import pytest from pybind11_tests import virtual_functions as m from pybind11_tests import ConstructorStats def test_override(capture, msg): class ExtendedExampleVirt(m.ExampleVirt): def __init__(self, state): super(ExtendedExampleVirt, self).__init__(state + 1) self.data = "Hello world" def run(self, value): print('ExtendedExampleVirt::run(%i), calling parent..' % value) return super(ExtendedExampleVirt, self).run(value + 1) def run_bool(self): print('ExtendedExampleVirt::run_bool()') return False def get_string1(self): return "override1" def pure_virtual(self): print('ExtendedExampleVirt::pure_virtual(): %s' % self.data) class ExtendedExampleVirt2(ExtendedExampleVirt): def __init__(self, state): super(ExtendedExampleVirt2, self).__init__(state + 1) def get_string2(self): return "override2" ex12 = m.ExampleVirt(10) with capture: assert m.runExampleVirt(ex12, 20) == 30 assert capture == """ Original implementation of ExampleVirt::run(state=10, value=20, str1=default1, str2=default2) """ # noqa: E501 line too long with pytest.raises(RuntimeError) as excinfo: m.runExampleVirtVirtual(ex12) assert msg(excinfo.value) == 'Tried to call pure virtual function "ExampleVirt::pure_virtual"' ex12p = ExtendedExampleVirt(10) with capture: assert m.runExampleVirt(ex12p, 20) == 32 assert capture == """ ExtendedExampleVirt::run(20), calling parent.. Original implementation of ExampleVirt::run(state=11, value=21, str1=override1, str2=default2) """ # noqa: E501 line too long with capture: assert m.runExampleVirtBool(ex12p) is False assert capture == "ExtendedExampleVirt::run_bool()" with capture: m.runExampleVirtVirtual(ex12p) assert capture == "ExtendedExampleVirt::pure_virtual(): Hello world" ex12p2 = ExtendedExampleVirt2(15) with capture: assert m.runExampleVirt(ex12p2, 50) == 68 assert capture == """ ExtendedExampleVirt::run(50), calling parent.. Original implementation of ExampleVirt::run(state=17, value=51, str1=override1, str2=override2) """ # noqa: E501 line too long cstats = ConstructorStats.get(m.ExampleVirt) assert cstats.alive() == 3 del ex12, ex12p, ex12p2 assert cstats.alive() == 0 assert cstats.values() == ['10', '11', '17'] assert cstats.copy_constructions == 0 assert cstats.move_constructions >= 0 def test_alias_delay_initialization1(capture): """`A` only initializes its trampoline class when we inherit from it If we just create and use an A instance directly, the trampoline initialization is bypassed and we only initialize an A() instead (for performance reasons). """ class B(m.A): def __init__(self): super(B, self).__init__() def f(self): print("In python f()") # C++ version with capture: a = m.A() m.call_f(a) del a pytest.gc_collect() assert capture == "A.f()" # Python version with capture: b = B() m.call_f(b) del b pytest.gc_collect() assert capture == """ PyA.PyA() PyA.f() In python f() PyA.~PyA() """ def test_alias_delay_initialization2(capture): """`A2`, unlike the above, is configured to always initialize the alias While the extra initialization and extra class layer has small virtual dispatch performance penalty, it also allows us to do more things with the trampoline class such as defining local variables and performing construction/destruction. """ class B2(m.A2): def __init__(self): super(B2, self).__init__() def f(self): print("In python B2.f()") # No python subclass version with capture: a2 = m.A2() m.call_f(a2) del a2 pytest.gc_collect() a3 = m.A2(1) m.call_f(a3) del a3 pytest.gc_collect() assert capture == """ PyA2.PyA2() PyA2.f() A2.f() PyA2.~PyA2() PyA2.PyA2() PyA2.f() A2.f() PyA2.~PyA2() """ # Python subclass version with capture: b2 = B2() m.call_f(b2) del b2 pytest.gc_collect() assert capture == """ PyA2.PyA2() PyA2.f() In python B2.f() PyA2.~PyA2() """ # PyPy: Reference count > 1 causes call with noncopyable instance # to fail in ncv1.print_nc() @pytest.unsupported_on_pypy @pytest.mark.skipif(not hasattr(m, "NCVirt"), reason="NCVirt test broken on ICPC") def test_move_support(): class NCVirtExt(m.NCVirt): def get_noncopyable(self, a, b): # Constructs and returns a new instance: nc = m.NonCopyable(a * a, b * b) return nc def get_movable(self, a, b): # Return a referenced copy self.movable = m.Movable(a, b) return self.movable class NCVirtExt2(m.NCVirt): def get_noncopyable(self, a, b): # Keep a reference: this is going to throw an exception self.nc = m.NonCopyable(a, b) return self.nc def get_movable(self, a, b): # Return a new instance without storing it return m.Movable(a, b) ncv1 = NCVirtExt() assert ncv1.print_nc(2, 3) == "36" assert ncv1.print_movable(4, 5) == "9" ncv2 = NCVirtExt2() assert