_defaulter_func(1, "zus")        == "noot"
        assert cppyy.gbl.string_defaulter_func(1, "zus", "jet") == "jet"
        assert cppyy.gbl.string_defaulter_func(2)               == "mies"

    def test02_simple_inheritance(self):
        """Test binding of a basic inheritance structure"""

        import _cppyy as cppyy
        base_class    = cppyy.gbl.base_class
        derived_class = cppyy.gbl.derived_class

        assert issubclass(derived_class, base_class)
        assert not issubclass(base_class, derived_class)

        b = base_class()
        assert isinstance(b, base_class)
        assert not isinstance(b, derived_class)

        assert b.m_b              == 1
        assert b.get_value()      == 1
        assert b.m_db             == 1.1
        assert b.get_base_value() == 1.1

        b.m_b, b.m_db = 11, 11.11
        assert b.m_b              == 11
        assert b.get_value()      == 11
        assert b.m_db             == 11.11
        assert b.get_base_value() == 11.11

        b.__destruct__()

        d = derived_class()
        assert isinstance(d, derived_class)
        assert isinstance(d, base_class)

        assert d.m_d                 == 2
        assert d.get_value()         == 2
        assert d.m_dd                == 2.2
        assert d.get_derived_value() == 2.2

        assert d.m_b                 == 1
        assert d.m_db                == 1.1
        assert d.get_base_value()    == 1.1

        d.m_b, d.m_db = 11, 11.11
        d.m_d, d.m_dd = 22, 22.22

        assert d.m_d                 == 22
        assert d.get_value()         == 22
        assert d.m_dd                == 22.22
        assert d.get_derived_value() == 22.22

        assert d.m_b                 == 11
        assert d.m_db                == 11.11
        assert d.get_base_value()    == 11.11

        d.__destruct__()

    def test03_namespaces(self):
        """Test access to namespaces and inner classes"""

        import _cppyy as cppyy
        gbl = cppyy.gbl

        assert gbl.a_ns      is gbl.a_ns
        assert gbl.a_ns.d_ns is gbl.a_ns.d_ns

        assert gbl.a_ns.b_class              is gbl.a_ns.b_class
        assert gbl.a_ns.b_class.c_class      is gbl.a_ns.b_class.c_class
        assert gbl.a_ns.d_ns.e_class         is gbl.a_ns.d_ns.e_class
        assert gbl.a_ns.d_ns.e_class.f_class is gbl.a_ns.d_ns.e_class.f_class

        assert gbl.a_ns.g_a                           == 11
        assert gbl.a_ns.get_g_a()                     == 11
        assert gbl.a_ns.b_class.s_b                   == 22
        assert gbl.a_ns.b_class().m_b                 == -2
        assert gbl.a_ns.b_class.c_class.s_c           == 33
        assert gbl.a_ns.b_class.c_class().m_c         == -3
        assert gbl.a_ns.d_ns.g_d                      == 44
        assert gbl.a_ns.d_ns.get_g_d()                == 44
        assert gbl.a_ns.d_ns.e_class.s_e              == 55
        assert gbl.a_ns.d_ns.e_class().m_e            == -5
        assert gbl.a_ns.d_ns.e_class.f_class.s_f      == 66
        assert gbl.a_ns.d_ns.e_class.f_class().m_f    == -6

        raises(TypeError, gbl.a_ns)

    def test03a_namespace_lookup_on_update(self):
        """Test whether namespaces can be shared across dictionaries."""

