/* tests/test_methods_and_attributes.cpp -- constructors, deconstructors, attribute access, __str__, argument and return value conventions Copyright (c) 2016 Wenzel Jakob All rights reserved. Use of this source code is governed by a BSD-style license that can be found in the LICENSE file. */ #include "pybind11_tests.h" #include "constructor_stats.h" #if !defined(PYBIND11_OVERLOAD_CAST) template using overload_cast_ = pybind11::detail::overload_cast_impl; #endif class ExampleMandA { public: ExampleMandA() { print_default_created(this); } ExampleMandA(int value) : value(value) { print_created(this, value); } ExampleMandA(const ExampleMandA &e) : value(e.value) { print_copy_created(this); } ExampleMandA(ExampleMandA &&e) : value(e.value) { print_move_created(this); } ~ExampleMandA() { print_destroyed(this); } std::string toString() { return "ExampleMandA[value=" + std::to_string(value) + "]"; } void operator=(const ExampleMandA &e) { print_copy_assigned(this); value = e.value; } void operator=(ExampleMandA &&e) { print_move_assigned(this); value = e.value; } void add1(ExampleMandA other) { value += other.value; } // passing by value void add2(ExampleMandA &other) { value += other.value; } // passing by reference void add3(const ExampleMandA &other) { value += other.value; } // passing by const reference void add4(ExampleMandA *other) { value += other->value; } // passing by pointer void add5(const ExampleMandA *other) { value += other->value; } // passing by const pointer void add6(int other) { value += other; } // passing by value void add7(int &other) { value += other; } // passing by reference void add8(const int &other) { value += other; } // passing by const reference void add9(int *other) { value += *other; } // passing by pointer void add10(const int *other) { value += *other; } // passing by const pointer ExampleMandA self1() { return *this; } // return by value ExampleMandA &self2() { return *this; } // return by reference const ExampleMandA &self3() { return *this; } // return by const reference ExampleMandA *self4() { return this; } // return by pointer const ExampleMandA *self5() { return this; } // return by const pointer int internal1() { return value; } // return by value int &internal2() { return value; } // return by reference const int &internal3() { return value; } // return by const reference int *internal4() { return &value; } // return by pointer const int *internal5() { return &value; } // return by const pointer py::str overloaded() { return "()"; } py::str overloaded(int) { return "(int)"; } py::str overloaded(int, float) { return "(int, float)"; } py::str overloaded(float, int) { return "(float, int)"; } py::str overloaded(int, int) { return "(int, int)"; } py::str overloaded(float, float) { return "(float, float)"; } py::str overloaded(int) const { return "(int) const"; } py::str overloaded(int, float) const { return "(int, float) const"; } py::str overloaded(float, int) const { return "(float, int) const"; } py::str overloaded(int, int) const { return "(int, int) const"; } py::str overloaded(float, float) const { return "(float, float) const"; } static py::str overloaded(float) { return "static float"; } int value = 0; }; struct TestProperties { int value = 1; static int static_value; int get() const { return value; } void set(int v) { value = v; } static int static_get() { return static_value; } static void static_set(int v) { static_value = v; } }; int TestProperties::static_value = 1; struct TestPropertiesOverride : TestProperties { int value = 99; static int static_value; }; int TestPropertiesOverride::static_value = 99; struct TestPropRVP { UserType v1{1}; UserType v2{1}; static UserType sv1; static UserType sv2; const UserType &get1() const { return v1; } const UserType &get2() const { return v2; } UserType get_rvalue() const { return v2; } void set1(int