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https://github.com/pybind/pybind11.git
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ec24786eab
* chore: add clang-format
* Removing check-style (Classic check-style)
Ported from @henryiii's 53056b1b0e
* Automatic clang-format changes (NO manual changes).
Co-authored-by: Henry Schreiner <henryschreineriii@gmail.com>
244 lines
9.0 KiB
C++
244 lines
9.0 KiB
C++
/*
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tests/test_callbacks.cpp -- callbacks
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Copyright (c) 2016 Wenzel Jakob <wenzel.jakob@epfl.ch>
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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/functional.h>
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#include "constructor_stats.h"
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#include "pybind11_tests.h"
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#include <thread>
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int dummy_function(int i) { return i + 1; }
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TEST_SUBMODULE(callbacks, m) {
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// test_callbacks, test_function_signatures
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m.def("test_callback1", [](const py::object &func) { return func(); });
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m.def("test_callback2", [](const py::object &func) { return func("Hello", 'x', true, 5); });
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m.def("test_callback3", [](const std::function<int(int)> &func) {
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return "func(43) = " + std::to_string(func(43));
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});
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m.def("test_callback4",
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[]() -> std::function<int(int)> { return [](int i) { return i + 1; }; });
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m.def("test_callback5",
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[]() { return py::cpp_function([](int i) { return i + 1; }, py::arg("number")); });
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// test_keyword_args_and_generalized_unpacking
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m.def("test_tuple_unpacking", [](const py::function &f) {
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auto t1 = py::make_tuple(2, 3);
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auto t2 = py::make_tuple(5, 6);
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return f("positional", 1, *t1, 4, *t2);
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});
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m.def("test_dict_unpacking", [](const py::function &f) {
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auto d1 = py::dict("key"_a = "value", "a"_a = 1);
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auto d2 = py::dict();
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auto d3 = py::dict("b"_a = 2);
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return f("positional", 1, **d1, **d2, **d3);
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});
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m.def("test_keyword_args", [](const py::function &f) { return f("x"_a = 10, "y"_a = 20); });
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m.def("test_unpacking_and_keywords1", [](const py::function &f) {
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auto args = py::make_tuple(2);
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auto kwargs = py::dict("d"_a = 4);
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return f(1, *args, "c"_a = 3, **kwargs);
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});
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m.def("test_unpacking_and_keywords2", [](const py::function &f) {
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auto kwargs1 = py::dict("a"_a = 1);
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auto kwargs2 = py::dict("c"_a = 3, "d"_a = 4);
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return f("positional",
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*py::make_tuple(1),
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2,
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*py::make_tuple(3, 4),
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5,
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"key"_a = "value",
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**kwargs1,
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"b"_a = 2,
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**kwargs2,
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"e"_a = 5);
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});
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m.def("test_unpacking_error1", [](const py::function &f) {
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auto kwargs = py::dict("x"_a = 3);
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return f("x"_a = 1, "y"_a = 2, **kwargs); // duplicate ** after keyword
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});
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m.def("test_unpacking_error2", [](const py::function &f) {
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auto kwargs = py::dict("x"_a = 3);
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return f(**kwargs, "x"_a = 1); // duplicate keyword after **
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});
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m.def("test_arg_conversion_error1",
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[](const py::function &f) { f(234, UnregisteredType(), "kw"_a = 567); });
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m.def("test_arg_conversion_error2", [](const py::function &f) {
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f(234, "expected_name"_a = UnregisteredType(), "kw"_a = 567);
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});
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// test_lambda_closure_cleanup
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struct Payload {
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Payload() { print_default_created(this); }
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~Payload() { print_destroyed(this); }
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Payload(const Payload &) { print_copy_created(this); }
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Payload(Payload &&) noexcept { print_move_created(this); }
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};
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// Export the payload constructor statistics for testing purposes:
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m.def("payload_cstats", &ConstructorStats::get<Payload>);
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m.def("test_lambda_closure_cleanup", []() -> std::function<void()> {
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Payload p;
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// In this situation, `Func` in the implementation of
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// `cpp_function::initialize` is NOT trivially destructible.
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return [p]() {
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/* p should be cleaned up when the returned function is garbage collected */
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(void) p;
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};
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});
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class CppCallable {
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public:
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CppCallable() { track_default_created(this); }
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~CppCallable() { track_destroyed(this); }
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CppCallable(const CppCallable &) { track_copy_created(this); }
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CppCallable(CppCallable &&) noexcept { track_move_created(this); }
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void operator()() {}
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};
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m.def("test_cpp_callable_cleanup", []() {
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// Related issue: https://github.com/pybind/pybind11/issues/3228
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// Related PR: https://github.com/pybind/pybind11/pull/3229
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py::list alive_counts;
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ConstructorStats &stat = ConstructorStats::get<CppCallable>();
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alive_counts.append(stat.alive());
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{
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CppCallable cpp_callable;
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alive_counts.append(stat.alive());
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{
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// In this situation, `Func` in the implementation of
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// `cpp_function::initialize` IS trivially destructible,
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// only `capture` is not.