        import _cppyy as cppyy, ctypes
        gbl = cppyy.gbl

        lib2 = ctypes.CDLL("./advancedcpp2Dict.so", ctypes.RTLD_GLOBAL)

        assert gbl.a_ns      is gbl.a_ns
        assert gbl.a_ns.d_ns is gbl.a_ns.d_ns

        assert gbl.a_ns.g_class              is gbl.a_ns.g_class
        assert gbl.a_ns.g_class.h_class      is gbl.a_ns.g_class.h_class
        assert gbl.a_ns.d_ns.i_class         is gbl.a_ns.d_ns.i_class
        assert gbl.a_ns.d_ns.i_class.j_class is gbl.a_ns.d_ns.i_class.j_class

        assert gbl.a_ns.g_g                           ==  77
        assert gbl.a_ns.get_g_g()                     ==  77
        assert gbl.a_ns.g_class.s_g                   ==  88
        assert gbl.a_ns.g_class().m_g                 ==  -7
        assert gbl.a_ns.g_class.h_class.s_h           ==  99
        assert gbl.a_ns.g_class.h_class().m_h         ==  -8
        assert gbl.a_ns.d_ns.g_i                      == 111
        assert gbl.a_ns.d_ns.get_g_i()                == 111
        assert gbl.a_ns.d_ns.i_class.s_i              == 222
        assert gbl.a_ns.d_ns.i_class().m_i            ==  -9
        assert gbl.a_ns.d_ns.i_class.j_class.s_j      == 333
        assert gbl.a_ns.d_ns.i_class.j_class().m_j    == -10

    def test04_template_types(self):
        """Test bindings of templated types"""

        import _cppyy as cppyy
        gbl = cppyy.gbl

        assert gbl.T1 is gbl.T1
        assert gbl.T2 is gbl.T2
        assert gbl.T3 is gbl.T3
        assert not gbl.T1 is gbl.T2
        assert not gbl.T2 is gbl.T3

        assert gbl.T1('int') is gbl.T1('int')
        assert gbl.T1(int)   is gbl.T1('int')
        assert gbl.T2('T1<int>')     is gbl.T2('T1<int>')
        assert gbl.T2(gbl.T1('int')) is gbl.T2('T1<int>')
        assert gbl.T2(gbl.T1(int)) is gbl.T2('T1<int>')
        assert gbl.T3('int,double')    is gbl.T3('int,double')
        assert gbl.T3('int', 'double') is gbl.T3('int,double')
        assert gbl.T3(int, 'double')   is gbl.T3('int,double')
        assert gbl.T3('T1<int>,T2<T1<int> >') is gbl.T3('T1<int>,T2<T1<int> >')
        assert gbl.T3('T1<int>', gbl.T2(gbl.T1(int))) is gbl.T3('T1<int>,T2<T1<int> >')

        assert gbl.a_ns.T4(int) is gbl.a_ns.T4('int')
        assert gbl.a_ns.T4('a_ns::T4<T3<int,double> >')\
               is gbl.a_ns.T4(gbl.a_ns.T4(gbl.T3(int, 'double')))

        #----- mix in some of the alternative syntax
        assert gbl.T1['int'] is gbl.T1('int')
        assert gbl.T1[int]   is gbl.T1('int')
        assert gbl.T2['T1<int>']     is gbl.T2('T1<int>')
        assert gbl.T2[gbl.T1('int')] is gbl.T2('T1<int>')
        assert gbl.T2[gbl.T1(int)] is gbl.T2('T1<int>')
        assert gbl.T3['int,double']    is gbl.T3('int,double')
        assert gbl.T3['int', 'double'] is gbl.T3('int,double')
        assert gbl.T3[int, 'double']   is gbl.T3('int,double')
        assert gbl.T3['T1<int>,T2<T1<int> >'] is gbl.T3('T1<int>,T2<T1<int> >')
        assert gbl.T3['T1<int>', gbl.T2[gbl.T1[int]]] is gbl.T3('T1<int>,T2<T1<int> >')

        assert gbl.a_ns.T4[int] is gbl.a_ns.T4('int')
        assert gbl.a_ns.T4['a_ns::T4<T3<int,double> >']\
               is gbl.a_ns.T4(gbl.a_ns.T4(gbl.T3(int, 'double')))

        #-----
        t1 = gbl.T1(int)()
        assert t1.m_t1        == 1
        assert t1.get_value() == 1
        t1.__destruct__()

