2021-03-08 14:54:22 +00:00
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/*
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tests/test_stl.cpp -- STL type casters
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Copyright (c) 2017 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_tests.h"
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#include "constructor_stats.h"
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#include <pybind11/stl.h>
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2021-08-30 22:58:05 +00:00
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#ifndef PYBIND11_HAS_FILESYSTEM_IS_OPTIONAL
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#define PYBIND11_HAS_FILESYSTEM_IS_OPTIONAL
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#endif
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#include <pybind11/stl/filesystem.h>
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2021-03-08 14:54:22 +00:00
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#include <vector>
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#include <string>
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// Test with `std::variant` in C++17 mode, or with `boost::variant` in C++11/14
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#if defined(PYBIND11_HAS_VARIANT)
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using std::variant;
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#elif defined(PYBIND11_TEST_BOOST) && (!defined(_MSC_VER) || _MSC_VER >= 1910)
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# include <boost/variant.hpp>
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# define PYBIND11_HAS_VARIANT 1
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using boost::variant;
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namespace pybind11 { namespace detail {
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template <typename... Ts>
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struct type_caster<boost::variant<Ts...>> : variant_caster<boost::variant<Ts...>> {};
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template <>
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struct visit_helper<boost::variant> {
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template <typename... Args>
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static auto call(Args &&...args) -> decltype(boost::apply_visitor(args...)) {
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return boost::apply_visitor(args...);
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}
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};
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}} // namespace pybind11::detail
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#endif
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PYBIND11_MAKE_OPAQUE(std::vector<std::string, std::allocator<std::string>>);
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/// Issue #528: templated constructor
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struct TplCtorClass {
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template <typename T> TplCtorClass(const T &) { }
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bool operator==(const TplCtorClass &) const { return true; }
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};
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namespace std {
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template <>
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struct hash<TplCtorClass> { size_t operator()(const TplCtorClass &) const { return 0; } };
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} // namespace std
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template <template <typename> class OptionalImpl, typename T>
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struct OptionalHolder
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{
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OptionalHolder() = default;
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bool member_initialized() const {
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return member && member->initialized;
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}
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OptionalImpl<T> member = T{};
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};
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TEST_SUBMODULE(stl, m) {
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// test_vector
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m.def("cast_vector", []() { return std::vector<int>{1}; });
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m.def("load_vector", [](const std::vector<int> &v) { return v.at(0) == 1 && v.at(1) == 2; });
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// `std::vector<bool>` is special because it returns proxy objects instead of references
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m.def("cast_bool_vector", []() { return std::vector<bool>{true, false}; });
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m.def("load_bool_vector", [](const std::vector<bool> &v) {
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return v.at(0) == true && v.at(1) == false;
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});
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// Unnumbered regression (caused by #936): pointers to stl containers aren't castable
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static std::vector<RValueCaster> lvv{2};
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m.def("cast_ptr_vector", []() { return &lvv; });
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// test_deque
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m.def("cast_deque", []() { return std::deque<int>{1}; });
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m.def("load_deque", [](const std::deque<int> &v) { return v.at(0) == 1 && v.at(1) == 2; });
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// test_array
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m.def("cast_array", []() { return std::array<int, 2> {{1 , 2}}; });
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m.def("load_array", [](const std::array<int, 2> &a) { return a[0] == 1 && a[1] == 2; });
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// test_valarray
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m.def("cast_valarray", []() { return std::valarray<int>{1, 4, 9}; });
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m.def("load_valarray", [](const std::valarray<int>& v) {
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return v.size() == 3 && v[0] == 1 && v[1] == 4 && v[2] == 9;
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});
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// test_map
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m.def("cast_map", []() { return std::map<std::string, std::string>{{"key", "value"}}; });
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m.def("load_map", [](const std::map<std::string, std::string> &map) {
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return map.at("key") == "value" && map.at("key2") == "value2";
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});
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// test_set
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m.def("cast_set", []() { return std::set<std::string>{"key1", "key2"}; });
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m.def("load_set", [](const std::set<std::string> &set) {
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return (set.count("key1") != 0u) && (set.count("key2") != 0u) && (set.count("key3") != 0u);
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});
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// test_recursive_casting
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m.def("cast_rv_vector", []() { return std::vector<RValueCaster>{2}; });
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m.def("cast_rv_array", []() { return std::array<RValueCaster, 3>(); });
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// NB: map and set keys are `const`, so while we technically do move them (as `const Type &&`),
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// casters don't typically do anything with that, which means they fall to the `const Type &`
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// caster.