v) { v1.set(v); } void set2(int v) { v2.set(v); } }; UserType TestPropRVP::sv1(1); UserType TestPropRVP::sv2(1); // py::arg/py::arg_v testing: these arguments just record their argument when invoked class ArgInspector1 { public: std::string arg = "(default arg inspector 1)"; }; class ArgInspector2 { public: std::string arg = "(default arg inspector 2)"; }; class ArgAlwaysConverts { }; namespace pybind11 { namespace detail { template <> struct type_caster { public: PYBIND11_TYPE_CASTER(ArgInspector1, _("ArgInspector1")); bool load(handle src, bool convert) { value.arg = "loading ArgInspector1 argument " + std::string(convert ? "WITH" : "WITHOUT") + " conversion allowed. " "Argument value = " + (std::string) str(src); return true; } static handle cast(const ArgInspector1 &src, return_value_policy, handle) { return str(src.arg).release(); } }; template <> struct type_caster { public: PYBIND11_TYPE_CASTER(ArgInspector2, _("ArgInspector2")); bool load(handle src, bool convert) { value.arg = "loading ArgInspector2 argument " + std::string(convert ? "WITH" : "WITHOUT") + " conversion allowed. " "Argument value = " + (std::string) str(src); return true; } static handle cast(const ArgInspector2 &src, return_value_policy, handle) { return str(src.arg).release(); } }; template <> struct type_caster { public: PYBIND11_TYPE_CASTER(ArgAlwaysConverts, _("ArgAlwaysConverts")); bool load(handle, bool convert) { return convert; } static handle cast(const ArgAlwaysConverts &, return_value_policy, handle) { return py::none().release(); } }; }} // test_custom_caster_destruction class DestructionTester { public: DestructionTester() { print_default_created(this); } ~DestructionTester() { print_destroyed(this); } DestructionTester(const DestructionTester &) { print_copy_created(this); } DestructionTester(DestructionTester &&) { print_move_created(this); } DestructionTester &operator=(const DestructionTester &) { print_copy_assigned(this); return *this; } DestructionTester &operator=(DestructionTester &&) { print_move_assigned(this); return *this; } }; namespace pybind11 { namespace detail { template <> struct type_caster { PYBIND11_TYPE_CASTER(DestructionTester, _("DestructionTester")); bool load(handle, bool) { return true; } static handle cast(const DestructionTester &, return_value_policy, handle) { return py::bool_(true).release(); } }; }} // Test None-allowed py::arg argument policy class NoneTester { public: int answer = 42; }; int none1(const NoneTester &obj) { return obj.answer; } int none2(NoneTester *obj) { return obj ? obj->answer : -1; } int none3(std::shared_ptr &obj) { return obj ? obj->answer : -1; } int none4(std::shared_ptr *obj) { return obj && *obj ? (*obj)->answer : -1; } int none5(std::shared_ptr obj) { return obj ? obj->answer : -1; } struct StrIssue { int val = -1; StrIssue() = default; StrIssue(int i) : val{i} {} }; // Issues #854, #910: incompatible function args when member function/pointer is in unregistered base class class UnregisteredBase { public: void do_nothing() const {} void increase_value() { rw_value++; ro_value += 0.25; } void set_int(int v) { rw_value = v; } int get_int() const { return rw_value; } double get_double() const { return ro_value; } int rw_value = 42; double ro_value = 1.25; }; class RegisteredDerived : public UnregisteredBase { public: using UnregisteredBase::UnregisteredBase; double sum() const { return rw_value + ro_value; } }; TEST_SUBMODULE(methods_and_attributes, m) { // test_methods_and_attributes py::class_ emna(m, "ExampleMandA"); emna.def(py::init<>()) .def(py::init()) .def(py::init()) .def("add1", &ExampleMandA::add1) .def("add2", &ExampleMandA::add2) .def("add3", &ExampleMandA::add3) .def("add4", &ExampleMandA::add4) .def("add5", &ExampleMandA::add5) .def("add6", &ExampleMandA::add6) .def("add7", &ExampleMandA::add7) .def("add8", &ExampleMandA::add8) .def("add9", &ExampleMandA::add9) .def("add10", &ExampleMandA::add10) .def("self1", &ExampleMandA::self1) .def("self2", &ExampleMandA::self2) .def("self3", &ExampleMandA::self3) .def("self4", &ExampleMandA::self4) .def("self5", &ExampleMandA::self5) .def("internal1", &ExampleMandA::internal1) .def("internal2", &ExampleMandA::internal2) .def("internal3", &ExampleMandA::internal3) .def("internal4", &ExampleMandA::internal4) .def("internal5", &ExampleMandA::internal5) #if defined(PYBIND11_OVERLOAD_CAST) .def("overloaded", py::overload_cast<>(&ExampleMandA::overloaded)) .def("overloaded", py::overload_cast(&ExampleMandA::overloaded)) .def("overloaded", py::overload_cast(&ExampleMandA::overloaded)) .def("overloaded", py::overload_cast(&ExampleMandA::overloaded)) .def("overloaded", py::overload_cast(&ExampleMandA::overloaded)) .def("overloaded", py::overload_cast(&ExampleMandA::overloaded)) .def("overloaded_float", py::overload_cast(&ExampleMandA::overloaded)) .def("overloaded_const", py::overload_cast(&ExampleMandA::overloaded, py::const_)) .def("overloaded_const", py::overload_cast(&ExampleMandA::overloaded, py::const_)) .def("overloaded_const", py::overload_cast(&ExampleMandA::overloaded, py::const_)) .def("overloaded_const", py::overload_cast(&ExampleMandA::overloaded, py::const_)) .def("overloaded_const", py::overload_cast(&ExampleMandA::overloaded, py::const_)) #else // Use both the traditional static_cast method and the C++11 compatible overload_cast_ .def("overloaded", overload_cast_<>()(&ExampleMandA::overloaded)) .def("overloaded", overload_cast_()(&ExampleMandA::overloaded)) .def("overloaded", overload_cast_()(&ExampleMandA::overloaded)) .def("overloaded", static_cast(&ExampleMandA::overloaded)) .def("overloaded", static_cast(&ExampleMandA::overloaded)) .def("overloaded", static_cast(&ExampleMandA::overloaded)) .def("overloaded_float", overload_cast_()(&ExampleMandA::overloaded)) .def("overloaded_const", overload_cast_()(&ExampleMandA::overloaded, py::const_)) .def("overloaded_const", overload_cast_()(&ExampleMandA::overloaded, py::const_)) .def("overloaded_const", static_cast(&ExampleMandA::overloaded)) .def("overloaded_const", static_cast(&ExampleMandA::overloaded)) .def("overloaded_const", static_cast(&ExampleMandA::overloaded)) #endif // test_no_mixed_overloads // Raise error if trying to mix static/non-static overloads on the same name: .def_static("add_mixed_overloads1", []() { auto emna = py::reinterpret_borrow>(py::module::import("pybind11_tests.methods_and_attributes").attr("ExampleMandA")); emna.def ("overload_mixed1", static_cast(&ExampleMandA::overloaded)) .def_static("overload_mixed1", static_cast(&ExampleMandA::overloaded)); }) .def_static("add_mixed_overloads2", []() { auto emna = py::reinterpret_borrow>(py::module::import("pybind11_tests.methods_and_attributes").attr("ExampleMandA")); emna.def_static("overload_mixed2", static_cast(&ExampleMandA::overloaded)) .def ("overload_mixed2", static_cast(&ExampleMandA::overloaded)); }) .def("__str__", &ExampleMandA::toString) .def_readwrite("value", &ExampleMandA::value); // test_copy_method // Issue #443: can't call copied methods in Python 3 emna.attr("add2b") = emna.attr("add2"); // test_properties, test_static_properties, test_static_cls py::class_(m, "TestProperties") .def(py::init<>()) .def_readonly("def_readonly", &TestProperties::value) .def_readwrite("def_readwrite", &TestProperties::value) .def_property("def_writeonly", nullptr, [](TestProperties& s,int v) { s.value = v; } ) .def_property("def_property_writeonly", nullptr, &TestProperties::set) .def_property_readonly("def_property_readonly", &TestProperties::get) .def_property("def_property", &TestProperties::get, &TestProperties::set) .def_property("def_property_impossible", nullptr, nullptr) .def_readonly_static("def_readonly_static", &TestProperties::static_value) .def_readwrite_static("def_readwrite_static", &TestProperties::static_value) .def_property_static("def_writeonly_static", nullptr, [](py::object, int