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0d21cadcaf
* fix: allow -Wpedantic again Signed-off-by: Henry Schreiner <henryschreineriii@gmail.com> * tests: ignore pedantic warning for PYBIND11_DECLARE_HOLDER_TYPE Signed-off-by: Henry Schreiner <henryschreineriii@gmail.com> * tests: try just turning off pedantic for one file Signed-off-by: Henry Schreiner <henryschreineriii@gmail.com> * tests: only run pedantic in C++20 mode Signed-off-by: Henry Schreiner <henryschreineriii@gmail.com> * Update tests/local_bindings.h --------- Signed-off-by: Henry Schreiner <henryschreineriii@gmail.com>
601 lines
21 KiB
C++
601 lines
21 KiB
C++
/*
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tests/test_sequences_and_iterators.cpp -- supporting Pythons' sequence protocol, iterators,
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etc.
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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/operators.h>
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#include <pybind11/stl.h>
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#include "constructor_stats.h"
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#include "pybind11_tests.h"
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#include <algorithm>
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#include <utility>
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#include <vector>
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#ifdef PYBIND11_HAS_OPTIONAL
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# include <optional>
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#endif // PYBIND11_HAS_OPTIONAL
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template <typename T>
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class NonZeroIterator {
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const T *ptr_;
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public:
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explicit NonZeroIterator(const T *ptr) : ptr_(ptr) {}
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// Make the iterator non-copyable and movable
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NonZeroIterator(const NonZeroIterator &) = delete;
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NonZeroIterator(NonZeroIterator &&) noexcept = default;
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NonZeroIterator &operator=(const NonZeroIterator &) = delete;
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NonZeroIterator &operator=(NonZeroIterator &&) noexcept = default;
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const T &operator*() const { return *ptr_; }
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NonZeroIterator &operator++() {
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++ptr_;
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return *this;
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}
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};
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class NonZeroSentinel {};
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template <typename A, typename B>
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bool operator==(const NonZeroIterator<std::pair<A, B>> &it, const NonZeroSentinel &) {
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return !(*it).first || !(*it).second;
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}
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/* Iterator where dereferencing returns prvalues instead of references. */
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template <typename T>
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class NonRefIterator {
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const T *ptr_;
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public:
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explicit NonRefIterator(const T *ptr) : ptr_(ptr) {}
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T operator*() const { return T(*ptr_); }
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NonRefIterator &operator++() {
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++ptr_;
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return *this;
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}
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bool operator==(const NonRefIterator &other) const { return ptr_ == other.ptr_; }
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};
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class NonCopyableInt {
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public:
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explicit NonCopyableInt(int value) : value_(value) {}
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NonCopyableInt(const NonCopyableInt &) = delete;
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NonCopyableInt(NonCopyableInt &&other) noexcept : value_(other.value_) {
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other.value_ = -1; // detect when an unwanted move occurs
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}
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NonCopyableInt &operator=(const NonCopyableInt &) = delete;
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NonCopyableInt &operator=(NonCopyableInt &&other) noexcept {
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value_ = other.value_;
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other.value_ = -1; // detect when an unwanted move occurs
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return *this;
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}
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int get() const { return value_; }
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void set(int value) { value_ = value; }
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~NonCopyableInt() = default;
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private:
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int value_;
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};
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using NonCopyableIntPair = std::pair<NonCopyableInt, NonCopyableInt>;
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PYBIND11_MAKE_OPAQUE(std::vector<NonCopyableInt>)
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PYBIND11_MAKE_OPAQUE(std::vector<NonCopyableIntPair>)
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template <typename PythonType>
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py::list test_random_access_iterator(PythonType x) {
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if (x.size() < 5) {
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throw py::value_error("Please provide at least 5 elements for testing.");
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}
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auto checks = py::list();
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auto assert_equal = [&checks](py::handle a, py::handle b) {
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auto result = PyObject_RichCompareBool(a.ptr(), b.ptr(), Py_EQ);
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if (result == -1) {
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throw py::error_already_set();
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}
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checks.append(result != 0);
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};
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auto it = x.begin();
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assert_equal(x[0], *it);
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assert_equal(x[0], it[0]);
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assert_equal(x[1], it[1]);
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assert_equal(x[1], *(++it));
