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3793c7ed9a
In the latest MSVC in C++17 mode including Eigen causes warnings: warning C4996: 'std::unary_negate<_Fn>': warning STL4008: std::not1(), std::not2(), std::unary_negate, and std::binary_negate are deprecated in C++17. They are superseded by std::not_fn(). You can define _SILENCE_CXX17_NEGATORS_DEPRECATION_WARNING or _SILENCE_ALL_CXX17_DEPRECATION_WARNINGS to acknowledge that you have received this warning. This disables 4996 for the Eigen includes. Catch generates a similar warning for std::uncaught_exception, so disable the warning there, too. In both cases this is temporary; we can (and should) remove the warnings disabling once new upstream versions of Eigen and Catch are available that address the warning. (The Catch one, in particular, looks to be fixed in upstream master, so will probably be fixed in the next (2.0.2) release).
277 lines
9.4 KiB
C++
277 lines
9.4 KiB
C++
#include <pybind11/embed.h>
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#ifdef _MSC_VER
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// Silence MSVC C++17 deprecation warning from Catch regarding std::uncaught_exceptions (up to catch
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// 2.0.1; this should be fixed in the next catch release after 2.0.1).
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# pragma warning(disable: 4996)
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#endif
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#include <catch.hpp>
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#include <thread>
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#include <fstream>
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#include <functional>
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namespace py = pybind11;
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using namespace py::literals;
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class Widget {
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public:
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Widget(std::string message) : message(message) { }
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virtual ~Widget() = default;
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std::string the_message() const { return message; }
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virtual int the_answer() const = 0;
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private:
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std::string message;
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};
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class PyWidget final : public Widget {
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using Widget::Widget;
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int the_answer() const override { PYBIND11_OVERLOAD_PURE(int, Widget, the_answer); }
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};
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PYBIND11_EMBEDDED_MODULE(widget_module, m) {
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py::class_<Widget, PyWidget>(m, "Widget")
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.def(py::init<std::string>())
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.def_property_readonly("the_message", &Widget::the_message);
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m.def("add", [](int i, int j) { return i + j; });
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}
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PYBIND11_EMBEDDED_MODULE(throw_exception, ) {
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throw std::runtime_error("C++ Error");
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}
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PYBIND11_EMBEDDED_MODULE(throw_error_already_set, ) {
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auto d = py::dict();
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d["missing"].cast<py::object>();
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}
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TEST_CASE("Pass classes and data between modules defined in C++ and Python") {
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auto module = py::module::import("test_interpreter");
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REQUIRE(py::hasattr(module, "DerivedWidget"));
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auto locals = py::dict("hello"_a="Hello, World!", "x"_a=5, **module.attr("__dict__"));
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py::exec(R"(
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widget = DerivedWidget("{} - {}".format(hello, x))
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message = widget.the_message
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)", py::globals(), locals);
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REQUIRE(locals["message"].cast<std::string>() == "Hello, World! - 5");
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auto py_widget = module.attr("DerivedWidget")("The question");
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auto message = py_widget.attr("the_message");
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REQUIRE(message.cast<std::string>() == "The question");
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const auto &cpp_widget = py_widget.cast<const Widget &>();
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REQUIRE(cpp_widget.the_answer() == 42);
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}
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TEST_CASE("Import error handling") {
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REQUIRE_NOTHROW(py::module::import("widget_module"));
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REQUIRE_THROWS_WITH(py::module::import("throw_exception"),
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"ImportError: C++ Error");
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REQUIRE_THROWS_WITH(py::module::import("throw_error_already_set"),
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Catch::Contains("ImportError: KeyError"));
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}
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TEST_CASE("There can be only one interpreter") {
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static_assert(std::is_move_constructible<py::scoped_interpreter>::value, "");
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static_assert(!std::is_move_assignable<py::scoped_interpreter>::value, "");
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static_assert(!std::is_copy_constructible<py::scoped_interpreter>::value, "");
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static_assert(!std::is_copy_assignable<py::scoped_interpreter>::value, "");
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REQUIRE_THROWS_WITH(py::initialize_interpreter(), "The interpreter is already running");
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REQUIRE_THROWS_WITH(py::scoped_interpreter(), "The interpreter is already running");
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py::finalize_interpreter();
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REQUIRE_NOTHROW(py::scoped_interpreter());
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{
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auto pyi1 = py::scoped_interpreter();
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auto pyi2 = std::move(pyi1);
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}
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py::initialize_interpreter();
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}
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bool has_pybind11_internals_builtin() {
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auto builtins = py::handle(PyEval_GetBuiltins());
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return builtins.contains(PYBIND11_INTERNALS_ID);
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};
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bool has_pybind11_internals_static() {
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return py::detail::get_internals_ptr() != nullptr;
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}
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TEST_CASE("Restart the interpreter") {
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// Verify pre-restart state.
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REQUIRE(py::module::import("widget_module").attr("add")(1, 2).cast<int>() == 3);
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REQUIRE(has_pybind11_internals_builtin());
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REQUIRE(has_pybind11_internals_static());
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// Restart the interpreter.
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py::finalize_interpreter();
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REQUIRE(Py_IsInitialized() == 0);
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py::initialize_interpreter();
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REQUIRE(Py_IsInitialized() == 1);
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// Internals are deleted after a restart.
