mirror of
https://github.com/pybind/pybind11.git
synced 2024-11-25 14:45:12 +00:00
05d379a9aa
Fix return from `std::map` bindings to `__delitem__`: we should be returning `void`, not an iterator. Also adds a test for map item deletion.
600 lines
21 KiB
C++
600 lines
21 KiB
C++
/*
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pybind11/std_bind.h: Binding generators for STL data types
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Copyright (c) 2016 Sergey Lyskov and Wenzel Jakob
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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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#pragma once
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#include "detail/common.h"
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#include "operators.h"
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#include <algorithm>
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#include <sstream>
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NAMESPACE_BEGIN(PYBIND11_NAMESPACE)
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NAMESPACE_BEGIN(detail)
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/* SFINAE helper class used by 'is_comparable */
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template <typename T> struct container_traits {
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template <typename T2> static std::true_type test_comparable(decltype(std::declval<const T2 &>() == std::declval<const T2 &>())*);
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template <typename T2> static std::false_type test_comparable(...);
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template <typename T2> static std::true_type test_value(typename T2::value_type *);
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template <typename T2> static std::false_type test_value(...);
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template <typename T2> static std::true_type test_pair(typename T2::first_type *, typename T2::second_type *);
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template <typename T2> static std::false_type test_pair(...);
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static constexpr const bool is_comparable = std::is_same<std::true_type, decltype(test_comparable<T>(nullptr))>::value;
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static constexpr const bool is_pair = std::is_same<std::true_type, decltype(test_pair<T>(nullptr, nullptr))>::value;
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static constexpr const bool is_vector = std::is_same<std::true_type, decltype(test_value<T>(nullptr))>::value;
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static constexpr const bool is_element = !is_pair && !is_vector;
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};
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/* Default: is_comparable -> std::false_type */
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template <typename T, typename SFINAE = void>
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struct is_comparable : std::false_type { };
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/* For non-map data structures, check whether operator== can be instantiated */
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template <typename T>
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struct is_comparable<
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T, enable_if_t<container_traits<T>::is_element &&
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container_traits<T>::is_comparable>>
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: std::true_type { };
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/* For a vector/map data structure, recursively check the value type (which is std::pair for maps) */
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template <typename T>
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struct is_comparable<T, enable_if_t<container_traits<T>::is_vector>> {
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static constexpr const bool value =
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is_comparable<typename T::value_type>::value;
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};
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/* For pairs, recursively check the two data types */
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template <typename T>
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struct is_comparable<T, enable_if_t<container_traits<T>::is_pair>> {
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static constexpr const bool value =
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is_comparable<typename T::first_type>::value &&
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is_comparable<typename T::second_type>::value;
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};
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/* Fallback functions */
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template <typename, typename, typename... Args> void vector_if_copy_constructible(const Args &...) { }
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template <typename, typename, typename... Args> void vector_if_equal_operator(const Args &...) { }
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template <typename, typename, typename... Args> void vector_if_insertion_operator(const Args &...) { }
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template <typename, typename, typename... Args> void vector_modifiers(const Args &...) { }
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template<typename Vector, typename Class_>
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void vector_if_copy_constructible(enable_if_t<is_copy_constructible<Vector>::value, Class_> &cl) {
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cl.def(init<const Vector &>(), "Copy constructor");
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}
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template<typename Vector, typename Class_>
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void vector_if_equal_operator(enable_if_t<is_comparable<Vector>::value, Class_> &cl) {
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using T = typename Vector::value_type;
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cl.def(self == self);
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cl.def(self != self);
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cl.def("count",
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[](const Vector &v, const T &x) {
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return std::count(v.begin(), v.end(), x);
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},
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arg("x"),
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"Return the number of times ``x`` appears in the list"
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);
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cl.def("remove", [](Vector &v, const T &x) {
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auto p = std::find(v.begin(), v.end(), x);
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if (p != v.end())
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v.erase(p);
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else
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throw value_error();
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},
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arg("x"),
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"Remove the first item from the list whose value is x. "
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"It is an error if there is no such item."
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);
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cl.def("__contains__",
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[](const Vector &v, const T &x) {
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return std::find(v.begin(), v.end(), x) != v.end();
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},
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arg("x"),
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"Return true the container contains ``x``"
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);
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}
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// Vector modifiers -- requires a copyable vector_type:
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// (Technically, some of these (pop and __delitem__) don't actually require copyability, but it seems
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// silly to allow deletion but not insertion, so include them here too.)
