pybind11/tests/test_class_sh_disowning_mi.cpp
Ralf W. Grosse-Kunstleve 9be8d84b1c [smart_holder] Introduce PYBIND11_SMART_HOLDER_DISABLE option. (#5348)
* Step 1: Establish new `PYBIND11_SMART_HOLDER_ENABLED` macro, but only under include/pybind11/

At the stage `PYBIND11_HAS_INTERNALS_WITH_SMART_HOLDER_SUPPORT` and `PYBIND11_SMART_HOLDER_ENABLED` are still equivalent.

* Systematically replace all `PYBIND11_HAS_INTERNALS_WITH_SMART_HOLDER_SUPPORT` with `PYBIND11_SMART_HOLDER_ENABLED` under tests/ and ubench/

As at the previous stage, `PYBIND11_HAS_INTERNALS_WITH_SMART_HOLDER_SUPPORT` and `PYBIND11_SMART_HOLDER_ENABLED` are still equivalent.

* Introduce `PYBIND11_SMART_HOLDER_DISABLE` option.

* `#ifdef` out entire `wrap()` function to avoid `unused-parameter` warning-as-error under macos-13

```
/Users/runner/work/pybind11/pybind11/tests/test_class_sh_trampoline_basic.cpp:67:23: error: unused parameter 'm' [-Werror,-Wunused-parameter]
void wrap(py::module_ m, const char *py_class_name) {
                      ^
/Users/runner/work/pybind11/pybind11/tests/test_class_sh_trampoline_basic.cpp:67:38: error: unused parameter 'py_class_name' [-Werror,-Wunused-parameter]
void wrap(py::module_ m, const char *py_class_name) {
                                     ^
2 errors generated.
```
2024-09-01 18:29:55 -07:00

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3.0 KiB
C++

#include <pybind11/smart_holder.h>
#include "pybind11_tests.h"
#include <memory>
namespace pybind11_tests {
namespace class_sh_disowning_mi {
// Diamond inheritance (copied from test_multiple_inheritance.cpp).
struct B {
int val_b = 10;
B() = default;
B(const B &) = default;
virtual ~B() = default;
};
struct C0 : public virtual B {
int val_c0 = 20;
};
struct C1 : public virtual B {
int val_c1 = 21;
};
struct D : public C0, public C1 {
int val_d = 30;
};
void disown_b(std::unique_ptr<B>) {}
// test_multiple_inheritance_python
struct Base1 {
explicit Base1(int i) : i(i) {}
int foo() const { return i; }
int i;
};
struct Base2 {
explicit Base2(int j) : j(j) {}
int bar() const { return j; }
int j;
};
int disown_base1(std::unique_ptr<Base1> b1) { return b1->i * 2000 + 1; }
int disown_base2(std::unique_ptr<Base2> b2) { return b2->j * 2000 + 2; }
} // namespace class_sh_disowning_mi
} // namespace pybind11_tests
PYBIND11_SMART_HOLDER_TYPE_CASTERS(pybind11_tests::class_sh_disowning_mi::B)
PYBIND11_SMART_HOLDER_TYPE_CASTERS(pybind11_tests::class_sh_disowning_mi::C0)
PYBIND11_SMART_HOLDER_TYPE_CASTERS(pybind11_tests::class_sh_disowning_mi::C1)
PYBIND11_SMART_HOLDER_TYPE_CASTERS(pybind11_tests::class_sh_disowning_mi::D)
PYBIND11_SMART_HOLDER_TYPE_CASTERS(pybind11_tests::class_sh_disowning_mi::Base1)
PYBIND11_SMART_HOLDER_TYPE_CASTERS(pybind11_tests::class_sh_disowning_mi::Base2)
TEST_SUBMODULE(class_sh_disowning_mi, m) {
m.attr("defined_PYBIND11_SMART_HOLDER_ENABLED") =
#ifndef PYBIND11_SMART_HOLDER_ENABLED
false;
#else
true;
using namespace pybind11_tests::class_sh_disowning_mi;
py::classh<B>(m, "B")
.def(py::init<>())
.def_readonly("val_b", &D::val_b)
.def("b", [](B *self) { return self; })
.def("get", [](const B &self) { return self.val_b; });
py::classh<C0, B>(m, "C0")
.def(py::init<>())
.def_readonly("val_c0", &D::val_c0)
.def("c0", [](C0 *self) { return self; })
.def("get", [](const C0 &self) { return self.val_b * 100 + self.val_c0; });
py::classh<C1, B>(m, "C1")
.def(py::init<>())
.def_readonly("val_c1", &D::val_c1)
.def("c1", [](C1 *self) { return self; })
.def("get", [](const C1 &self) { return self.val_b * 100 + self.val_c1; });
py::classh<D, C0, C1>(m, "D")
.def(py::init<>())
.def_readonly("val_d", &D::val_d)
.def("d", [](D *self) { return self; })
.def("get", [](const D &self) {
return self.val_b * 1000000 + self.val_c0 * 10000 + self.val_c1 * 100 + self.val_d;
});
m.def("disown_b", disown_b);
// test_multiple_inheritance_python
py::classh<Base1>(m, "Base1").def(py::init<int>()).def("foo", &Base1::foo);
py::classh<Base2>(m, "Base2").def(py::init<int>()).def("bar", &Base2::bar);
m.def("disown_base1", disown_base1);
m.def("disown_base2", disown_base2);
#endif // PYBIND11_SMART_HOLDER_ENABLED
}