# Importing re before pytest after observing a PyPy CI flake when importing pytest first. from __future__ import annotations import re import pytest from pybind11_tests import class_sh_basic as m if not m.defined_PYBIND11_HAVE_INTERNALS_WITH_SMART_HOLDER_SUPPORT: pytest.skip("smart_holder not available.", allow_module_level=True) def test_atyp_constructors(): obj = m.atyp() assert obj.__class__.__name__ == "atyp" obj = m.atyp("") assert obj.__class__.__name__ == "atyp" obj = m.atyp("txtm") assert obj.__class__.__name__ == "atyp" @pytest.mark.parametrize( ("rtrn_f", "expected"), [ (m.rtrn_valu, "rtrn_valu(_MvCtor)*_MvCtor"), (m.rtrn_rref, "rtrn_rref(_MvCtor)*_MvCtor"), (m.rtrn_cref, "rtrn_cref(_MvCtor)*_CpCtor"), (m.rtrn_mref, "rtrn_mref(_MvCtor)*_CpCtor"), (m.rtrn_cptr, "rtrn_cptr"), (m.rtrn_mptr, "rtrn_mptr"), (m.rtrn_shmp, "rtrn_shmp"), (m.rtrn_shcp, "rtrn_shcp"), (m.rtrn_uqmp, "rtrn_uqmp"), (m.rtrn_uqcp, "rtrn_uqcp"), (m.rtrn_udmp, "rtrn_udmp"), (m.rtrn_udcp, "rtrn_udcp"), ], ) def test_cast(rtrn_f, expected): assert re.match(expected, m.get_mtxt(rtrn_f())) @pytest.mark.parametrize( ("pass_f", "mtxt", "expected"), [ (m.pass_valu, "Valu", "pass_valu:Valu(_MvCtor)*_CpCtor"), (m.pass_cref, "Cref", "pass_cref:Cref(_MvCtor)*_MvCtor"), (m.pass_mref, "Mref", "pass_mref:Mref(_MvCtor)*_MvCtor"), (m.pass_cptr, "Cptr", "pass_cptr:Cptr(_MvCtor)*_MvCtor"), (m.pass_mptr, "Mptr", "pass_mptr:Mptr(_MvCtor)*_MvCtor"), (m.pass_shmp, "Shmp", "pass_shmp:Shmp(_MvCtor)*_MvCtor"), (m.pass_shcp, "Shcp", "pass_shcp:Shcp(_MvCtor)*_MvCtor"), (m.pass_uqmp, "Uqmp", "pass_uqmp:Uqmp(_MvCtor)*_MvCtor"), (m.pass_uqcp, "Uqcp", "pass_uqcp:Uqcp(_MvCtor)*_MvCtor"), ], ) def test_load_with_mtxt(pass_f, mtxt, expected): assert re.match(expected, pass_f(m.atyp(mtxt))) @pytest.mark.parametrize( ("pass_f", "rtrn_f", "expected"), [ (m.pass_udmp, m.rtrn_udmp, "pass_udmp:rtrn_udmp"), (m.pass_udcp, m.rtrn_udcp, "pass_udcp:rtrn_udcp"), ], ) def test_load_with_rtrn_f(pass_f, rtrn_f, expected): assert pass_f(rtrn_f()) == expected @pytest.mark.parametrize( ("pass_f", "rtrn_f", "regex_expected"), [ ( m.pass_udmp_del, m.rtrn_udmp_del, "pass_udmp_del:rtrn_udmp_del,udmp_deleter(_MvCtorTo)*_MvCtorTo", ), ( m.pass_udcp_del, m.rtrn_udcp_del, "pass_udcp_del:rtrn_udcp_del,udcp_deleter(_MvCtorTo)*_MvCtorTo", ), ( m.pass_udmp_del_nd, m.rtrn_udmp_del_nd, "pass_udmp_del_nd:rtrn_udmp_del_nd,udmp_deleter_nd(_MvCtorTo)*_MvCtorTo", ), ( m.pass_udcp_del_nd, m.rtrn_udcp_del_nd, "pass_udcp_del_nd:rtrn_udcp_del_nd,udcp_deleter_nd(_MvCtorTo)*_MvCtorTo", ), ], ) def test_deleter_roundtrip(pass_f, rtrn_f, regex_expected): assert re.match(regex_expected, pass_f(rtrn_f())) @pytest.mark.parametrize( ("pass_f", "rtrn_f", "expected"), [ (m.pass_uqmp, m.rtrn_uqmp, "pass_uqmp:rtrn_uqmp"), (m.pass_uqcp, m.rtrn_uqcp, "pass_uqcp:rtrn_uqcp"), (m.pass_udmp, m.rtrn_udmp, "pass_udmp:rtrn_udmp"), (m.pass_udcp, m.rtrn_udcp, "pass_udcp:rtrn_udcp"), ], ) def test_pass_unique_ptr_disowns(pass_f, rtrn_f, expected): obj = rtrn_f() assert pass_f(obj) == expected with pytest.raises(ValueError) as exc_info: pass_f(obj) assert str(exc_info.value) == ( "Missing value for wrapped C++ type" + " `pybind11_tests::class_sh_basic::atyp`:" + " Python