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template <typename Vector, typename Class_>
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void vector_modifiers(enable_if_t<is_copy_constructible<typename Vector::value_type>::value, Class_> &cl) {
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using T = typename Vector::value_type;
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using SizeType = typename Vector::size_type;
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using DiffType = typename Vector::difference_type;
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cl.def("append",
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[](Vector &v, const T &value) { v.push_back(value); },
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arg("x"),
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"Add an item to the end of the list");
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cl.def(init([](iterable it) {
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auto v = std::unique_ptr<Vector>(new Vector());
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v->reserve(len(it));
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for (handle h : it)
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v->push_back(h.cast<T>());
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return v.release();
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}));
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cl.def("extend",
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[](Vector &v, const Vector &src) {
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v.insert(v.end(), src.begin(), src.end());
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},
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arg("L"),
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"Extend the list by appending all the items in the given list"
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);
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cl.def("insert",
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[](Vector &v, SizeType i, const T &x) {
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if (i > v.size())
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throw index_error();
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v.insert(v.begin() + (DiffType) i, x);
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},
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arg("i") , arg("x"),
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"Insert an item at a given position."
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);
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cl.def("pop",
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[](Vector &v) {
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if (v.empty())
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throw index_error();
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T t = v.back();
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v.pop_back();
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return t;
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},
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"Remove and return the last item"
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);
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cl.def("pop",
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[](Vector &v, SizeType i) {
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if (i >= v.size())
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throw index_error();
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T t = v[i];
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v.erase(v.begin() + (DiffType) i);
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return t;
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},
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arg("i"),
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"Remove and return the item at index ``i``"
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);
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cl.def("__setitem__",
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[](Vector &v, SizeType i, const T &t) {
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if (i >= v.size())
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throw index_error();
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v[i] = t;
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}
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);
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/// Slicing protocol
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cl.def("__getitem__",
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[](const Vector &v, slice slice) -> Vector * {
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size_t start, stop, step, slicelength;
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if (!slice.compute(v.size(), &start, &stop, &step, &slicelength))
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throw error_already_set();
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Vector *seq = new Vector();
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seq->reserve((size_t) slicelength);
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for (size_t i=0; i<slicelength; ++i) {
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seq->push_back(v[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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arg("s"),
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"Retrieve list elements using a slice object"
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);
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cl.def("__setitem__",
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[](Vector &v, slice slice, const Vector &value) {
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size_t start, stop, step, slicelength;
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if (!slice.compute(v.size(), &start, &stop, &step, &slicelength))
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throw error_already_set();
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if (slicelength != value.size())
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throw std::runtime_error("Left and right hand size of slice assignment have different sizes!");
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for (size_t i=0; i<slicelength; ++i) {
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v[start] = value[i];
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start += step;
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}
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},
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"Assign list elements using a slice object"
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);
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cl.def("__delitem__",
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[](Vector &v, SizeType i) {
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if (i >= v.size())
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throw index_error();
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v.erase(v.begin() + DiffType(i));
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},
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"Delete the list elements at index ``i``"
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);
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cl.def("__delitem__",
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[](Vector &v, slice slice) {
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size_t start, stop, step, slicelength;
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if (!slice.compute(v.size(), &start, &stop, &step, &slicelength))
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throw error_already_set();
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if (step == 1 && false) {
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v.erase(v.begin() + (DiffType) start, v.begin() + DiffType(start + slicelength));
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} else {
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for (size_t i = 0; i < slicelength; ++i) {
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v.erase(v.begin() + DiffType(start));
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start += step - 1;
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}
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}
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},
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"Delete list elements using a slice object"
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);
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}
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// If the type has an operator[] that doesn't return a reference (most notably std::vector<bool>),
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// we have to access by copying; otherwise we return by reference.
