//===----------------------------------------------------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
// <algorithm>
// UNSUPPORTED: c++03, c++11, c++14, c++17
// template<forward_iterator I1, sentinel_for<I1> S1, forward_iterator I2, sentinel_for<I2> S2,
// class Pred = ranges::equal_to, class Proj1 = identity, class Proj2 = identity>
// requires indirectly_comparable<I1, I2, Pred, Proj1, Proj2>
// constexpr subrange<I1>
// ranges::find_end(I1 first1, S1 last1, I2 first2, S2 last2, Pred pred = {},
// Proj1 proj1 = {}, Proj2 proj2 = {});
// template<forward_range R1, forward_range R2,
// class Pred = ranges::equal_to, class Proj1 = identity, class Proj2 = identity>
// requires indirectly_comparable<iterator_t<R1>, iterator_t<R2>, Pred, Proj1, Proj2>
// constexpr borrowed_subrange_t<R1>
// ranges::find_end(R1&& r1, R2&& r2, Pred pred = {},
// Proj1 proj1 = {}, Proj2 proj2 = {});
#include <algorithm>
#include <array>
#include <ranges>
#include "almost_satisfies_types.h"
#include "test_iterators.h"
template <class Iter1, class Sent1 = Iter1, class Iter2 = int*, class Sent2 = Iter2>
concept HasFindEndIt = requires (Iter1 first1, Sent1 last1, Iter2 first2, Sent2 last2) {
std::ranges::find_end(first1, last1, first2, last2);
};
static_assert(HasFindEndIt<int*>);
static_assert(!HasFindEndIt<ForwardIteratorNotDerivedFrom>);
static_assert(!HasFindEndIt<ForwardIteratorNotIncrementable>);
static_assert(!HasFindEndIt<int*, SentinelForNotSemiregular>);
static_assert(!HasFindEndIt<int*, int*, int**>); // not indirectly comparable
static_assert(!HasFindEndIt<int*, SentinelForNotWeaklyEqualityComparableWith>);
static_assert(!HasFindEndIt<int*, int*, ForwardIteratorNotDerivedFrom>);
static_assert(!HasFindEndIt<int*, int*, ForwardIteratorNotIncrementable>);
static_assert(!HasFindEndIt<int*, int*, int*, SentinelForNotSemiregular>);
static_assert(!HasFindEndIt<int*, int*, int*, SentinelForNotWeaklyEqualityComparableWith>);
template <class Range1, class Range2 = UncheckedRange<int*>>
concept HasFindEndR = requires (Range1 range1, Range2 range2) {
std::ranges::find_end(range1, range2);
};
static_assert(HasFindEndR<UncheckedRange<int*>>);
static_assert(!HasFindEndR<ForwardRangeNotDerivedFrom>);
static_assert(!HasFindEndR<ForwardIteratorNotIncrementable>);
static_assert(!HasFindEndR<ForwardRangeNotSentinelSemiregular>);
static_assert(!HasFindEndR<ForwardRangeNotSentinelEqualityComparableWith>);
static_assert(!HasFindEndR<UncheckedRange<int*>, UncheckedRange<int**>>); // not indirectly comparable
static_assert(!HasFindEndR<UncheckedRange<int*>, ForwardRangeNotDerivedFrom>);
static_assert(!HasFindEndR<UncheckedRange<int*>, ForwardRangeNotIncrementable>);
static_assert(!HasFindEndR<UncheckedRange<int*>, ForwardRangeNotSentinelSemiregular>);
static_assert(!HasFindEndR<UncheckedRange<int*>, ForwardRangeNotSentinelEqualityComparableWith>);
template <class Iter1, class Sent1, class Iter2, class Sent2 = Iter2>
constexpr void test_iterators() {
{ // simple test
{
int a[] = {1, 2, 3, 4, 5, 6};
int p[] = {3, 4};
std::same_as<std::ranges::subrange<Iter1, Iter1>> decltype(auto) ret =
std::ranges::find_end(Iter1(a), Sent1(Iter1(a + 6)), Iter2(p), Sent2(Iter2(p + 2)));
assert(base(ret.begin()) == a + 2);
assert(base(ret.end()) == a + 4);
}
{
int a[] = {1, 2, 3, 4, 5, 6};
int p[] = {3, 4};
auto range1 = std::ranges::subrange(Iter1(a), Sent1(Iter1(a + 6)));
auto range2 = std::ranges::subrange(Iter2(p), Sent2(Iter2(p + 2)));
std::same_as<std::ranges::subrange<Iter1, Iter1>> decltype(auto) ret = std::ranges::find_end(range1, range2);
assert(base(ret.begin()) == a + 2);
assert(base(ret.end()) == a + 4);
}
}
{ // matching part begins at the front
{
int a[] = {7, 5, 3, 7, 3, 6};
int p[] = {7, 5, 3};
auto ret = std::ranges::find_end(Iter1(a), Sent1(Iter1(a + 6)), Iter2(p), Sent2(Iter2(p + 3)));
assert(base(ret.begin()) == a);
assert(base(ret.end()) == a + 3);
}
{
int a[] = {7, 5, 3, 7, 3, 6};
int p[] = {7, 5, 3};
auto range1 = std::ranges::subrange(Iter1(a), Sent1(Iter1(a + 6)));
auto range2 = std::ranges::subrange(Iter2(p), Sent2(Iter2(p + 3)));
auto ret = std::ranges::find_end(range1, range2);