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assert_equal(x[1], *(it++));
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assert_equal(x[2], *it);
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assert_equal(x[3], *(it += 1));
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assert_equal(x[2], *(--it));
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assert_equal(x[2], *(it--));
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assert_equal(x[1], *it);
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assert_equal(x[0], *(it -= 1));
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assert_equal(it->attr("real"), x[0].attr("real"));
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assert_equal((it + 1)->attr("real"), x[1].attr("real"));
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assert_equal(x[1], *(it + 1));
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assert_equal(x[1], *(1 + it));
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it += 3;
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assert_equal(x[1], *(it - 2));
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checks.append(static_cast<std::size_t>(x.end() - x.begin()) == x.size());
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checks.append((x.begin() + static_cast<std::ptrdiff_t>(x.size())) == x.end());
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checks.append(x.begin() < x.end());
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return checks;
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}
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TEST_SUBMODULE(sequences_and_iterators, m) {
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// test_sliceable
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class Sliceable {
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public:
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explicit Sliceable(int n) : size(n) {}
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int start, stop, step;
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int size;
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};
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py::class_<Sliceable>(m, "Sliceable")
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.def(py::init<int>())
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.def("__getitem__", [](const Sliceable &s, const py::slice &slice) {
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py::ssize_t start = 0, stop = 0, step = 0, slicelength = 0;
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if (!slice.compute(s.size, &start, &stop, &step, &slicelength)) {
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throw py::error_already_set();
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}
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int istart = static_cast<int>(start);
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int istop = static_cast<int>(stop);
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int istep = static_cast<int>(step);
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return std::make_tuple(istart, istop, istep);
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});
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m.def("make_forward_slice_size_t", []() { return py::slice(0, -1, 1); });
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m.def("make_reversed_slice_object",
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[]() { return py::slice(py::none(), py::none(), py::int_(-1)); });
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#ifdef PYBIND11_HAS_OPTIONAL
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m.attr("has_optional") = true;
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m.def("make_reversed_slice_size_t_optional_verbose",
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[]() { return py::slice(std::nullopt, std::nullopt, -1); });
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// Warning: The following spelling may still compile if optional<> is not present and give
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// wrong answers. Please use with caution.
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m.def("make_reversed_slice_size_t_optional", []() { return py::slice({}, {}, -1); });
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#else
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m.attr("has_optional") = false;
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#endif
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// test_sequence
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class Sequence {
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public:
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explicit Sequence(size_t size) : m_size(size) {
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print_created(this, "of size", m_size);
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// NOLINTNEXTLINE(cppcoreguidelines-prefer-member-initializer)
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m_data = new float[size];
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memset(m_data, 0, sizeof(float) * size);
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}
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explicit Sequence(const std::vector<float> &value) : m_size(value.size()) {
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print_created(this, "of size", m_size, "from std::vector");
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// NOLINTNEXTLINE(cppcoreguidelines-prefer-member-initializer)
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m_data = new float[m_size];
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memcpy(m_data, &value[0], sizeof(float) * m_size);
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}
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Sequence(const Sequence &s) : m_size(s.m_size) {
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print_copy_created(this);
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// NOLINTNEXTLINE(cppcoreguidelines-prefer-member-initializer)
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m_data = new float[m_size];
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memcpy(m_data, s.m_data, sizeof(float) * m_size);
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}
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Sequence(Sequence &&s) noexcept : m_size(s.m_size), m_data(s.m_data) {
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print_move_created(this);
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s.m_size = 0;
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s.m_data = nullptr;
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}
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~Sequence() {
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print_destroyed(this);
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delete[] m_data;
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}
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Sequence &operator=(const Sequence &s) {
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if (&s != this) {
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delete[] m_data;
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m_size = s.m_size;
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m_data = new float[m_size];
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memcpy(m_data, s.m_data, sizeof(float) * m_size);
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}
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print_copy_assigned(this);
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return *this;
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}
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Sequence &operator=(Sequence &&s) noexcept {
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if (&s != this) {