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template <typename Vector> using vector_needs_copy = negation<
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std::is_same<decltype(std::declval<Vector>()[typename Vector::size_type()]), typename Vector::value_type &>>;
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// The usual case: access and iterate by reference
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template <typename Vector, typename Class_>
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void vector_accessor(enable_if_t<!vector_needs_copy<Vector>::value, Class_> &cl) {
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using T = typename Vector::value_type;
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using SizeType = typename Vector::size_type;
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using ItType = typename Vector::iterator;
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cl.def("__getitem__",
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[](Vector &v, SizeType i) -> T & {
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if (i >= v.size())
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throw index_error();
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return v[i];
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},
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return_value_policy::reference_internal // ref + keepalive
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);
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cl.def("__iter__",
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[](Vector &v) {
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return make_iterator<
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return_value_policy::reference_internal, ItType, ItType, T&>(
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v.begin(), v.end());
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},
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keep_alive<0, 1>() /* Essential: keep list alive while iterator exists */
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);
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}
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// The case for special objects, like std::vector<bool>, that have to be returned-by-copy:
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template <typename Vector, typename Class_>
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void vector_accessor(enable_if_t<vector_needs_copy<Vector>::value, Class_> &cl) {
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using T = typename Vector::value_type;
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using SizeType = typename Vector::size_type;
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using ItType = typename Vector::iterator;
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cl.def("__getitem__",
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[](const Vector &v, SizeType i) -> T {
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if (i >= v.size())
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throw index_error();
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return v[i];
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}
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);
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cl.def("__iter__",
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[](Vector &v) {
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return make_iterator<
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return_value_policy::copy, ItType, ItType, T>(
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v.begin(), v.end());
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},
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keep_alive<0, 1>() /* Essential: keep list alive while iterator exists */
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);
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}
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template <typename Vector, typename Class_> auto vector_if_insertion_operator(Class_ &cl, std::string const &name)
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-> decltype(std::declval<std::ostream&>() << std::declval<typename Vector::value_type>(), void()) {
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using size_type = typename Vector::size_type;
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cl.def("__repr__",
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[name](Vector &v) {
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std::ostringstream s;
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s << name << '[';
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for (size_type i=0; i < v.size(); ++i) {
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s << v[i];
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if (i != v.size() - 1)
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s << ", ";
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}
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s << ']';
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return s.str();
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},
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"Return the canonical string representation of this list."
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);
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}
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// Provide the buffer interface for vectors if we have data() and we have a format for it
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// GCC seems to have "void std::vector<bool>::data()" - doing SFINAE on the existence of data() is insufficient, we need to check it returns an appropriate pointer
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template <typename Vector, typename = void>
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struct vector_has_data_and_format : std::false_type {};
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template <typename Vector>
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struct vector_has_data_and_format<Vector, enable_if_t<std::is_same<decltype(format_descriptor<typename Vector::value_type>::format(), std::declval<Vector>().data()), typename Vector::value_type*>::value>> : std::true_type {};
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// Add the buffer interface to a vector
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template <typename Vector, typename Class_, typename... Args>
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enable_if_t<detail::any_of<std::is_same<Args, buffer_protocol>...>::value>
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vector_buffer(Class_& cl) {
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using T = typename Vector::value_type;
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static_assert(vector_has_data_and_format<Vector>::value, "There is not an appropriate format descriptor for this vector");
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// numpy.h declares this for arbitrary types, but it may raise an exception and crash hard at runtime if PYBIND11_NUMPY_DTYPE hasn't been called, so check here
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format_descriptor<T>::format();
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cl.def_buffer([](Vector& v) -> buffer_info {
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return buffer_info(v.data(), static_cast<ssize_t>(sizeof(T)), format_descriptor<T>::format(), 1, {v.size()}, {sizeof(T)});
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});
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cl.def(init([](buffer buf) {
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auto info = buf.request();
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if (info.ndim != 1 || info.strides[0] % static_cast<ssize_t>(sizeof(T)))
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throw type_error("Only valid 1D buffers can be copied to a vector");
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if (!detail::compare_buffer_info<T>::compare(info) || (ssize_t) sizeof(T) != info.itemsize)
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throw type_error("Format mismatch (Python: " + info.format + " C++: " + format_descriptor<T>::format() + ")");
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auto vec = std::unique_ptr<Vector>(new Vector());
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vec->reserve((size_t) info.shape[0]);
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T *p = static_cast<T*>(info.ptr);
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ssize_t step = info.strides[0] / static_cast<ssize_t>(sizeof(T));
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T *end = p + info.shape[0] * step;
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for (; p != end; p += step)
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vec->push_back(*p);
