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* Support free-threaded CPython (PEP 703) Some additional locking is added in the free-threaded build when `Py_GIL_DISABLED` is defined: - Most accesses to internals are protected by a single mutex - The registered_instances uses a striped lock to improve concurrency Pybind11 modules can indicate support for running with the GIL disabled by calling `set_gil_not_used()`. * refactor: use PYBIND11_MODULE (#11) Signed-off-by: Henry Schreiner <henryschreineriii@gmail.com> * Address code review * Suppress MSVC warning * Changes from review * style: pre-commit fixes * `py::mod_gil_not_used()` suggestion. * Update include/pybind11/pybind11.h --------- Signed-off-by: Henry Schreiner <henryschreineriii@gmail.com> Co-authored-by: Henry Schreiner <HenrySchreinerIII@gmail.com> Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com> Co-authored-by: Ralf W. Grosse-Kunstleve <rwgk@google.com>
150 lines
6.1 KiB
C++
150 lines
6.1 KiB
C++
/*
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tests/pybind11_cross_module_tests.cpp -- contains tests that require multiple modules
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Copyright (c) 2017 Jason Rhinelander <jason@imaginary.ca>
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All rights reserved. Use of this source code is governed by a
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BSD-style license that can be found in the LICENSE file.
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*/
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#include <pybind11/stl_bind.h>
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#include "local_bindings.h"
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#include "pybind11_tests.h"
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#include "test_exceptions.h"
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#include <numeric>
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#include <utility>
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PYBIND11_MODULE(pybind11_cross_module_tests, m, py::mod_gil_not_used()) {
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m.doc() = "pybind11 cross-module test module";
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// test_local_bindings.py tests:
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//
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// Definitions here are tested by importing both this module and the
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// relevant pybind11_tests submodule from a test_whatever.py
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// test_load_external
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bind_local<ExternalType1>(m, "ExternalType1", py::module_local());
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bind_local<ExternalType2>(m, "ExternalType2", py::module_local());
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// test_exceptions.py
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py::register_local_exception<LocalSimpleException>(m, "LocalSimpleException");
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m.def("raise_runtime_error", []() {
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py::set_error(PyExc_RuntimeError, "My runtime error");
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throw py::error_already_set();
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});
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m.def("raise_value_error", []() {
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py::set_error(PyExc_ValueError, "My value error");
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throw py::error_already_set();
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});
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m.def("throw_pybind_value_error", []() { throw py::value_error("pybind11 value error"); });
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m.def("throw_pybind_type_error", []() { throw py::type_error("pybind11 type error"); });
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m.def("throw_stop_iteration", []() { throw py::stop_iteration(); });
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m.def("throw_local_error", []() { throw LocalException("just local"); });
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m.def("throw_local_simple_error", []() { throw LocalSimpleException("external mod"); });
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py::register_exception_translator([](std::exception_ptr p) {
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try {
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if (p) {
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std::rethrow_exception(p);
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}
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} catch (const shared_exception &e) {
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py::set_error(PyExc_KeyError, e.what());
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}
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});
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// translate the local exception into a key error but only in this module
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py::register_local_exception_translator([](std::exception_ptr p) {
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try {
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if (p) {
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std::rethrow_exception(p);
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}
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} catch (const LocalException &e) {
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py::set_error(PyExc_KeyError, e.what());
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}
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});
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// test_local_bindings.py
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// Local to both:
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bind_local<LocalType, 1>(m, "LocalType", py::module_local()).def("get2", [](LocalType &t) {
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return t.i + 2;
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});
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// Can only be called with our python type:
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m.def("local_value", [](LocalType &l) { return l.i; });
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// test_nonlocal_failure
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// This registration will fail (global registration when LocalFail is already registered
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// globally in the main test module):
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m.def("register_nonlocal", [m]() { bind_local<NonLocalType, 0>(m, "NonLocalType"); });
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// test_stl_bind_local
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// stl_bind.h binders defaults to py::module_local if the types are local or converting:
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py::bind_vector<LocalVec>(m, "LocalVec");
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py::bind_map<LocalMap>(m, "LocalMap");
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// test_stl_bind_global
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// and global if the type (or one of the types, for the map) is global (so these will fail,
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// assuming pybind11_tests is already loaded):
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m.def("register_nonlocal_vec", [m]() { py::bind_vector<NonLocalVec>(m, "NonLocalVec"); });
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m.def("register_nonlocal_map", [m]() { py::bind_map<NonLocalMap>(m, "NonLocalMap"); });
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// The default can, however, be overridden to global using `py::module_local()` or
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// `py::module_local(false)`.
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// Explicitly made local:
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py::bind_vector<NonLocalVec2>(m, "NonLocalVec2", py::module_local());
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// Explicitly made global (and so will fail to bind):
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m.def("register_nonlocal_map2",
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[m]() { py::bind_map<NonLocalMap2>(m, "NonLocalMap2", py::module_local(false)); });
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// test_mixed_local_global
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// We try this both with the global type registered first and vice versa (the order shouldn't
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// matter).
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m.def("register_mixed_global_local",
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[m]() { bind_local<MixedGlobalLocal, 200>(m, "MixedGlobalLocal", py::module_local()); });
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m.def("register_mixed_local_global", [m]() {
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bind_local<MixedLocalGlobal, 2000>(m, "MixedLocalGlobal", py::module_local(false));
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});
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m.def("get_mixed_gl", [](int i) { return MixedGlobalLocal(i); });
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m.def("get_mixed_lg", [](int i) { return MixedLocalGlobal(i); });
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// test_internal_locals_differ
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m.def("local_cpp_types_addr",
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[]() { return (uintptr_t) &py::detail::get_local_internals().registered_types_cpp; });
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// test_stl_caster_vs_stl_bind
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py::bind_vector<std::vector<int>>(m, "VectorInt");
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m.def("load_vector_via_binding",
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[](std::vector<int> &v) { return std::accumulate(v.begin(), v.end(), 0); });
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// test_cross_module_calls
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m.def("return_self", [](LocalVec *v) { return v; });
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m.def("return_copy", [](const LocalVec &v) { return LocalVec(v); });
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class Dog : public pets::Pet {
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public:
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explicit Dog(std::string name) : Pet(std::move(name)) {}
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};
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py::class_<pets::Pet>(m, "Pet", py::module_local()).def("name", &pets::Pet::name);
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// Binding for local extending class:
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py::class_<Dog, pets::Pet>(m, "Dog").def(py::init<std::string>());
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m.def("pet_name", [](pets::Pet &p) { return p.name(); });
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py::class_<MixGL>(m, "MixGL", py::module_local()).def(py::init<int>());
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m.def("get_gl_value", [](MixGL &o) { return o.i + 100; });
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py::class_<MixGL2>(m, "MixGL2", py::module_local()).def(py::init<int>());
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// test_vector_bool
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// We can't test both stl.h and stl_bind.h conversions of `std::vector<bool>` within
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// the same module (it would be an ODR violation). Therefore `bind_vector` of `bool`
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// is defined here and tested in `test_stl_binders.py`.
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py::bind_vector<std::vector<bool>>(m, "VectorBool");
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// test_missing_header_message
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// The main module already includes stl.h, but we need to test the error message
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// which appears when this header is missing.
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m.def("missing_header_arg", [](const std::vector<float> &) {});
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m.def("missing_header_return", []() { return std::vector<float>(); });
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}
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