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m.def("cast_rv_map", []() { return std::unordered_map<std::string, RValueCaster>{{"a", RValueCaster{}}}; });
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m.def("cast_rv_nested", []() {
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std::vector<std::array<std::list<std::unordered_map<std::string, RValueCaster>>, 2>> v;
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v.emplace_back(); // add an array
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v.back()[0].emplace_back(); // add a map to the array
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v.back()[0].back().emplace("b", RValueCaster{});
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v.back()[0].back().emplace("c", RValueCaster{});
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v.back()[1].emplace_back(); // add a map to the array
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v.back()[1].back().emplace("a", RValueCaster{});
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return v;
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});
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static std::array<RValueCaster, 2> lva;
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static std::unordered_map<std::string, RValueCaster> lvm{{"a", RValueCaster{}}, {"b", RValueCaster{}}};
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static std::unordered_map<std::string, std::vector<std::list<std::array<RValueCaster, 2>>>> lvn;
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lvn["a"].emplace_back(); // add a list
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lvn["a"].back().emplace_back(); // add an array
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lvn["a"].emplace_back(); // another list
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lvn["a"].back().emplace_back(); // add an array
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lvn["b"].emplace_back(); // add a list
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lvn["b"].back().emplace_back(); // add an array
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lvn["b"].back().emplace_back(); // add another array
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m.def("cast_lv_vector", []() -> const decltype(lvv) & { return lvv; });
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m.def("cast_lv_array", []() -> const decltype(lva) & { return lva; });
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m.def("cast_lv_map", []() -> const decltype(lvm) & { return lvm; });
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m.def("cast_lv_nested", []() -> const decltype(lvn) & { return lvn; });
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// #853:
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m.def("cast_unique_ptr_vector", []() {
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std::vector<std::unique_ptr<UserType>> v;
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v.emplace_back(new UserType{7});
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v.emplace_back(new UserType{42});
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return v;
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});
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// test_move_out_container
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struct MoveOutContainer {
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struct Value { int value; };
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std::list<Value> move_list() const { return {{0}, {1}, {2}}; }
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};
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py::class_<MoveOutContainer::Value>(m, "MoveOutContainerValue")
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.def_readonly("value", &MoveOutContainer::Value::value);
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py::class_<MoveOutContainer>(m, "MoveOutContainer")
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.def(py::init<>())
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.def_property_readonly("move_list", &MoveOutContainer::move_list);
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// Class that can be move- and copy-constructed, but not assigned
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struct NoAssign {
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int value;
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explicit NoAssign(int value = 0) : value(value) { }
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NoAssign(const NoAssign &) = default;
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NoAssign(NoAssign &&) = default;
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NoAssign &operator=(const NoAssign &) = delete;
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NoAssign &operator=(NoAssign &&) = delete;
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};
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py::class_<NoAssign>(m, "NoAssign", "Class with no C++ assignment operators")
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.def(py::init<>())
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.def(py::init<int>());
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struct MoveOutDetector
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{
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MoveOutDetector() = default;
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MoveOutDetector(const MoveOutDetector&) = default;
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MoveOutDetector(MoveOutDetector&& other) noexcept
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: initialized(other.initialized) {
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// steal underlying resource
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other.initialized = false;
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}
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bool initialized = true;
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};
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py::class_<MoveOutDetector>(m, "MoveOutDetector", "Class with move tracking")
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.def(py::init<>())
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.def_readonly("initialized", &MoveOutDetector::initialized);
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#ifdef PYBIND11_HAS_OPTIONAL
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// test_optional
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m.attr("has_optional") = true;
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using opt_int = std::optional<int>;
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using opt_no_assign = std::optional<NoAssign>;
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m.def("double_or_zero", [](const opt_int& x) -> int {
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return x.value_or(0) * 2;
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});
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m.def("half_or_none", [](int x) -> opt_int { return x != 0 ? opt_int(x / 2) : opt_int(); });
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m.def("test_nullopt", [](opt_int x) {
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return x.value_or(42);
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}, py::arg_v("x", std::nullopt, "None"));
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m.def("test_no_assign", [](const opt_no_assign &x) {
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return x ? x->value : 42;
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}, py::arg_v("x", std::nullopt, "None"));
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m.def("nodefer_none_optional", [](std::optional<int>) { return true; });
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m.def("nodefer_none_optional", [](const py::none &) { return false; });
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using opt_holder = OptionalHolder<std::optional, MoveOutDetector>;
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py::class_<opt_holder>(m, "OptionalHolder", "Class with optional member")
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.def(py::init<>())
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.def_readonly("member", &opt_holder::member)
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.def("member_initialized", &opt_holder::member_initialized);
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#endif
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#ifdef PYBIND11_HAS_EXP_OPTIONAL
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// test_exp_optional
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m.attr("has_exp_optional") = true;
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using exp_opt_int = std::experimental::optional<int>;
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using exp_opt_no_assign = std::experimental::optional<NoAssign>;
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m.def("double_or_zero_exp", [](const exp_opt_int& x) -> int {
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return x.value_or(0) * 2;
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});
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m.def("half_or_none_exp", [](int x) -> exp_opt_int {