v) { TestProperties::static_value = v; }) .def_property_readonly_static("def_property_readonly_static", [](py::object) { return TestProperties::static_get(); }) .def_property_static("def_property_writeonly_static", nullptr, [](py::object, int v) { return TestProperties::static_set(v); }) .def_property_static("def_property_static", [](py::object) { return TestProperties::static_get(); }, [](py::object, int v) { TestProperties::static_set(v); }) .def_property_static("static_cls", [](py::object cls) { return cls; }, [](py::object cls, py::function f) { f(cls); }); py::class_(m, "TestPropertiesOverride") .def(py::init<>()) .def_readonly("def_readonly", &TestPropertiesOverride::value) .def_readonly_static("def_readonly_static", &TestPropertiesOverride::static_value); auto static_get1 = [](py::object) -> const UserType & { return TestPropRVP::sv1; }; auto static_get2 = [](py::object) -> const UserType & { return TestPropRVP::sv2; }; auto static_set1 = [](py::object, int v) { TestPropRVP::sv1.set(v); }; auto static_set2 = [](py::object, int v) { TestPropRVP::sv2.set(v); }; auto rvp_copy = py::return_value_policy::copy; // test_property_return_value_policies py::class_(m, "TestPropRVP") .def(py::init<>()) .def_property_readonly("ro_ref", &TestPropRVP::get1) .def_property_readonly("ro_copy", &TestPropRVP::get2, rvp_copy) .def_property_readonly("ro_func", py::cpp_function(&TestPropRVP::get2, rvp_copy)) .def_property("rw_ref", &TestPropRVP::get1, &TestPropRVP::set1) .def_property("rw_copy", &TestPropRVP::get2, &TestPropRVP::set2, rvp_copy) .def_property("rw_func", py::cpp_function(&TestPropRVP::get2, rvp_copy), &TestPropRVP::set2) .def_property_readonly_static("static_ro_ref", static_get1) .def_property_readonly_static("static_ro_copy", static_get2, rvp_copy) .def_property_readonly_static("static_ro_func", py::cpp_function(static_get2, rvp_copy)) .def_property_static("static_rw_ref", static_get1, static_set1) .def_property_static("static_rw_copy", static_get2, static_set2, rvp_copy) .def_property_static("static_rw_func", py::cpp_function(static_get2, rvp_copy), static_set2) // test_property_rvalue_policy .def_property_readonly("rvalue", &TestPropRVP::get_rvalue) .def_property_readonly_static("static_rvalue", [](py::object) { return UserType(1); }); // test_metaclass_override struct MetaclassOverride { }; py::class_(m, "MetaclassOverride", py::metaclass((PyObject *) &PyType_Type)) .def_property_readonly_static("readonly", [](py::object) { return 1; }); #if !defined(PYPY_VERSION) // test_dynamic_attributes class DynamicClass { public: DynamicClass() { print_default_created(this); } ~DynamicClass() { print_destroyed(this); } }; py::class_(m, "DynamicClass", py::dynamic_attr()) .def(py::init()); class CppDerivedDynamicClass : public DynamicClass { }; py::class_(m, "CppDerivedDynamicClass") .def(py::init()); #endif // test_noconvert_args // // Test converting. The ArgAlwaysConverts is just there to make the first no-conversion pass // fail so that our call always ends up happening via the second dispatch (the one that allows // some conversion). class ArgInspector { public: ArgInspector1 f(ArgInspector1 a, ArgAlwaysConverts) { return a; } std::string g(ArgInspector1 a, const ArgInspector1 &b, int c, ArgInspector2 *d, ArgAlwaysConverts) { return a.arg + "\n" + b.arg + "\n" + std::to_string(c) + "\n" + d->arg; } static ArgInspector2 h(ArgInspector2 a, ArgAlwaysConverts) { return a; } }; py::class_(m, "ArgInspector") .def(py::init<>()) .def("f", &ArgInspector::f, py::arg(), py::arg() = ArgAlwaysConverts()) .def("g", &ArgInspector::g, "a"_a.noconvert(), "b"_a, "c"_a.noconvert()=13, "d"_a=ArgInspector2(), py::arg() = ArgAlwaysConverts()) .def_static("h", &ArgInspector::h, py::arg().noconvert(), py::arg() = ArgAlwaysConverts()) ; m.def("arg_inspect_func", [](ArgInspector2 