        #-----
        t1 = gbl.T1(int)(11)
        assert t1.m_t1        == 11
        assert t1.get_value() == 11
        t1.m_t1 = 111
        assert t1.get_value() == 111
        assert t1.m_t1        == 111
        t1.__destruct__()

        #-----
        t2 = gbl.T2(gbl.T1(int))(gbl.T1(int)(32))
        t2.m_t2.m_t1 = 32
        assert t2.m_t2.get_value() == 32
        assert t2.m_t2.m_t1        == 32
        t2.__destruct__()


    def test05_abstract_classes(self):
        """Test non-instatiatability of abstract classes"""

        import _cppyy as cppyy
        gbl = cppyy.gbl

        raises(TypeError, gbl.a_class)
        raises(TypeError, gbl.some_abstract_class)

        assert issubclass(gbl.some_concrete_class, gbl.some_abstract_class)

        c = gbl.some_concrete_class()
        assert isinstance(c, gbl.some_concrete_class)
        assert isinstance(c, gbl.some_abstract_class)

    def test06_datamembers(self):
        """Test data member access when using virtual inheritence"""

        import _cppyy as cppyy
        a_class   = cppyy.gbl.a_class
        b_class   = cppyy.gbl.b_class
        c_class_1 = cppyy.gbl.c_class_1
        c_class_2 = cppyy.gbl.c_class_2
        d_class   = cppyy.gbl.d_class

        assert issubclass(b_class, a_class)
        assert issubclass(c_class_1, a_class)
        assert issubclass(c_class_1, b_class)
        assert issubclass(c_class_2, a_class)
        assert issubclass(c_class_2, b_class)
        assert issubclass(d_class, a_class)
        assert issubclass(d_class, b_class)
        assert issubclass(d_class, c_class_2)

        #-----
        b = b_class()
        assert b.m_a          == 1
        assert b.m_da         == 1.1
        assert b.m_b          == 2
        assert b.m_db         == 2.2

        b.m_a = 11
        assert b.m_a          == 11
        assert b.m_b          == 2

        b.m_da = 11.11
        assert b.m_da         == 11.11
        assert b.m_db         == 2.2

        b.m_b = 22
        assert b.m_a          == 11
        assert b.m_da         == 11.11
        assert b.m_b          == 22
        assert b.get_value()  == 22

        b.m_db = 22.22
        assert b.m_db         == 22.22

        b.__destruct__()

        #-----
        c1 = c_class_1()
        assert c1.m_a         == 1
        assert c1.m_b         == 2
        assert c1.m_c         == 3

        c1.m_a = 11
        assert c1.m_a         == 11

        c1.m_b = 22
        assert c1.m_a         == 11
        assert c1.m_b         == 22

        c1.m_c = 33
        assert c1.m_a         == 11
        assert c1.m_b         == 22
        assert c1.m_c         == 33
        assert c1.get_value() == 33

        c1.__destruct__()

        #-----
        d = d_class()
        assert d.m_a          == 1
        assert d.m_b          == 2
        assert d.m_c          == 3
        assert d.m_d          == 4

        d.m_a = 11
        assert d.m_a          == 11

        d.m_b = 22
        assert d.m_a          == 11
        assert d.m_b          == 22

        d.m_c = 33
        assert d.m_a          == 11
        assert d.m_b          == 22
        assert d.m_c          == 33

        d.m_d = 44
        assert d.m_a          == 11
        assert d.m_b          == 22
        assert d.m_c          == 33
        assert d.m_d          == 44
        assert d.get_value()  == 44

        d.__destruct__()

    def test07_pass_by_reference(self):
        """Test reference passing when using virtual inheritance"""

        import _cppyy as cppyy
        gbl = cppyy.gbl
        b_class = gbl.b_class
        c_class = gbl.c_class_2
        d_class = gbl.d_class

        #-----
        b = b_class()
        b.m_a, b.m_b = 11, 22
        assert gbl.get_a(b) == 11
        assert gbl.get_b(b) == 22
        b.__destruct__()

