/* tests/test_stl_binders.cpp -- Usage of stl_binders functions Copyright (c) 2016 Sergey Lyskov All rights reserved. Use of this source code is governed by a BSD-style license that can be found in the LICENSE file. */ #include #include #include "pybind11_tests.h" #include #include #include #include class El { public: El() = delete; explicit El(int v) : a(v) {} int a; }; std::ostream &operator<<(std::ostream &s, El const &v) { s << "El{" << v.a << '}'; return s; } /// Issue #487: binding std::vector with E non-copyable class E_nc { public: explicit E_nc(int i) : value{i} {} E_nc(const E_nc &) = delete; E_nc &operator=(const E_nc &) = delete; E_nc(E_nc &&) = default; E_nc &operator=(E_nc &&) = default; int value; }; template Container *one_to_n(int n) { auto *v = new Container(); for (int i = 1; i <= n; i++) { v->emplace_back(i); } return v; } template Map *times_ten(int n) { auto *m = new Map(); for (int i = 1; i <= n; i++) { m->emplace(int(i), E_nc(10 * i)); } return m; } template NestMap *times_hundred(int n) { auto *m = new NestMap(); for (int i = 1; i <= n; i++) { for (int j = 1; j <= n; j++) { (*m)[i].emplace(int(j * 10), E_nc(100 * j)); } } return m; } /* * Recursive data structures as test for issue #4623 */ struct RecursiveVector : std::vector { using Parent = std::vector; using Parent::Parent; }; struct RecursiveMap : std::map { using Parent = std::map; using Parent::Parent; }; class UserVectorLike : private std::vector { public: // This is only a subset of the member functions, as needed at the time. using Base = std::vector; using typename Base::const_iterator; using typename Base::difference_type; using typename Base::iterator; using typename Base::size_type; using typename Base::value_type; using Base::at; using Base::back; using Base::Base; using Base::begin; using Base::cbegin; using Base::cend; using Base::clear; using Base::empty; using Base::end; using Base::erase; using Base::front; using Base::insert; using Base::pop_back; using Base::push_back; using Base::reserve; using Base::shrink_to_fit; using Base::swap; using Base::operator[]; using Base::capacity; using Base::size; }; bool operator==(UserVectorLike const &, UserVectorLike const &) { return true; } bool operator!=(UserVectorLike const &, UserVectorLike const &) { return false; } class UserMapLike : private std::map { public: // This is only a subset of the member functions, as needed at the time. using Base = std::map; using typename Base::const_iterator; using typename Base::iterator; using typename Base::key_type; using typename Base::mapped_type; using typename Base::size_type; using typename Base::value_type; using Base::at; using Base::Base; using Base::begin; using Base::cbegin; using Base::cend; using Base::clear; using Base::emplace; using Base::emplace_hint; using Base::empty; using Base::end; using Base::erase; using Base::find; using Base::insert; using Base::max_size; using Base::swap; using Base::operator[]; using Base::size; }; /* * Pybind11 does not catch more complicated recursion schemes, such as mutual * recursion. * In that case custom recursive_container_traits specializations need to be added, * thus manually telling pybind11 about the recursion. */ struct MutuallyRecursiveContainerPairMV; struct MutuallyRecursiveContainerPairVM; struct MutuallyRecursiveContainerPairMV : std::map {}; struct MutuallyRecursiveContainerPairVM : std::vector {}; namespace pybind11 { namespace detail { template struct recursive_container_traits { using type_to_check_recursively = recursive_bottom; }; template struct recursive_container_traits { using type_to_check_recursively = recursive_bottom; }; } // namespace detail } // namespace pybind11 TEST_SUBMODULE(stl_binders, m) { // test_vector_int py::bind_vector>(m, "VectorInt", py::buffer_protocol()); // test_vector_custom py::class_(m, "El").def(py::init()); py::bind_vector>(m, "VectorEl"); py::bind_vector>>(m, "VectorVectorEl"); // test_map_string_double py::bind_map>(m, "MapStringDouble"); py::bind_map>(m, "UnorderedMapStringDouble"); // test_map_string_double_const py::bind_map>(m, "MapStringDoubleConst"); py::bind_map>(m, "UnorderedMapStringDoubleConst"); py::class_(m, "ENC").def(py::init()).def_readwrite("value", &E_nc::value); // test_noncopyable_containers py::bind_vector>(m, "VectorENC"); m.def("get_vnc", &one_to_n>); py::bind_vector>(m, "DequeENC"); m.def("get_dnc", &one_to_n>); py::bind_map>(m, "MapENC"); m.def("get_mnc", ×_ten>); py::bind_map>(m, "UmapENC"); m.def("get_umnc", ×_ten>); // Issue #1885: binding nested std::map> with E non-copyable py::bind_map>>(m, "MapVecENC"); m.def("get_nvnc", [](int n) { auto *m = new std::map>(); for (int i = 1; i <= n; i++) { for (int j = 1; j <= n; j++) { (*m)[i].emplace_back(j); } } return m; }); py::bind_map>>(m, "MapMapENC"); m.def("get_nmnc", ×_hundred>>); py::bind_map>>(m, "UmapUmapENC"); m.def("get_numnc", ×_hundred>>); // test_vector_buffer py::bind_vector>(m, "VectorUChar", py::buffer_protocol()); // no dtype declared for this version: struct VUndeclStruct { bool w; uint32_t x; double y; bool z; }; m.def("create_undeclstruct", [m]() mutable { py::bind_vector>( m, "VectorUndeclStruct", py::buffer_protocol()); }); // Bind recursive container types py::bind_vector(m, "RecursiveVector"); py::bind_map(m, "RecursiveMap"); py::bind_map(m, "MutuallyRecursiveContainerPairMV"); py::bind_vector(m, "MutuallyRecursiveContainerPairVM"); // Bind with private inheritance + `using` directives. py::bind_vector(m, "UserVectorLike"); py::bind_map(m, "UserMapLike"); // The rest depends on numpy: try { py::module_::import("numpy"); } catch (...) { return; } // test_vector_buffer_numpy struct VStruct { bool w; uint32_t x; double y; bool z; }; PYBIND11_NUMPY_DTYPE(VStruct, w, x, y, z); py::class_(m, "VStruct").def_readwrite("x", &VStruct::x); py::bind_vector>(m, "VectorStruct", py::buffer_protocol()); m.def("get_vectorstruct", [] { return std::vector{{false, 5, 3.0, true}, {true, 30, -1e4, false}}; }); }