a, ArgInspector1 b, ArgAlwaysConverts) { return a.arg + "\n" + b.arg; }, py::arg().noconvert(false), py::arg_v(nullptr, ArgInspector1()).noconvert(true), py::arg() = ArgAlwaysConverts()); m.def("floats_preferred", [](double f) { return 0.5 * f; }, py::arg("f")); m.def("floats_only", [](double f) { return 0.5 * f; }, py::arg("f").noconvert()); m.def("ints_preferred", [](int i) { return i / 2; }, py::arg("i")); m.def("ints_only", [](int i) { return i / 2; }, py::arg("i").noconvert()); // test_bad_arg_default // Issue/PR #648: bad arg default debugging output #if !defined(NDEBUG) m.attr("debug_enabled") = true; #else m.attr("debug_enabled") = false; #endif m.def("bad_arg_def_named", []{ auto m = py::module::import("pybind11_tests"); m.def("should_fail", [](int, UnregisteredType) {}, py::arg(), py::arg("a") = UnregisteredType()); }); m.def("bad_arg_def_unnamed", []{ auto m = py::module::import("pybind11_tests"); m.def("should_fail", [](int, UnregisteredType) {}, py::arg(), py::arg() = UnregisteredType()); }); // test_accepts_none py::class_>(m, "NoneTester") .def(py::init<>()); m.def("no_none1", &none1, py::arg().none(false)); m.def("no_none2", &none2, py::arg().none(false)); m.def("no_none3", &none3, py::arg().none(false)); m.def("no_none4", &none4, py::arg().none(false)); m.def("no_none5", &none5, py::arg().none(false)); m.def("ok_none1", &none1); m.def("ok_none2", &none2, py::arg().none(true)); m.def("ok_none3", &none3); m.def("ok_none4", &none4, py::arg().none(true)); m.def("ok_none5", &none5); // test_str_issue // Issue #283: __str__ called on uninitialized instance when constructor arguments invalid py::class_(m, "StrIssue") .def(py::init()) .def(py::init<>()) .def("__str__", [](const StrIssue &si) { return "StrIssue[" + std::to_string(si.val) + "]"; } ); // test_unregistered_base_implementations // // Issues #854/910: incompatible function args when member function/pointer is in unregistered // base class The methods and member pointers below actually resolve to members/pointers in // UnregisteredBase; before this test/fix they would be registered via lambda with a first // argument of an unregistered type, and thus uncallable. py::class_(m, "RegisteredDerived") .def(py::init<>()) .def("do_nothing", &RegisteredDerived::do_nothing) .def("increase_value", &RegisteredDerived::increase_value) .def_readwrite("rw_value", &RegisteredDerived::rw_value) .def_readonly("ro_value", &RegisteredDerived::ro_value) // These should trigger a static_assert if uncommented //.def_readwrite("fails", &UserType::value) // should trigger a static_assert if uncommented //.def_readonly("fails", &UserType::value) // should trigger a static_assert if uncommented .def_property("rw_value_prop", &RegisteredDerived::get_int, &RegisteredDerived::set_int) .def_property_readonly("ro_value_prop", &RegisteredDerived::get_double) // This one is in the registered class: .def("sum", &RegisteredDerived::sum) ; using Adapted = decltype(py::method_adaptor(&RegisteredDerived::do_nothing)); static_assert(std::is_same::value, ""); // test_custom_caster_destruction // Test that `take_ownership` works on types with a custom type caster when given a pointer // default policy: don't take ownership: m.def("custom_caster_no_destroy", []() { static auto *dt = new DestructionTester(); return dt; }); m.def("custom_caster_destroy", []() { return new DestructionTester(); }, py::return_value_policy::take_ownership); // Takes ownership: destroy when finished m.def("custom_caster_destroy_const", []() -> const DestructionTester * { return new DestructionTester(); }, py::return_value_policy::take_ownership); // Likewise (const doesn't inhibit destruction) m.def("destruction_tester_cstats", &ConstructorStats::get, py::return_value_policy::reference); }