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REQUIRE_FALSE(has_pybind11_internals_builtin());
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REQUIRE_FALSE(has_pybind11_internals_static());
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pybind11::detail::get_internals();
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REQUIRE(has_pybind11_internals_builtin());
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REQUIRE(has_pybind11_internals_static());
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// Make sure that an interpreter with no get_internals() created until finalize still gets the
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// internals destroyed
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py::finalize_interpreter();
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py::initialize_interpreter();
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bool ran = false;
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py::module::import("__main__").attr("internals_destroy_test") =
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py::capsule(&ran, [](void *ran) { py::detail::get_internals(); *static_cast<bool *>(ran) = true; });
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REQUIRE_FALSE(has_pybind11_internals_builtin());
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REQUIRE_FALSE(has_pybind11_internals_static());
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REQUIRE_FALSE(ran);
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py::finalize_interpreter();
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REQUIRE(ran);
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py::initialize_interpreter();
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REQUIRE_FALSE(has_pybind11_internals_builtin());
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REQUIRE_FALSE(has_pybind11_internals_static());
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// C++ modules can be reloaded.
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auto cpp_module = py::module::import("widget_module");
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REQUIRE(cpp_module.attr("add")(1, 2).cast<int>() == 3);
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// C++ type information is reloaded and can be used in python modules.
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auto py_module = py::module::import("test_interpreter");
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auto py_widget = py_module.attr("DerivedWidget")("Hello after restart");
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REQUIRE(py_widget.attr("the_message").cast<std::string>() == "Hello after restart");
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}
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TEST_CASE("Subinterpreter") {
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// Add tags to the modules in the main interpreter and test the basics.
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py::module::import("__main__").attr("main_tag") = "main interpreter";
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{
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auto m = py::module::import("widget_module");
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m.attr("extension_module_tag") = "added to module in main interpreter";
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REQUIRE(m.attr("add")(1, 2).cast<int>() == 3);
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}
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REQUIRE(has_pybind11_internals_builtin());
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REQUIRE(has_pybind11_internals_static());
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/// Create and switch to a subinterpreter.
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auto main_tstate = PyThreadState_Get();
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auto sub_tstate = Py_NewInterpreter();
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// Subinterpreters get their own copy of builtins. detail::get_internals() still
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// works by returning from the static variable, i.e. all interpreters share a single
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// global pybind11::internals;
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REQUIRE_FALSE(has_pybind11_internals_builtin());
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REQUIRE(has_pybind11_internals_static());
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// Modules tags should be gone.
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REQUIRE_FALSE(py::hasattr(py::module::import("__main__"), "tag"));
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{
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auto m = py::module::import("widget_module");
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REQUIRE_FALSE(py::hasattr(m, "extension_module_tag"));
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// Function bindings should still work.
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REQUIRE(m.attr("add")(1, 2).cast<int>() == 3);
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}
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// Restore main interpreter.
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Py_EndInterpreter(sub_tstate);
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PyThreadState_Swap(main_tstate);
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REQUIRE(py::hasattr(py::module::import("__main__"), "main_tag"));
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REQUIRE(py::hasattr(py::module::import("widget_module"), "extension_module_tag"));
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}
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TEST_CASE("Execution frame") {
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// When the interpreter is embedded, there is no execution frame, but `py::exec`
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// should still function by using reasonable globals: `__main__.__dict__`.
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py::exec("var = dict(number=42)");
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REQUIRE(py::globals()["var"]["number"].cast<int>() == 42);
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}
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TEST_CASE("Threads") {
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// Restart interpreter to ensure threads are not initialized
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py::finalize_interpreter();
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py::initialize_interpreter();
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REQUIRE_FALSE(has_pybind11_internals_static());
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constexpr auto num_threads = 10;
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auto locals = py::dict("count"_a=0);
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{
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py::gil_scoped_release gil_release{};
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REQUIRE(has_pybind11_internals_static());
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auto threads = std::vector<std::thread>();
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for (auto i = 0; i < num_threads; ++i) {
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threads.emplace_back([&]() {
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py::gil_scoped_acquire gil{};
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locals["count"] = locals["count"].cast<int>() + 1;
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});
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}
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for (auto &thread : threads) {
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thread.join();
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}
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}
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REQUIRE(locals["count"].cast<int>() == num_threads);
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}
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// Scope exit utility https://stackoverflow.com/a/36644501/7255855
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struct scope_exit {
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std::function<void()> f_;
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explicit scope_exit(std::function<void()> f) noexcept : f_(std::move(f)) {}
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~scope_exit() { if (f_) f_(); }
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};
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TEST_CASE("Reload module from file") {
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// Disable generation of cached bytecode (.pyc files) for this test, otherwise
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// Python might pick up an old version from the cache instead of the new versions
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// of the .py files generated below
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auto sys = py::module::import("sys");
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bool dont_write_bytecode = sys.attr("dont_write_bytecode").cast<bool>();
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sys.attr("dont_write_bytecode") = true;
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// Reset the value at scope exit
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scope_exit reset_dont_write_bytecode([&]() {
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sys.attr("dont_write_bytecode") = dont_write_bytecode;
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});
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std::string module_name = "test_module_reload";
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std::string module_file = module_name + ".py";
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// Create the module .py file
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std::ofstream test_module(module_file);
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test_module << "def test():\n";
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test_module << " return 1\n";
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test_module.close();
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// Delete the file at scope exit
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scope_exit delete_module_file([&]() {
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std::remove(module_file.c_str());
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});
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// Import the module from file
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auto module = py::module::import(module_name.c_str());
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int result = module.attr("test")().cast<int>();
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REQUIRE(result == 1);
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// Update the module .py file with a small change
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test_module.open(module_file);
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test_module << "def test():\n";
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test_module << " return 2\n";
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test_module.close();
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// Reload the module
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module.reload();
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result = module.attr("test")().cast<int>();
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REQUIRE(result == 2);
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}
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