        #-----
        c = c_class()
        c.m_a, c.m_b, c.m_c = 11, 22, 33
        assert gbl.get_a(c) == 11
        assert gbl.get_b(c) == 22
        assert gbl.get_c(c) == 33
        c.__destruct__()

        #-----
        d = d_class()
        d.m_a, d.m_b, d.m_c, d.m_d = 11, 22, 33, 44
        assert gbl.get_a(d) == 11
        assert gbl.get_b(d) == 22
        assert gbl.get_c(d) == 33
        assert gbl.get_d(d) == 44
        d.__destruct__()

    def test08_void_pointer_passing(self):
        """Test passing of variants of void pointer arguments"""

        import _cppyy as cppyy
        pointer_pass        = cppyy.gbl.pointer_pass
        some_concrete_class = cppyy.gbl.some_concrete_class

        pp = pointer_pass()
        o = some_concrete_class()

        assert cppyy.addressof(o) == pp.gime_address_ptr(o)
        assert cppyy.addressof(o) == pp.gime_address_ptr_ptr(o)
        assert cppyy.addressof(o) == pp.gime_address_ptr_ref(o)

        import array
        addressofo = array.array('l', [cppyy.addressof(o)])
        assert addressofo[0] == pp.gime_address_ptr_ptr(addressofo)

        assert 0 == pp.gime_address_ptr(0)
        raises(TypeError, pp.gime_address_ptr, None)

        ptr = cppyy.bind_object(0, some_concrete_class)
        assert cppyy.addressof(ptr) == 0
        pp.set_address_ptr_ref(ptr)
        assert cppyy.addressof(ptr) == 0x1234
        pp.set_address_ptr_ptr(ptr)
        assert cppyy.addressof(ptr) == 0x4321

        assert cppyy.addressof(cppyy.nullptr) == 0
        raises(TypeError, cppyy.addressof, None)
        assert cppyy.addressof(0)             == 0

    def test09_opaque_pointer_passing(self):
        """Test passing around of opaque pointers"""

        import _cppyy as cppyy
        some_concrete_class = cppyy.gbl.some_concrete_class

        o = some_concrete_class()

        # TODO: figure out the PyPy equivalent of CObject (may have to do this
        # through the C-API from C++)

        #cobj = cppyy.as_cobject(o)
        addr = cppyy.addressof(o)

        #assert o == cppyy.bind_object(cobj, some_concrete_class)
        #assert o == cppyy.bind_object(cobj, type(o))
        #assert o == cppyy.bind_object(cobj, o.__class__)
        #assert o == cppyy.bind_object(cobj, "some_concrete_class")
        assert cppyy.addressof(o) == cppyy.addressof(cppyy.bind_object(addr, some_concrete_class))
        assert o == cppyy.bind_object(addr, some_concrete_class)
        assert o == cppyy.bind_object(addr, type(o))
        assert o == cppyy.bind_object(addr, o.__class__)
        assert o == cppyy.bind_object(addr, "some_concrete_class")
        raises(TypeError, cppyy.bind_object, addr, "does_not_exist")
        raises(TypeError, cppyy.bind_object, addr, 1)

    def test10_object_identity(self):
        """Test object identity"""

        import _cppyy as cppyy
        some_concrete_class  = cppyy.gbl.some_concrete_class
        some_class_with_data = cppyy.gbl.some_class_with_data

        o = some_concrete_class()
        addr = cppyy.addressof(o)

        o2 = cppyy.bind_object(addr, some_concrete_class)
        assert o is o2

        o3 = cppyy.bind_object(addr, some_class_with_data)
        assert not o is o3

        d1 = some_class_with_data()
        d2 = d1.gime_copy()
        assert not d1 is d2

        dd1a = d1.gime_data()
        dd1b = d1.gime_data()
        assert dd1a is dd1b

        dd2 = d2.gime_data()
        assert not dd1a is dd2
        assert not dd1b is dd2

        d2.__destruct__()
        d1.__destruct__()

