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//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
// UNSUPPORTED: c++03, c++11, c++14, c++17, c++20
// <flat_map>
// template<container-compatible-range<value_type> R>
// flat_multimap(from_range_t, R&&)
// template<container-compatible-range<value_type> R>
// flat_multimap(from_range_t, R&&, const key_compare&)
// template<container-compatible-range<value_type> R, class Alloc>
// flat_multimap(from_range_t, R&&, const Alloc&);
// template<container-compatible-range<value_type> R, class Alloc>
// flat_multimap(from_range_t, R&&, const key_compare&, const Alloc&);
#include <algorithm>
#include <deque>
#include <flat_map>
#include <functional>
#include <string>
#include <vector>
#include "min_allocator.h"
#include "test_allocator.h"
#include "test_iterators.h"
#include "test_macros.h"
#include "../../../test_compare.h"
// test constraint container-compatible-range
template <class V>
using RangeOf = std::ranges::subrange<V*>;
using Map = std::flat_multimap<int, double>;
static_assert(std::is_constructible_v<Map, std::from_range_t, RangeOf<std::pair<int, double>>>);
static_assert(std::is_constructible_v<Map, std::from_range_t, RangeOf<std::pair<short, double>>>);
static_assert(!std::is_constructible_v<Map, std::from_range_t, RangeOf<int>>);
static_assert(!std::is_constructible_v<Map, std::from_range_t, RangeOf<double>>);
static_assert(std::is_constructible_v<Map, std::from_range_t, RangeOf<std::pair<int, double>>, std::less<int>>);
static_assert(std::is_constructible_v<Map, std::from_range_t, RangeOf<std::pair<short, double>>, std::less<int>>);
static_assert(!std::is_constructible_v<Map, std::from_range_t, RangeOf<int>, std::less<int>>);
static_assert(!std::is_constructible_v<Map, std::from_range_t, RangeOf<double>, std::less<int>>);
static_assert(std::is_constructible_v<Map, std::from_range_t, RangeOf<std::pair<int, double>>, std::allocator<int>>);
static_assert(std::is_constructible_v<Map, std::from_range_t, RangeOf<std::pair<short, double>>, std::allocator<int>>);
static_assert(!std::is_constructible_v<Map, std::from_range_t, RangeOf<int>, std::allocator<int>>);
static_assert(!std::is_constructible_v<Map, std::from_range_t, RangeOf<double>, std::allocator<int>>);
static_assert(std::is_constructible_v<Map,
std::from_range_t,
RangeOf<std::pair<int, double>>,
std::less<int>,
std::allocator<int>>);
static_assert(std::is_constructible_v<Map,
std::from_range_t,
RangeOf<std::pair<short, double>>,
std::less<int>,
std::allocator<int>>);
static_assert(!std::is_constructible_v<Map, std::from_range_t, RangeOf<int>, std::less<int>, std::allocator<int>>);
static_assert(!std::is_constructible_v<Map, std::from_range_t, RangeOf<double>, std::less<int>, std::allocator<int>>);
int main(int, char**) {
{
// The constructors in this subclause shall not participate in overload
// resolution unless uses_allocator_v<key_container_type, Alloc> is true
// and uses_allocator_v<mapped_container_type, Alloc> is true.
