import pytest from pybind11_tests import ConstructorStats def test_multiple_inheritance_cpp(): from pybind11_tests import MIType mt = MIType(3, 4) assert mt.foo() == 3 assert mt.bar() == 4 def test_multiple_inheritance_mix1(): from pybind11_tests import Base2 class Base1: def __init__(self, i): self.i = i def foo(self): return self.i class MITypePy(Base1, Base2): def __init__(self, i, j): Base1.__init__(self, i) Base2.__init__(self, j) mt = MITypePy(3, 4) assert mt.foo() == 3 assert mt.bar() == 4 def test_multiple_inheritance_mix2(): from pybind11_tests import Base1 class Base2: def __init__(self, i): self.i = i def bar(self): return self.i class MITypePy(Base1, Base2): def __init__(self, i, j): Base1.__init__(self, i) Base2.__init__(self, j) mt = MITypePy(3, 4) assert mt.foo() == 3 assert mt.bar() == 4 def test_multiple_inheritance_error(): """Inheriting from multiple C++ bases in Python is not supported""" from pybind11_tests import Base1, Base2 with pytest.raises(TypeError) as excinfo: # noinspection PyUnusedLocal class MI(Base1, Base2): pass assert "Can't inherit from multiple C++ classes in Python" in str(excinfo.value) def test_multiple_inheritance_virtbase(): from pybind11_tests import Base12a, bar_base2a, bar_base2a_sharedptr class MITypePy(Base12a): def __init__(self, i, j): Base12a.__init__(self, i, j) mt = MITypePy(3, 4) assert mt.bar() == 4 assert bar_base2a(mt) == 4 assert bar_base2a_sharedptr(mt) == 4 def test_mi_static_properties(): """Mixing bases with and without static properties should be possible and the result should be independent of base definition order""" from pybind11_tests import mi for d in (mi.VanillaStaticMix1(), mi.VanillaStaticMix2()): assert d.vanilla() == "Vanilla" assert d.static_func1() == "WithStatic1" assert d.static_func2() == "WithStatic2" assert d.static_func() == d.__class__.__name__ mi.WithStatic1.static_value1 = 1 mi.WithStatic2.static_value2 = 2 assert d.static_value1 == 1 assert d.static_value2 == 2 assert d.static_value == 12 d.static_value1 = 0 assert d.static_value1 == 0 d.static_value2 = 0 assert d.static_value2 == 0 d.static_value = 0 assert d.static_value == 0 @pytest.unsupported_on_pypy def test_mi_dynamic_attributes(): """Mixing bases with and without dynamic attribute support""" from pybind11_tests import mi for d in (mi.VanillaDictMix1(), mi.VanillaDictMix2()): d.dynamic = 1 assert d.dynamic == 1 def test_mi_unaligned_base(): """Returning an offset (non-first MI) base class pointer should recognize the instance""" from pybind11_tests import I801C, I801D, i801b1_c, i801b2_c, i801b1_d, i801b2_d n_inst = ConstructorStats.detail_reg_inst() c = I801C() d = I801D() # + 4 below because we have the two instances, and each instance has offset base I801B2 assert ConstructorStats.detail_reg_inst() == n_inst + 4 b1c = i801b1_c(c) assert b1c is c b2c = i801b2_c(c) assert b2c is c b1d = i801b1_d(d) assert b1d is d b2d = i801b2_d(d) assert b2d is d assert ConstructorStats.detail_reg_inst() == n_inst + 4 # no extra instances del c, b1c, b2c assert ConstructorStats.detail_reg_inst() == n_inst + 2 del d, b1d, b2d assert ConstructorStats.detail_reg_inst() == n_inst def test_mi_base_return(): """Tests returning an offset (non-first MI) base class pointer to a derived instance""" from pybind11_tests import (I801B2, I801C, I801D, i801c_b1, i801c_b2, i801d_b1, i801d_b2, i801e_c, i801e_b2) n_inst = ConstructorStats.detail_reg_inst() c1 = i801c_b1() assert type(c1) is I801C assert c1.a == 1 assert c1.b == 2 d1 = i801d_b1() assert type(d1) is I801D assert d1.a == 1 assert d1.b == 2 assert ConstructorStats.detail_reg_inst() == n_inst + 4 c2 = i801c_b2() assert type(c2) is I801C assert c2.a == 1 assert c2.b == 2 d2 = i801d_b2() assert type(d2) is I801D assert d2.a == 1 assert d2.b == 2 assert ConstructorStats.detail_reg_inst() == n_inst + 8 del c2 assert ConstructorStats.detail_reg_inst() == n_inst + 6 del c1, d1, d2 assert ConstructorStats.detail_reg_inst() == n_inst # Returning an unregistered derived type with a registered base; we won't # pick up the derived type, obviously, but should still work (as an object # of whatever type was returned). e1 = i801e_c() assert type(e1) is I801C assert e1.a == 1 assert e1.b == 2 e2 = i801e_b2() assert type(e2) is I801B2 assert e2.b == 2