        RTS = cppyy.gbl.refers_to_self

        r1 = RTS()
        r2 = RTS()
        r1.m_other = r2

        r3 = r1.m_other
        r4 = r1.m_other
        assert r3 is r4

        assert r3 == r2
        assert r3 is r2

        r3.extra = 42
        assert r2.extra == 42
        assert r4.extra == 42

    def test11_multi_methods(self):
        """Test calling of methods from multiple inheritance"""

        import _cppyy as cppyy
        multi = cppyy.gbl.multi

        assert cppyy.gbl.multi1 is multi.__bases__[0]
        assert cppyy.gbl.multi2 is multi.__bases__[1]

        dict_keys = list(multi.__dict__.keys())
        assert dict_keys.count('get_my_own_int') == 1
        assert dict_keys.count('get_multi1_int') == 0
        assert dict_keys.count('get_multi2_int') == 0

        m = multi(1, 2, 3)
        assert m.get_multi1_int() == 1
        assert m.get_multi2_int() == 2
        assert m.get_my_own_int() == 3

    def test12_actual_type(self):
        """Test that a pointer to base return does an auto-downcast"""

        import _cppyy as cppyy
        base_class = cppyy.gbl.base_class
        derived_class = cppyy.gbl.derived_class

        b = base_class()
        d = derived_class()

        assert b == b.cycle(b)
        assert id(b) == id(b.cycle(b))
        assert b == d.cycle(b)
        assert id(b) == id(d.cycle(b))
        assert d == b.cycle(d)
        assert id(d) == id(b.cycle(d))
        assert d == d.cycle(d)
        assert id(d) == id(d.cycle(d))

        assert isinstance(b.cycle(b), base_class)
        assert isinstance(d.cycle(b), base_class)
        assert isinstance(b.cycle(d), derived_class)
        assert isinstance(d.cycle(d), derived_class)

        assert isinstance(b.clone(), base_class)      # TODO: clone() leaks
        assert isinstance(d.clone(), derived_class)   # TODO: clone() leaks

        # special case when round-tripping through a void* ptr
        voidp = b.mask(d)
        assert not isinstance(voidp, base_class)
        assert not isinstance(voidp, derived_class)

        d1 = cppyy.bind_object(voidp, base_class, cast=True)
        assert isinstance(d1, derived_class)
        assert d1 is d

        b1 = cppyy.bind_object(voidp, base_class)
        assert isinstance(b1, base_class)
        assert cppyy.addressof(b1) == cppyy.addressof(d)
        assert not (b1 is d)

    def test13_actual_type_virtual_multi(self):
        """Test auto-downcast in adverse inheritance situation"""

        import _cppyy as cppyy

        c1 = cppyy.gbl.create_c1()
        assert type(c1) == cppyy.gbl.c_class_1
        assert c1.m_c == 3
        c1.__destruct__()

        c2 = cppyy.gbl.create_c2()
        assert type(c2) == cppyy.gbl.c_class_2
        assert c2.m_c == 3
        c2.__destruct__()

    def test14_new_overloader(self):
        """Verify that class-level overloaded new/delete are called"""

        import _cppyy as cppyy

        assert cppyy.gbl.new_overloader.s_instances == 0
        nl = cppyy.gbl.new_overloader()
        assert cppyy.gbl.new_overloader.s_instances == 1
        nl.__destruct__()

        import gc
        gc.collect()
        assert cppyy.gbl.new_overloader.s_instances == 0

    def test15_template_instantiation_with_vector_of_float(self):
        """Test template instantiation with a std::vector<float>"""

        import _cppyy as cppyy

        # the following will simply fail if there is a naming problem (e.g.
        # std::, allocator<int>, etc., etc.); note the parsing required ...
        b = cppyy.gbl.my_templated_class(cppyy.gbl.std.vector(float))()

        for i in range(5):
            b.m_b.push_back(i)
            assert round(b.m_b[i], 5) == float(i)

    def test16_template_global_functions(self):
        """Test template global function lookup and calls"""

        import _cppyy as cppyy

        f = cppyy.gbl.my_templated_function

        assert f('c') == 'c'
        assert type(f('c')) == type('c')
        assert f(3.) == 3.
        assert type(f(4.)) == type(4.)