ncv2.print_movable(7, 7) == "14" # Don't check the exception message here because it differs under debug/non-debug mode with pytest.raises(RuntimeError): ncv2.print_nc(9, 9) nc_stats = ConstructorStats.get(m.NonCopyable) mv_stats = ConstructorStats.get(m.Movable) assert nc_stats.alive() == 1 assert mv_stats.alive() == 1 del ncv1, ncv2 assert nc_stats.alive() == 0 assert mv_stats.alive() == 0 assert nc_stats.values() == ['4', '9', '9', '9'] assert mv_stats.values() == ['4', '5', '7', '7'] assert nc_stats.copy_constructions == 0 assert mv_stats.copy_constructions == 1 assert nc_stats.move_constructions >= 0 assert mv_stats.move_constructions >= 0 def test_dispatch_issue(msg): """#159: virtual function dispatch has problems with similar-named functions""" class PyClass1(m.DispatchIssue): def dispatch(self): return "Yay.." class PyClass2(m.DispatchIssue): def dispatch(self): with pytest.raises(RuntimeError) as excinfo: super(PyClass2, self).dispatch() assert msg(excinfo.value) == 'Tried to call pure virtual function "Base::dispatch"' p = PyClass1() return m.dispatch_issue_go(p) b = PyClass2() assert m.dispatch_issue_go(b) == "Yay.." def test_override_ref(): """#392/397: overridding reference-returning functions""" o = m.OverrideTest("asdf") # Not allowed (see associated .cpp comment) # i = o.str_ref() # assert o.str_ref() == "asdf" assert o.str_value() == "asdf" assert o.A_value().value == "hi" a = o.A_ref() assert a.value == "hi" a.value = "bye" assert a.value == "bye" def test_inherited_virtuals(): class AR(m.A_Repeat): def unlucky_number(self): return 99 class AT(m.A_Tpl): def unlucky_number(self): return 999 obj = AR() assert obj.say_something(3) == "hihihi" assert obj.unlucky_number() == 99 assert obj.say_everything() == "hi 99" obj = AT() assert obj.say_something(3) == "hihihi" assert obj.unlucky_number() == 999 assert obj.say_everything() == "hi 999" for obj in [m.B_Repeat(), m.B_Tpl()]: assert obj.say_something(3) == "B says hi 3 times" assert obj.unlucky_number() == 13 assert obj.lucky_number() == 7.0 assert obj.say_everything() == "B says hi 1 times 13" for obj in [m.C_Repeat(), m.C_Tpl()]: assert obj.say_something(3) == "B says hi 3 times" assert obj.unlucky_number() == 4444 assert obj.lucky_number() == 888.0 assert obj.say_everything() == "B says hi 1 times 4444" class CR(m.C_Repeat): def lucky_number(self): return m.C_Repeat.lucky_number(self) + 1.25 obj = CR() assert obj.say_something(3) == "B says hi 3 times" assert obj.unlucky_number() == 4444 assert obj.lucky_number() == 889.25 assert obj.say_everything() == "B says hi 1 times 4444" class CT(m.C_Tpl): pass obj = CT() assert obj.say_something(3) == "B says hi 3 times" assert obj.unlucky_number() == 4444 assert obj.lucky_number() == 888.0 assert obj.say_everything() == "B says hi 1 times 4444" class CCR(CR): def lucky_number(self): return CR.lucky_number(self) * 10 obj = CCR() assert obj.say_something(3) == "B says hi 3 times" assert obj.unlucky_number() == 4444 assert obj.lucky_number() == 8892.5 assert obj.say_everything() == "B says hi 1 times 4444" class CCT(CT): def lucky_number(self): return CT.lucky_number(self) * 1000 obj = CCT() assert obj.say_something(3) == "B says hi 3 times" assert obj.unlucky_number() == 4444 assert obj.lucky_number() == 888000.0 assert obj.say_everything() == "B says hi 1 times 4444" class DR(m.D_Repeat): def unlucky_number(self): return 123 def lucky_number(self): return 42.0 for obj in [m.D_Repeat(), m.D_Tpl()]: assert obj.say_something(3) == "B says hi 3 times" assert obj.unlucky_number() == 4444 assert obj.lucky_number() == 888.0 assert obj.say_everything() == "B says hi 1 times 4444" obj = DR() assert obj.say_something(3) == "B says hi 3 times" assert obj.unlucky_number() == 123 assert obj.lucky_number() == 42.0 assert obj.say_everything() == "B says hi 1 times 123" class DT(m.D_Tpl): def say_something(self, times): return "DT says:" + (' quack' * times) def unlucky_number(self): return 1234 def lucky_number(self): return -4.25 obj = DT() assert obj.say_something(3) == "DT says: quack quack quack" assert obj.unlucky_number() == 1234 assert obj.lucky_number() == -4.25 assert obj.say_everything() == "DT says: quack 1234" class DT2(DT): def say_something(self, times): return "DT2: " + ('QUACK' * times) def unlucky_number(self): return -3 class BT(m.B_Tpl): def say_something(self, times): return "BT" * times def unlucky_number(self): return -7 def lucky_number(self): return -1.375 obj = BT() assert obj.say_something(3) == "BTBTBT" assert obj.unlucky_number() == -7 assert obj.lucky_number() == -1.375 assert obj.say_everything() == "BT -7"