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return x ? exp_opt_int(x / 2) : exp_opt_int();
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});
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m.def("test_nullopt_exp", [](exp_opt_int x) {
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return x.value_or(42);
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}, py::arg_v("x", std::experimental::nullopt, "None"));
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m.def("test_no_assign_exp", [](const exp_opt_no_assign &x) {
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return x ? x->value : 42;
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}, py::arg_v("x", std::experimental::nullopt, "None"));
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using opt_exp_holder = OptionalHolder<std::experimental::optional, MoveOutDetector>;
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py::class_<opt_exp_holder>(m, "OptionalExpHolder", "Class with optional member")
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.def(py::init<>())
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.def_readonly("member", &opt_exp_holder::member)
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.def("member_initialized", &opt_exp_holder::member_initialized);
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#endif
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#ifdef PYBIND11_HAS_FILESYSTEM
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// test_fs_path
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m.attr("has_filesystem") = true;
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m.def("parent_path", [](const std::filesystem::path& p) { return p.parent_path(); });
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#endif
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#ifdef PYBIND11_HAS_VARIANT
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static_assert(std::is_same<py::detail::variant_caster_visitor::result_type, py::handle>::value,
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"visitor::result_type is required by boost::variant in C++11 mode");
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struct visitor {
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using result_type = const char *;
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result_type operator()(int) { return "int"; }
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result_type operator()(const std::string &) { return "std::string"; }
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result_type operator()(double) { return "double"; }
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result_type operator()(std::nullptr_t) { return "std::nullptr_t"; }
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};
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// test_variant
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m.def("load_variant", [](const variant<int, std::string, double, std::nullptr_t> &v) {
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return py::detail::visit_helper<variant>::call(visitor(), v);
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});
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m.def("load_variant_2pass", [](variant<double, int> v) {
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return py::detail::visit_helper<variant>::call(visitor(), v);
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});
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m.def("cast_variant", []() {
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using V = variant<int, std::string>;
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return py::make_tuple(V(5), V("Hello"));
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});
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#endif
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// #528: templated constructor
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// (no python tests: the test here is that this compiles)
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m.def("tpl_ctor_vector", [](std::vector<TplCtorClass> &) {});
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m.def("tpl_ctor_map", [](std::unordered_map<TplCtorClass, TplCtorClass> &) {});
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m.def("tpl_ctor_set", [](std::unordered_set<TplCtorClass> &) {});
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#if defined(PYBIND11_HAS_OPTIONAL)
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m.def("tpl_constr_optional", [](std::optional<TplCtorClass> &) {});
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#elif defined(PYBIND11_HAS_EXP_OPTIONAL)
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m.def("tpl_constr_optional", [](std::experimental::optional<TplCtorClass> &) {});
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#endif
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// test_vec_of_reference_wrapper
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// #171: Can't return STL structures containing reference wrapper
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m.def("return_vec_of_reference_wrapper", [](std::reference_wrapper<UserType> p4) {
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static UserType p1{1}, p2{2}, p3{3};
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return std::vector<std::reference_wrapper<UserType>> {
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std::ref(p1), std::ref(p2), std::ref(p3), p4
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};
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});
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// test_stl_pass_by_pointer
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m.def("stl_pass_by_pointer", [](std::vector<int>* v) { return *v; }, "v"_a=nullptr);
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// #1258: pybind11/stl.h converts string to vector<string>
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m.def("func_with_string_or_vector_string_arg_overload",
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[](const std::vector<std::string> &) { return 1; });
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m.def("func_with_string_or_vector_string_arg_overload",
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[](const std::list<std::string> &) { return 2; });
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m.def("func_with_string_or_vector_string_arg_overload", [](const std::string &) { return 3; });
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2021-03-08 14:54:22 +00:00
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class Placeholder {
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public:
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Placeholder() { print_created(this); }
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Placeholder(const Placeholder &) = delete;
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~Placeholder() { print_destroyed(this); }
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};
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py::class_<Placeholder>(m, "Placeholder");
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/// test_stl_vector_ownership
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m.def("test_stl_ownership",
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[]() {
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std::vector<Placeholder *> result;
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result.push_back(new Placeholder());
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return result;
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},
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py::return_value_policy::take_ownership);
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m.def("array_cast_sequence", [](std::array<int, 3> x) { return x; });
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/// test_issue_1561
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struct Issue1561Inner { std::string data; };
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struct Issue1561Outer { std::vector<Issue1561Inner> list; };
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py::class_<Issue1561Inner>(m, "Issue1561Inner")
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.def(py::init<std::string>())
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.def_readwrite("data", &Issue1561Inner::data);
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py::class_<Issue1561Outer>(m, "Issue1561Outer")
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.def(py::init<>())
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.def_readwrite("list", &Issue1561Outer::list);
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2021-08-30 22:58:05 +00:00
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m.def(
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"return_vector_bool_raw_ptr",
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[]() { return new std::vector<bool>(4513); },
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// Without explicitly specifying `take_ownership`, this function leaks.
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py::return_value_policy::take_ownership);
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2021-03-08 14:54:22 +00:00
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}
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