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py::cpp_function py_func(cpp_callable);
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py::detail::silence_unused_warnings(py_func);
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alive_counts.append(stat.alive());
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}
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alive_counts.append(stat.alive());
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{
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py::cpp_function py_func(std::move(cpp_callable));
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py::detail::silence_unused_warnings(py_func);
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alive_counts.append(stat.alive());
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}
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alive_counts.append(stat.alive());
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}
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alive_counts.append(stat.alive());
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return alive_counts;
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});
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// test_cpp_function_roundtrip
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/* Test if passing a function pointer from C++ -> Python -> C++ yields the original pointer */
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m.def("dummy_function", &dummy_function);
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m.def("dummy_function_overloaded", [](int i, int j) { return i + j; });
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m.def("dummy_function_overloaded", &dummy_function);
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m.def("dummy_function2", [](int i, int j) { return i + j; });
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m.def(
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"roundtrip",
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[](std::function<int(int)> f, bool expect_none = false) {
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if (expect_none && f) {
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throw std::runtime_error("Expected None to be converted to empty std::function");
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}
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return f;
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},
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py::arg("f"),
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py::arg("expect_none") = false);
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m.def("test_dummy_function", [](const std::function<int(int)> &f) -> std::string {
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using fn_type = int (*)(int);
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const auto *result = f.target<fn_type>();
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if (!result) {
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auto r = f(1);
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return "can't convert to function pointer: eval(1) = " + std::to_string(r);
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}
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if (*result == dummy_function) {
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auto r = (*result)(1);
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return "matches dummy_function: eval(1) = " + std::to_string(r);
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}
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return "argument does NOT match dummy_function. This should never happen!";
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});
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class AbstractBase {
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public:
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// [workaround(intel)] = default does not work here
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// Defaulting this destructor results in linking errors with the Intel compiler
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// (in Debug builds only, tested with icpc (ICC) 2021.1 Beta 20200827)
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virtual ~AbstractBase() {} // NOLINT(modernize-use-equals-default)
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virtual unsigned int func() = 0;
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};
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m.def("func_accepting_func_accepting_base",
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[](const std::function<double(AbstractBase &)> &) {});
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struct MovableObject {
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bool valid = true;
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MovableObject() = default;
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MovableObject(const MovableObject &) = default;
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MovableObject &operator=(const MovableObject &) = default;
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MovableObject(MovableObject &&o) noexcept : valid(o.valid) { o.valid = false; }
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MovableObject &operator=(MovableObject &&o) noexcept {
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valid = o.valid;
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o.valid = false;
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return *this;
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}
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};
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py::class_<MovableObject>(m, "MovableObject");
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// test_movable_object
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m.def("callback_with_movable", [](const std::function<void(MovableObject &)> &f) {
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auto x = MovableObject();
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f(x); // lvalue reference shouldn't move out object
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return x.valid; // must still return `true`
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});
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// test_bound_method_callback
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struct CppBoundMethodTest {};
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py::class_<CppBoundMethodTest>(m, "CppBoundMethodTest")
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.def(py::init<>())
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.def("triple", [](CppBoundMethodTest &, int val) { return 3 * val; });
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// This checks that builtin functions can be passed as callbacks
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// rather than throwing RuntimeError due to trying to extract as capsule
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m.def("test_sum_builtin",
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[](const std::function<double(py::iterable)> &sum_builtin, const py::iterable &i) {
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return sum_builtin(i);
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});
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// test async Python callbacks
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using callback_f = std::function<void(int)>;
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m.def("test_async_callback", [](const callback_f &f, const py::list &work) {
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// make detached thread that calls `f` with piece of work after a little delay
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auto start_f = [f](int j) {
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auto invoke_f = [f, j] {
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std::this_thread::sleep_for(std::chrono::milliseconds(50));
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f(j);
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};
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auto t = std::thread(std::move(invoke_f));
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t.detach();
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};
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// spawn worker threads
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for (auto i : work) {
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start_f(py::cast<int>(i));
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}
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});
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m.def("callback_num_times", [](const py::function &f, std::size_t num) {
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for (std::size_t i = 0; i < num; i++) {
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f();
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}
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});
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}
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