    def test17_assign_to_return_byref( self ):
        """Test assignment to an instance returned by reference"""

        from _cppyy import gbl

        a = gbl.std.vector(gbl.ref_tester)()
        a.push_back(gbl.ref_tester(42))

        assert len(a) == 1
        assert a[0].m_i == 42

        # TODO:
        # a[0] = gbl.ref_tester(33)
        # assert len(a) == 1
        # assert a[0].m_i == 33

    def test18_math_converters(self):
        """Test operator int/long/double incl. typedef"""

        from _cppyy import gbl

        a = gbl.some_convertible()
        a.m_i = 1234
        a.m_d = 4321.

        assert int(a)    == 1234
        assert int(a)    == a.m_i
        assert long(a)   == a.m_i

        assert float(a)  == 4321.
        assert float(a)  == a.m_d

    def test19_comparator(self):
        """Check that the global operator!=/== is picked up"""

        from _cppyy import gbl

        a, b = gbl.some_comparable(), gbl.some_comparable()

        assert a == b
        assert b == a
        assert a.__eq__(b)
        assert b.__eq__(a)
        assert a.__ne__(a)
        assert b.__ne__(b)
        assert a.__eq__(b) == True
        assert b.__eq__(a) == True
        assert a.__eq__(a) == False
        assert b.__eq__(b) == False

    def test20_overload_order_with_proper_return(self):
        """Test return type against proper overload w/ const and covariance"""

        import _cppyy as cppyy

        assert cppyy.gbl.overload_one_way().gime() == 1
        assert cppyy.gbl.overload_the_other_way().gime() == "aap"

    def test21_access_to_global_variables(self):
        """Access global_variables_and_pointers"""

        import _cppyy as cppyy

        assert cppyy.gbl.my_global_double == 12.
        assert len(cppyy.gbl.my_global_array) == 500
        assert cppyy.gbl.my_global_string1 == "aap  noot  mies"
        assert cppyy.gbl.my_global_string2 == "zus jet teun"
        # TODO: currently fails b/c double** not understood as &double*
        #assert cppyy.gbl.my_global_ptr[0] == 1234.

        v = cppyy.gbl.my_global_int_holders
        assert len(v) == 5
        expected_vals = [13, 42, 88, -1, 17]
        for i in range(len(v)):
            assert v[i].m_val == expected_vals[i]

    def test22_exceptions(self):
        """Catching of C++ exceptions"""

        import _cppyy as cppyy
        Thrower = cppyy.gbl.Thrower

        Thrower.throw_anything.__useffi__  = False
        Thrower.throw_exception.__useffi__ = False

        t = Thrower()

        assert raises(Exception, t.throw_anything)
        assert raises(Exception, t.throw_exception)

        try:
            t.throw_exception()
        except Exception as e:
            "C++ function failed" in str(e)

    def test23_using(self):
        """Accessibility of using declarations"""

        import _cppyy as cppyy

        assert cppyy.gbl.UsingBase().vcheck() == 'A'

        B = cppyy.gbl.UsingDerived
        assert not 'UsingBase' in B.__init__.__doc__

        b1 = B()
        assert b1.m_int    == 13
        assert b1.m_int2   == 42
        assert b1.vcheck() == 'B'
 
        b2 = B(10)
        assert b2.m_int    == 10
        assert b2.m_int2   == 42
        assert b2.vcheck() == 'B'

        b3 = B(b2)
        assert b3.m_int    == 10
        assert b3.m_int2   == 42
        assert b3.vcheck() == 'B'

    def test24_typedef_to_private_class(self):
        """Typedefs to private classes should not resolve"""

        import _cppyy as cppyy

        assert cppyy.gbl.TypedefToPrivateClass().f().m_val == 42