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return vec.release();
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}));
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return;
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}
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template <typename Vector, typename Class_, typename... Args>
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enable_if_t<!detail::any_of<std::is_same<Args, buffer_protocol>...>::value> vector_buffer(Class_&) {}
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NAMESPACE_END(detail)
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//
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// std::vector
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//
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template <typename Vector, typename holder_type = std::unique_ptr<Vector>, typename... Args>
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class_<Vector, holder_type> bind_vector(handle scope, std::string const &name, Args&&... args) {
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using Class_ = class_<Vector, holder_type>;
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// If the value_type is unregistered (e.g. a converting type) or is itself registered
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// module-local then make the vector binding module-local as well:
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using vtype = typename Vector::value_type;
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auto vtype_info = detail::get_type_info(typeid(vtype));
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bool local = !vtype_info || vtype_info->module_local;
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Class_ cl(scope, name.c_str(), pybind11::module_local(local), std::forward<Args>(args)...);
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// Declare the buffer interface if a buffer_protocol() is passed in
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detail::vector_buffer<Vector, Class_, Args...>(cl);
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cl.def(init<>());
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// Register copy constructor (if possible)
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detail::vector_if_copy_constructible<Vector, Class_>(cl);
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// Register comparison-related operators and functions (if possible)
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detail::vector_if_equal_operator<Vector, Class_>(cl);
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// Register stream insertion operator (if possible)
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detail::vector_if_insertion_operator<Vector, Class_>(cl, name);
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// Modifiers require copyable vector value type
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detail::vector_modifiers<Vector, Class_>(cl);
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// Accessor and iterator; return by value if copyable, otherwise we return by ref + keep-alive
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detail::vector_accessor<Vector, Class_>(cl);
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cl.def("__bool__",
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[](const Vector &v) -> bool {
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return !v.empty();
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},
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"Check whether the list is nonempty"
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);
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cl.def("__len__", &Vector::size);
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#if 0
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// C++ style functions deprecated, leaving it here as an example
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cl.def(init<size_type>());
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cl.def("resize",
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(void (Vector::*) (size_type count)) & Vector::resize,
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"changes the number of elements stored");
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cl.def("erase",
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[](Vector &v, SizeType i) {
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if (i >= v.size())
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throw index_error();
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v.erase(v.begin() + i);
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}, "erases element at index ``i``");
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cl.def("empty", &Vector::empty, "checks whether the container is empty");
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cl.def("size", &Vector::size, "returns the number of elements");
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cl.def("push_back", (void (Vector::*)(const T&)) &Vector::push_back, "adds an element to the end");
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cl.def("pop_back", &Vector::pop_back, "removes the last element");
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cl.def("max_size", &Vector::max_size, "returns the maximum possible number of elements");
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cl.def("reserve", &Vector::reserve, "reserves storage");
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cl.def("capacity", &Vector::capacity, "returns the number of elements that can be held in currently allocated storage");
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cl.def("shrink_to_fit", &Vector::shrink_to_fit, "reduces memory usage by freeing unused memory");
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cl.def("clear", &Vector::clear, "clears the contents");
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cl.def("swap", &Vector::swap, "swaps the contents");
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cl.def("front", [](Vector &v) {
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if (v.size()) return v.front();
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else throw index_error();
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}, "access the first element");
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cl.def("back", [](Vector &v) {
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if (v.size()) return v.back();
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else throw index_error();
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}, "access the last element ");
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#endif
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return cl;
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}
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//
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// std::map, std::unordered_map
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//
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NAMESPACE_BEGIN(detail)
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/* Fallback functions */
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template <typename, typename, typename... Args> void map_if_insertion_operator(const Args &...) { }
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template <typename, typename, typename... Args> void map_assignment(const Args &...) { }
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// Map assignment when copy-assignable: just copy the value
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template <typename Map, typename Class_>
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void map_assignment(enable_if_t<std::is_copy_assignable<typename Map::mapped_type>::value, Class_> &cl) {
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|
using KeyType = typename Map::key_type;
|
|
using MappedType = typename Map::mapped_type;
|
|
|
|
cl.def("__setitem__",
|
|
[](Map &m, const KeyType &k, const MappedType &v) {
|
|
auto it = m.find(k);
|
|
if (it != m.end()) it->second = v;
|
|
else m.emplace(k, v);
|
|
}
|
|
);
|
|
}
|
|
|
|
// Not copy-assignable, but still copy-constructible: we can update the value by erasing and reinserting
|
|
template<typename Map, typename Class_>
|
|
void map_assignment(enable_if_t<
|
|
!std::is_copy_assignable<typename Map::mapped_type>::value &&
|
|
is_copy_constructible<typename Map::mapped_type>::value,
|
|
Class_> &cl) {
|
|
using KeyType = typename Map::key_type;
|
|
using MappedType = typename Map::mapped_type;
|
|
|
|
cl.def("__setitem__",
|
|
[](Map &m, const KeyType &k, const MappedType &v) {
|
|
// We can't use m[k] = v; because value type might not be default constructable
|
|
auto r = m.emplace(k, v);
|
|
if (!r.second) {
|
|
// value type is not copy assignable so the only way to insert it is to erase it first...