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delete[] m_data;
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m_size = s.m_size;
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m_data = s.m_data;
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s.m_size = 0;
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s.m_data = nullptr;
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}
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print_move_assigned(this);
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return *this;
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}
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bool operator==(const Sequence &s) const {
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if (m_size != s.size()) {
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return false;
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}
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for (size_t i = 0; i < m_size; ++i) {
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if (m_data[i] != s[i]) {
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return false;
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}
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}
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return true;
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}
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bool operator!=(const Sequence &s) const { return !operator==(s); }
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float operator[](size_t index) const { return m_data[index]; }
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float &operator[](size_t index) { return m_data[index]; }
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bool contains(float v) const {
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for (size_t i = 0; i < m_size; ++i) {
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if (v == m_data[i]) {
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return true;
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}
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}
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return false;
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}
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Sequence reversed() const {
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Sequence result(m_size);
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for (size_t i = 0; i < m_size; ++i) {
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result[m_size - i - 1] = m_data[i];
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}
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return result;
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}
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size_t size() const { return m_size; }
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const float *begin() const { return m_data; }
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const float *end() const { return m_data + m_size; }
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private:
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size_t m_size;
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float *m_data;
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};
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py::class_<Sequence>(m, "Sequence")
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.def(py::init<size_t>())
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.def(py::init<const std::vector<float> &>())
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/// Bare bones interface
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.def("__getitem__",
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[](const Sequence &s, size_t i) {
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if (i >= s.size()) {
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throw py::index_error();
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}
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return s[i];
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})
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.def("__setitem__",
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[](Sequence &s, size_t i, float v) {
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if (i >= s.size()) {
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throw py::index_error();
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}
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s[i] = v;
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})
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.def("__len__", &Sequence::size)
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/// Optional sequence protocol operations
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.def(
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"__iter__",
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[](const Sequence &s) { return py::make_iterator(s.begin(), s.end()); },
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py::keep_alive<0, 1>() /* Essential: keep object alive while iterator exists */)
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.def("__contains__", [](const Sequence &s, float v) { return s.contains(v); })
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.def("__reversed__", [](const Sequence &s) -> Sequence { return s.reversed(); })
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/// Slicing protocol (optional)
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.def("__getitem__",
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[](const Sequence &s, const py::slice &slice) -> Sequence * {
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size_t start = 0, stop = 0, step = 0, slicelength = 0;
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if (!slice.compute(s.size(), &start, &stop, &step, &slicelength)) {
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throw py::error_already_set();
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}
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auto *seq = new Sequence(slicelength);
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for (size_t i = 0; i < slicelength; ++i) {
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(*seq)[i] = s[start];
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start += step;
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}
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return seq;
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})
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.def("__setitem__",
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[](Sequence &s, const py::slice &slice, const Sequence &value) {
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size_t start = 0, stop = 0, step = 0, slicelength = 0;
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if (!slice.compute(s.size(), &start, &stop, &step, &slicelength)) {
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throw py::error_already_set();
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}
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if (slicelength != value.size()) {
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throw std::runtime_error(
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"Left and right hand size of slice assignment have different sizes!");
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}
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for (size_t i = 0; i < slicelength; ++i) {
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s[start] = value[i];
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start += step;
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}
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})
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/// Comparisons