using C = test_less<int>;
using A1 = test_allocator<int>;
using A2 = other_allocator<int>;
using V1 = std::vector<int, A1>;
using V2 = std::vector<int, A2>;
using M1 = std::flat_multimap<int, int, C, V1, V1>;
using M2 = std::flat_multimap<int, int, C, V1, V2>;
using M3 = std::flat_multimap<int, int, C, V2, V1>;
static_assert(std::is_constructible_v<M1, std::from_range_t, M1, const A1&>);
static_assert(!std::is_constructible_v<M1, std::from_range_t, M1, const A2&>);
static_assert(!std::is_constructible_v<M2, std::from_range_t, M2, const A2&>);
static_assert(!std::is_constructible_v<M3, std::from_range_t, M3, const A2&>);
static_assert(std::is_constructible_v<M1, std::from_range_t, M1, const C&, const A1&>);
static_assert(!std::is_constructible_v<M1, std::from_range_t, M1, const C&, const A2&>);
static_assert(!std::is_constructible_v<M2, std::from_range_t, M2, const C&, const A2&>);
static_assert(!std::is_constructible_v<M3, std::from_range_t, M3, const C&, const A2&>);
}
{
// container-compatible-range
using C = test_less<int>;
using A1 = test_allocator<int>;
using A2 = test_allocator<std::string>;
using M = std::flat_multimap<int, std::string, C, std::vector<int, A1>, std::vector<std::string, A2>>;
using Pair = std::pair<int, std::string>;
using PairLike = std::tuple<int, std::string>;
using NonPairLike = int;
static_assert(std::is_constructible_v<M, std::from_range_t, std::vector<Pair>&>);
static_assert(std::is_constructible_v<M, std::from_range_t, std::vector<PairLike>&>);
static_assert(!std::is_constructible_v<M, std::from_range_t, std::vector<NonPairLike>&>);
static_assert(std::is_constructible_v<M, std::from_range_t, std::vector<Pair>&, const C&>);
static_assert(std::is_constructible_v<M, std::from_range_t, std::vector<PairLike>&, const C&>);
static_assert(!std::is_constructible_v<M, std::from_range_t, std::vector<NonPairLike>&, const C&>);
static_assert(std::is_constructible_v<M, std::from_range_t, std::vector<Pair>&, const A1&>);
static_assert(std::is_constructible_v<M, std::from_range_t, std::vector<PairLike>&, const A1&>);
static_assert(!std::is_constructible_v<M, std::from_range_t, std::vector<NonPairLike>&, const A1&>);
static_assert(std::is_constructible_v<M, std::from_range_t, std::vector<Pair>&, const C&, const A1&>);
static_assert(std::is_constructible_v<M, std::from_range_t, std::vector<PairLike>&, const C&, const A1&>);
static_assert(!std::is_constructible_v<M, std::from_range_t, std::vector<NonPairLike>&, const C&, const A1&>);
}
using P = std::pair<int, short>;
P ar[] = {{1, 1}, {1, 2}, {1, 3}, {2, 4}, {2, 5}, {3, 6}, {2, 7}, {3, 8}, {3, 9}};
P expected[] = {{1, 1}, {1, 2}, {1, 3}, {2, 4}, {2, 5}, {2, 7}, {3, 6}, {3, 8}, {3, 9}};
{
// flat_multimap(from_range_t, R&&)
// input_range && !common
using M = std::flat_multimap<int, short>;
using Iter = cpp20_input_iterator<const P*>;
using Sent = sentinel_wrapper<Iter>;
using R = std::ranges::subrange<Iter, Sent>;
auto m = M(std::from_range, R(Iter(ar), Sent(Iter(ar + 9))));
assert(std::ranges::equal(m.keys(), expected | std::views::elements<0>));
LIBCPP_ASSERT(std::ranges::equal(m, expected));
// explicit(false)
M m2 = {std::from_range, R(Iter(ar), Sent(Iter(ar + 9)))};
assert(m2 == m);
}
{
// flat_multimap(from_range_t, R&&)
// greater
using M = std::flat_multimap<int, short, std::greater<int>, std::deque<int, min_allocator<int>>, std::deque<short>>;
using Iter = cpp20_input_iterator<const P*>;
using Sent = sentinel_wrapper<Iter>;