|
|
m.erase(r.first);
|
|
m.emplace(k, v);
|
|
}
|
|
}
|
|
);
|
|
}
|
|
|
|
|
|
template <typename Map, typename Class_> auto map_if_insertion_operator(Class_ &cl, std::string const &name)
|
|
-> decltype(std::declval<std::ostream&>() << std::declval<typename Map::key_type>() << std::declval<typename Map::mapped_type>(), void()) {
|
|
|
|
cl.def("__repr__",
|
|
[name](Map &m) {
|
|
std::ostringstream s;
|
|
s << name << '{';
|
|
bool f = false;
|
|
for (auto const &kv : m) {
|
|
if (f)
|
|
s << ", ";
|
|
s << kv.first << ": " << kv.second;
|
|
f = true;
|
|
}
|
|
s << '}';
|
|
return s.str();
|
|
},
|
|
"Return the canonical string representation of this map."
|
|
);
|
|
}
|
|
|
|
|
|
NAMESPACE_END(detail)
|
|
|
|
template <typename Map, typename holder_type = std::unique_ptr<Map>, typename... Args>
|
|
class_<Map, holder_type> bind_map(handle scope, const std::string &name, Args&&... args) {
|
|
using KeyType = typename Map::key_type;
|
|
using MappedType = typename Map::mapped_type;
|
|
using Class_ = class_<Map, holder_type>;
|
|
|
|
// If either type is a non-module-local bound type then make the map binding non-local as well;
|
|
// otherwise (e.g. both types are either module-local or converting) the map will be
|
|
// module-local.
|
|
auto tinfo = detail::get_type_info(typeid(MappedType));
|
|
bool local = !tinfo || tinfo->module_local;
|
|
if (local) {
|
|
tinfo = detail::get_type_info(typeid(KeyType));
|
|
local = !tinfo || tinfo->module_local;
|
|
}
|
|
|
|
Class_ cl(scope, name.c_str(), pybind11::module_local(local), std::forward<Args>(args)...);
|
|
|
|
cl.def(init<>());
|
|
|
|
// Register stream insertion operator (if possible)
|
|
detail::map_if_insertion_operator<Map, Class_>(cl, name);
|
|
|
|
cl.def("__bool__",
|
|
[](const Map &m) -> bool { return !m.empty(); },
|
|
"Check whether the map is nonempty"
|
|
);
|
|
|
|
cl.def("__iter__",
|
|
[](Map &m) { return make_key_iterator(m.begin(), m.end()); },
|
|
keep_alive<0, 1>() /* Essential: keep list alive while iterator exists */
|
|
);
|
|
|
|
cl.def("items",
|
|
[](Map &m) { return make_iterator(m.begin(), m.end()); },
|
|
keep_alive<0, 1>() /* Essential: keep list alive while iterator exists */
|
|
);
|
|
|
|
cl.def("__getitem__",
|
|
[](Map &m, const KeyType &k) -> MappedType & {
|
|
auto it = m.find(k);
|
|
if (it == m.end())
|
|
throw key_error();
|
|
return it->second;
|
|
},
|
|
return_value_policy::reference_internal // ref + keepalive
|
|
);
|
|
|
|
// Assignment provided only if the type is copyable
|
|
detail::map_assignment<Map, Class_>(cl);
|
|
|
|
cl.def("__delitem__",
|
|
[](Map &m, const KeyType &k) {
|
|
auto it = m.find(k);
|
|
if (it == m.end())
|
|
throw key_error();
|
|
m.erase(it);
|
|
}
|
|
);
|
|
|
|
cl.def("__len__", &Map::size);
|
|
|
|
return cl;
|
|
}
|
|
|
|
NAMESPACE_END(PYBIND11_NAMESPACE)
|