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.def(py::self == py::self)
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.def(py::self != py::self)
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// Could also define py::self + py::self for concatenation, etc.
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;
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// test_map_iterator
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// Interface of a map-like object that isn't (directly) an unordered_map, but provides some
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// basic map-like functionality.
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class StringMap {
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public:
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StringMap() = default;
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explicit StringMap(std::unordered_map<std::string, std::string> init)
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: map(std::move(init)) {}
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void set(const std::string &key, std::string val) { map[key] = std::move(val); }
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std::string get(const std::string &key) const { return map.at(key); }
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size_t size() const { return map.size(); }
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private:
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std::unordered_map<std::string, std::string> map;
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public:
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decltype(map.cbegin()) begin() const { return map.cbegin(); }
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decltype(map.cend()) end() const { return map.cend(); }
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};
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py::class_<StringMap>(m, "StringMap")
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.def(py::init<>())
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.def(py::init<std::unordered_map<std::string, std::string>>())
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.def("__getitem__",
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[](const StringMap &map, const std::string &key) {
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try {
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return map.get(key);
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} catch (const std::out_of_range &) {
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throw py::key_error("key '" + key + "' does not exist");
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}
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})
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.def("__setitem__", &StringMap::set)
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.def("__len__", &StringMap::size)
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.def(
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"__iter__",
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[](const StringMap &map) { return py::make_key_iterator(map.begin(), map.end()); },
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py::keep_alive<0, 1>())
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.def(
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"items",
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[](const StringMap &map) { return py::make_iterator(map.begin(), map.end()); },
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py::keep_alive<0, 1>())
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.def(
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"values",
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[](const StringMap &map) { return py::make_value_iterator(map.begin(), map.end()); },
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py::keep_alive<0, 1>());
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// test_generalized_iterators
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class IntPairs {
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public:
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explicit IntPairs(std::vector<std::pair<int, int>> data) : data_(std::move(data)) {}
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const std::pair<int, int> *begin() const { return data_.data(); }
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// .end() only required for py::make_iterator(self) overload
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const std::pair<int, int> *end() const { return data_.data() + data_.size(); }
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private:
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std::vector<std::pair<int, int>> data_;
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};
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{
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// #4383 : Make sure `py::make_*iterator` functions work with move-only iterators
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using iterator_t = NonZeroIterator<std::pair<int, int>>;
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static_assert(std::is_move_assignable<iterator_t>::value, "");
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static_assert(std::is_move_constructible<iterator_t>::value, "");
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static_assert(!std::is_copy_assignable<iterator_t>::value, "");
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static_assert(!std::is_copy_constructible<iterator_t>::value, "");
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}
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py::class_<IntPairs>(m, "IntPairs")
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.def(py::init<std::vector<std::pair<int, int>>>())
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.def(
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"nonzero",
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[](const IntPairs &s) {
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return py::make_iterator(NonZeroIterator<std::pair<int, int>>(s.begin()),
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NonZeroSentinel());
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},
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py::keep_alive<0, 1>())
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.def(
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"nonzero_keys",
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[](const IntPairs &s) {
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return py::make_key_iterator(NonZeroIterator<std::pair<int, int>>(s.begin()),
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NonZeroSentinel());
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},
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py::keep_alive<0, 1>())
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.def(
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"nonzero_values",
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[](const IntPairs &s) {
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return py::make_value_iterator(NonZeroIterator<std::pair<int, int>>(s.begin()),
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NonZeroSentinel());
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},
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py::keep_alive<0, 1>())
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// test iterator that returns values instead of references
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.def(
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"nonref",
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[](const IntPairs &s) {
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return py::make_iterator(NonRefIterator<std::pair<int, int>>(s.begin()),