using R = std::ranges::subrange<Iter, Sent>;
auto m = M(std::from_range, R(Iter(ar), Sent(Iter(ar + 9))));
assert((m.keys() == std::deque<int, min_allocator<int>>{3, 3, 3, 2, 2, 2, 1, 1, 1}));
LIBCPP_ASSERT((m.values() == std::deque<short>{6, 8, 9, 4, 5, 7, 1, 2, 3}));
}
{
// flat_multimap(from_range_t, R&&)
// contiguous range
using M = std::flat_multimap<int, short>;
using R = std::ranges::subrange<const P*>;
auto m = M(std::from_range, R(ar, ar + 9));
assert(std::ranges::equal(m.keys(), expected | std::views::elements<0>));
LIBCPP_ASSERT(std::ranges::equal(m, expected));
}
{
// flat_multimap(from_range_t, R&&, const key_compare&)
using C = test_less<int>;
using M = std::flat_multimap<int, short, C, std::vector<int>, std::deque<short>>;
using R = std::ranges::subrange<const P*>;
auto m = M(std::from_range, R(ar, ar + 9), C(3));
assert(std::ranges::equal(m.keys(), expected | std::views::elements<0>));
LIBCPP_ASSERT(std::ranges::equal(m, expected));
assert(m.key_comp() == C(3));
// explicit(false)
M m2 = {std::from_range, R(ar, ar + 9), C(3)};
assert(m2 == m);
assert(m2.key_comp() == C(3));
}
{
// flat_multimap(from_range_t, R&&, const Allocator&)
using A1 = test_allocator<int>;
using A2 = test_allocator<short>;
using M = std::flat_multimap<int, short, std::less<int>, std::vector<int, A1>, std::deque<short, A2>>;
using R = std::ranges::subrange<const P*>;
auto m = M(std::from_range, R(ar, ar + 9), A1(5));
assert(std::ranges::equal(m.keys(), expected | std::views::elements<0>));
LIBCPP_ASSERT(std::ranges::equal(m, expected));
assert(m.keys().get_allocator() == A1(5));
assert(m.values().get_allocator() == A2(5));
}
{
// flat_multimap(from_range_t, R&&, const Allocator&)
// explicit(false)
using A1 = test_allocator<int>;
using A2 = test_allocator<short>;
using M = std::flat_multimap<int, short, std::less<int>, std::vector<int, A1>, std::deque<short, A2>>;
using R = std::ranges::subrange<const P*>;
M m = {std::from_range, R(ar, ar + 9), A1(5)}; // implicit ctor
assert(std::ranges::equal(m.keys(), expected | std::views::elements<0>));
LIBCPP_ASSERT(std::ranges::equal(m, expected));
assert(m.keys().get_allocator() == A1(5));
assert(m.values().get_allocator() == A2(5));
}
{
// flat_multimap(from_range_t, R&&, const key_compare&, const Allocator&)
using C = test_less<int>;
using A1 = test_allocator<int>;
using A2 = test_allocator<short>;
using M = std::flat_multimap<int, short, C, std::vector<int, A1>, std::deque<short, A2>>;
using R = std::ranges::subrange<const P*>;
auto m = M(std::from_range, R(ar, ar + 9), C(3), A1(5));
assert(std::ranges::equal(m.keys(), expected | std::views::elements<0>));
LIBCPP_ASSERT(std::ranges::equal(m, expected));
assert(m.key_comp() == C(3));
assert(m.keys().get_allocator() == A1(5));
assert(m.values().get_allocator() == A2(5));
}
{
// flat_multimap(from_range_t, R&&, const key_compare&, const Allocator&)
// explicit(false)
using A1 = test_allocator<int>;
using A2 = test_allocator<short>;
using M = std::flat_multimap<int, short, std::less<int>, std::deque<int, A1>, std::vector<short, A2>>;
using R = std::ranges::subrange<const P*>;
M m = {std::from_range, R(ar, ar + 9), {}, A2(5)}; // implicit ctor
assert(std::ranges::equal(m.keys(), expected | std::views::elements<0>));
LIBCPP_ASSERT(std::ranges::equal(m, expected));
assert(m.keys().get_allocator() == A1(5));
assert(m.values().get_allocator() == A2(5));
}
return 0;
}
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