instance was disowned." ) @pytest.mark.parametrize( ("pass_f", "rtrn_f"), [ (m.pass_uqmp, m.rtrn_uqmp), (m.pass_uqcp, m.rtrn_uqcp), (m.pass_udmp, m.rtrn_udmp), (m.pass_udcp, m.rtrn_udcp), ], ) def test_cannot_disown_use_count_ne_1(pass_f, rtrn_f): obj = rtrn_f() stash = m.SharedPtrStash() stash.Add(obj) with pytest.raises(ValueError) as exc_info: pass_f(obj) assert str(exc_info.value) == ( "Cannot disown use_count != 1 (loaded_as_unique_ptr)." ) def test_unique_ptr_roundtrip(num_round_trips=1000): # Multiple roundtrips to stress-test instance registration/deregistration. recycled = m.atyp("passenger") for _ in range(num_round_trips): id_orig = id(recycled) recycled = m.unique_ptr_roundtrip(recycled) assert re.match("passenger(_MvCtor)*_MvCtor", m.get_mtxt(recycled)) id_rtrn = id(recycled) # Ensure the returned object is a different Python instance. assert id_rtrn != id_orig id_orig = id_rtrn # This currently fails, because a unique_ptr is always loaded by value # due to pybind11/detail/smart_holder_type_casters.h:689 # I think, we need to provide more cast operators. @pytest.mark.skip() def test_unique_ptr_cref_roundtrip(): orig = m.atyp("passenger") id_orig = id(orig) mtxt_orig = m.get_mtxt(orig) recycled = m.unique_ptr_cref_roundtrip(orig) assert m.get_mtxt(orig) == mtxt_orig assert m.get_mtxt(recycled) == mtxt_orig assert id(recycled) == id_orig @pytest.mark.parametrize( ("pass_f", "rtrn_f", "moved_out", "moved_in"), [ (m.uconsumer.pass_valu, m.uconsumer.rtrn_valu, True, True), (m.uconsumer.pass_rref, m.uconsumer.rtrn_valu, True, True), (m.uconsumer.pass_valu, m.uconsumer.rtrn_lref, True, False), (m.uconsumer.pass_valu, m.uconsumer.rtrn_cref, True, False), ], ) def test_unique_ptr_consumer_roundtrip(pass_f, rtrn_f, moved_out, moved_in): c = m.uconsumer() assert not c.valid() recycled = m.atyp("passenger") mtxt_orig = m.get_mtxt(recycled) assert re.match("passenger_(MvCtor){1,2}", mtxt_orig) pass_f(c, recycled) if moved_out: with pytest.raises(ValueError) as excinfo: m.get_mtxt(recycled) assert "Python instance was disowned" in str(excinfo.value) recycled = rtrn_f(c) assert c.valid() != moved_in assert m.get_mtxt(recycled) == mtxt_orig def test_py_type_handle_of_atyp(): obj = m.py_type_handle_of_atyp() assert obj.__class__.__name__ == "pybind11_type" def test_function_signatures(doc): assert ( doc(m.args_shared_ptr) == "args_shared_ptr(arg0: m.class_sh_basic.atyp) -> m.class_sh_basic.atyp" ) assert ( doc(m.args_shared_ptr_const) == "args_shared_ptr_const(arg0: m.class_sh_basic.atyp) -> m.class_sh_basic.atyp" ) assert ( doc(m.args_unique_ptr) == "args_unique_ptr(arg0: m.class_sh_basic.atyp) -> m.class_sh_basic.atyp" ) assert ( doc(m.args_unique_ptr_const) == "args_unique_ptr_const(arg0: m.class_sh_basic.atyp) -> m.class_sh_basic.atyp" ) def test_unique_ptr_return_value_policy_automatic_reference(): assert m.get_mtxt(m.rtrn_uq_automatic_reference()) == "rtrn_uq_automatic_reference" def test_unusual_op_ref(): # Merely to test that this still exists and built successfully. assert m.CallCastUnusualOpRefConstRef().__class__.__name__ == "LocalUnusualOpRef" assert m.CallCastUnusualOpRefMovable().__class__.__name__ == "LocalUnusualOpRef"