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NonRefIterator<std::pair<int, int>>(s.end()));
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},
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py::keep_alive<0, 1>())
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.def(
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"nonref_keys",
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[](const IntPairs &s) {
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return py::make_key_iterator(NonRefIterator<std::pair<int, int>>(s.begin()),
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NonRefIterator<std::pair<int, int>>(s.end()));
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},
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py::keep_alive<0, 1>())
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.def(
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"nonref_values",
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[](const IntPairs &s) {
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return py::make_value_iterator(NonRefIterator<std::pair<int, int>>(s.begin()),
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NonRefIterator<std::pair<int, int>>(s.end()));
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},
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py::keep_alive<0, 1>())
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// test single-argument make_iterator
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.def(
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"simple_iterator",
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[](IntPairs &self) { return py::make_iterator(self); },
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py::keep_alive<0, 1>())
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.def(
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"simple_keys",
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[](IntPairs &self) { return py::make_key_iterator(self); },
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py::keep_alive<0, 1>())
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.def(
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"simple_values",
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[](IntPairs &self) { return py::make_value_iterator(self); },
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py::keep_alive<0, 1>())
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// Test iterator with an Extra (doesn't do anything useful, so not used
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// at runtime, but tests need to be able to compile with the correct
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// overload. See PR #3293.
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.def(
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"_make_iterator_extras",
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[](IntPairs &self) { return py::make_iterator(self, py::call_guard<int>()); },
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py::keep_alive<0, 1>())
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.def(
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"_make_key_extras",
|
|
[](IntPairs &self) { return py::make_key_iterator(self, py::call_guard<int>()); },
|
|
py::keep_alive<0, 1>())
|
|
.def(
|
|
"_make_value_extras",
|
|
[](IntPairs &self) { return py::make_value_iterator(self, py::call_guard<int>()); },
|
|
py::keep_alive<0, 1>());
|
|
|
|
// test_iterator_referencing
|
|
py::class_<NonCopyableInt>(m, "NonCopyableInt")
|
|
.def(py::init<int>())
|
|
.def("set", &NonCopyableInt::set)
|
|
.def("__int__", &NonCopyableInt::get);
|
|
py::class_<std::vector<NonCopyableInt>>(m, "VectorNonCopyableInt")
|
|
.def(py::init<>())
|
|
.def("append",
|
|
[](std::vector<NonCopyableInt> &vec, int value) { vec.emplace_back(value); })
|
|
.def("__iter__", [](std::vector<NonCopyableInt> &vec) {
|
|
return py::make_iterator(vec.begin(), vec.end());
|
|
});
|
|
py::class_<std::vector<NonCopyableIntPair>>(m, "VectorNonCopyableIntPair")
|
|
.def(py::init<>())
|
|
.def("append",
|
|
[](std::vector<NonCopyableIntPair> &vec, const std::pair<int, int> &value) {
|
|
vec.emplace_back(NonCopyableInt(value.first), NonCopyableInt(value.second));
|
|
})
|
|
.def("keys",
|
|
[](std::vector<NonCopyableIntPair> &vec) {
|
|
return py::make_key_iterator(vec.begin(), vec.end());
|
|
})
|
|
.def("values", [](std::vector<NonCopyableIntPair> &vec) {
|
|
return py::make_value_iterator(vec.begin(), vec.end());
|
|
});
|
|
|
|
#if 0
|
|
// Obsolete: special data structure for exposing custom iterator types to python
|
|
// kept here for illustrative purposes because there might be some use cases which
|
|
// are not covered by the much simpler py::make_iterator
|
|
|
|
struct PySequenceIterator {
|
|
PySequenceIterator(const Sequence &seq, py::object ref) : seq(seq), ref(ref) { }
|
|
|
|
float next() {
|
|
if (index == seq.size())
|
|
throw py::stop_iteration();
|
|
return seq[index++];
|
|
}
|
|
|
|
const Sequence &seq;
|
|
py::object ref; // keep a reference
|
|
size_t index = 0;
|
|
};
|
|
|
|
py::class_<PySequenceIterator>(seq, "Iterator")
|
|
.def("__iter__", [](PySequenceIterator &it) -> PySequenceIterator& { return it; })
|
|
.def("__next__", &PySequenceIterator::next);
|
|
|
|
On the actual Sequence object, the iterator would be constructed as follows:
|
|
.def("__iter__", [](py::object s) { return PySequenceIterator(s.cast<const Sequence &>(), s); })
|
|
#endif
|
|
|
|
// test_python_iterator_in_cpp
|
|
m.def("object_to_list", [](const py::object &o) {
|
|
auto l = py::list();
|
|
for (auto item : o) {
|
|
l.append(item);
|
|
}
|
|
return l;
|
|
});
|
|
|
|
m.def("iterator_to_list", [](py::iterator it) {
|
|
auto l = py::list();
|
|
while (it != py::iterator::sentinel()) {
|
|
l.append(*it);
|
|
++it;
|
|
}
|
|
return l;
|
|
});
|
|
|
|
// test_sequence_length: check that Python sequences can be converted to py::sequence.
|
|
m.def("sequence_length", [](const py::sequence &seq) { return seq.size(); });
|
|
|
|
// Make sure that py::iterator works with std algorithms
|
|
m.def("count_none", [](const py::object &o) {
|
|
return std::count_if(o.begin(), o.end(), [](py::handle h) { return h.is_none(); });
|
|
});
|
|
|
|
m.def("find_none", [](const py::object &o) {
|
|
auto it = std::find_if(o.begin(), o.end(), [](py::handle h) { return h.is_none(); });
|
|
return it->is_none();
|
|
});
|
|
|
|
m.def("count_nonzeros", [](const py::dict &d) {
|
|
return std::count_if(d.begin(), d.end(), [](std::pair<py::handle, py::handle> p) {
|
|
return p.second.cast<int>() != 0;
|
|
});
|
|
});
|
|
|
|
m.def("tuple_iterator", &test_random_access_iterator<py::tuple>);
|
|
m.def("list_iterator", &test_random_access_iterator<py::list>);
|
|
m.def("sequence_iterator", &test_random_access_iterator<py::sequence>);
|
|
|
|
// test_iterator_passthrough
|
|
// #181: iterator passthrough did not compile
|
|
m.def("iterator_passthrough", [](py::iterator s) -> py::iterator {
|
|
return py::make_iterator(std::begin(s), std::end(s));
|
|
});
|
|
|
|
// test_iterator_rvp
|
|
// #388: Can't make iterators via make_iterator() with different r/v policies
|
|
static std::vector<int> list = {1, 2, 3};
|
|
m.def("make_iterator_1",
|
|
[]() { return py::make_iterator<py::return_value_policy::copy>(list); });
|
|
m.def("make_iterator_2",
|
|
[]() { return py::make_iterator<py::return_value_policy::automatic>(list); });
|
|
|
|
// test_iterator on c arrays
|
|
// #4100: ensure lvalue required as increment operand
|
|
class CArrayHolder {
|
|
public:
|
|
CArrayHolder(double x, double y, double z) {
|
|
values[0] = x;
|
|
values[1] = y;
|
|
values[2] = z;
|
|
};
|
|
double values[3];
|
|
};
|
|
|
|
py::class_<CArrayHolder>(m, "CArrayHolder")
|
|
.def(py::init<double, double, double>())
|
|
.def(
|
|
"__iter__",
|
|
[](const CArrayHolder &v) { return py::make_iterator(v.values, v.values + 3); },
|
|
py::keep_alive<0, 1>());
|
|
}
|