assert(base(ret.begin()) == a);
assert(base(ret.end()) == a + 3);
}
}
{ // matching part ends at the back
{
int a[] = {9, 3, 6, 4, 8};
int p[] = {4, 8};
auto ret = std::ranges::find_end(Iter1(a), Sent1(Iter1(a + 5)), Iter2(p), Sent2(Iter2(p + 2)));
assert(base(ret.begin()) == a + 3);
assert(base(ret.end()) == a + 5);
}
{
int a[] = {9, 3, 6, 4, 8};
int p[] = {4, 8};
auto range1 = std::ranges::subrange(Iter1(a), Sent1(Iter1(a + 5)));
auto range2 = std::ranges::subrange(Iter2(p), Sent2(Iter2(p + 2)));
auto ret = std::ranges::find_end(range1, range2);
assert(base(ret.begin()) == a + 3);
assert(base(ret.end()) == a + 5);
}
}
{ // pattern does not match
{
int a[] = {9, 3, 6, 4, 8};
int p[] = {1};
auto ret = std::ranges::find_end(Iter1(a), Sent1(Iter1(a + 5)), Iter2(p), Sent2(Iter2(p + 1)));
assert(base(ret.begin()) == a + 5);
assert(base(ret.end()) == a + 5);
}
{
int a[] = {9, 3, 6, 4, 8};
int p[] = {1};
auto range1 = std::ranges::subrange(Iter1(a), Sent1(Iter1(a + 5)));
auto range2 = std::ranges::subrange(Iter2(p), Sent2(Iter2(p + 1)));
auto ret = std::ranges::find_end(range1, range2);
assert(base(ret.begin()) == a + 5);
assert(base(ret.end()) == a + 5);
}
}
{ // range and pattern are identical
{
int a[] = {6, 7, 8, 9};
int p[] = {6, 7, 8, 9};
auto ret = std::ranges::find_end(Iter1(a), Sent1(Iter1(a + 4)), Iter2(p), Sent2(Iter2(p + 4)));
assert(base(ret.begin()) == a);
assert(base(ret.end()) == a + 4);
}
{
int a[] = {6, 7, 8, 9};
int p[] = {6, 7, 8, 9};
auto range1 = std::ranges::subrange(Iter1(a), Sent1(Iter1(a + 4)));
auto range2 = std::ranges::subrange(Iter2(p), Sent2(Iter2(p + 4)));
auto ret = std::ranges::find_end(range1, range2);
assert(base(ret.begin()) == a);
assert(base(ret.end()) == a + 4);
}
}
{ // pattern is longer than range
{
int a[] = {6, 7, 8};
int p[] = {6, 7, 8, 9};
auto ret = std::ranges::find_end(Iter1(a), Sent1(Iter1(a + 3)), Iter2(p), Sent2(Iter2(p + 4)));
assert(base(ret.begin()) == a + 3);
assert(base(ret.end()) == a + 3);
}
{
int a[] = {6, 7, 8};
int p[] = {6, 7, 8, 9};
auto range1 = std::ranges::subrange(Iter1(a), Sent1(Iter1(a + 3)));
auto range2 = std::ranges::subrange(Iter2(p), Sent2(Iter2(p + 4)));
auto ret = std::ranges::find_end(range1, range2);
assert(base(ret.begin()) == a + 3);
assert(base(ret.end()) == a + 3);
}
}
{ // pattern has zero length
{
int a[] = {6, 7, 8};
std::array<int, 0> p = {};
auto ret = std::ranges::find_end(Iter1(a), Sent1(Iter1(a + 3)), Iter2(p.data()), Sent2(Iter2(p.data())));
assert(base(ret.begin()) == a + 3);
assert(base(ret.end()) == a + 3);
}
{
int a[] = {6, 7, 8};
std::array<int, 0> p = {};
auto range1 = std::ranges::subrange(Iter1(a), Sent1(Iter1(a + 3)));
auto range2 = std::ranges::subrange(Iter2(p.data()), Sent2(Iter2(p.data())));
auto ret = std::ranges::find_end(range1, range2);
assert(base(ret.begin()) == a + 3);
assert(base(ret.end()) == a + 3);
}
}
{ // range has zero length
{
std::array<int, 0> a = {};
int p[] = {6, 7, 8};
auto ret = std::ranges::find_end(Iter1(a.data()), Sent1(Iter1(a.data())), Iter2(p), Sent2(Iter2(p + 3)));
assert(base(ret.begin()) == a.data());
assert(base(ret.end()) == a.data());
}
{
std::array<int, 0> a = {};
int p[] = {6, 7, 8};
auto range1 = std::ranges::subrange(Iter1(a.data()), Sent1(Iter1(a.data())));
auto range2 = std::ranges::subrange(Iter2(p), Sent2(Iter2(p + 3)));
auto ret = std::ranges::find_end(range1, range2);
assert(base(ret.begin()) == a.data());
assert(base(ret.end()) == a.data());
}
}
{ // check that the first match is returned
{
int a[] = {6, 7, 8, 6, 7, 8, 6, 7, 8};
int p[] = {6, 7, 8};
auto ret = std::ranges::find_end(Iter1(a), Sent1(Iter1(a + 9)), Iter2(p), Sent2(Iter2(p + 3)));
assert(base(ret.begin()) == a + 6);
assert(base(ret.end()) == a + 9);
}
{
int a[] = {6, 7, 8, 6, 7, 8, 6, 7, 8};
int p[] = {6, 7, 8};
auto range1 = std::ranges::subrange(Iter1(a), Sent1(Iter1(a + 9)));
auto range2 = std::ranges::subrange(Iter2(p), Sent2(Iter2(p + 3)));
auto ret = std::ranges::find_end(range1, range2);
assert(base(ret.begin()) == a + 6);
assert(base(ret.end()) == a + 9);
}
}
{ // check that the predicate is used
{
int a[] = {1, 2, 8, 1, 5, 6};
int p[] = {7, 0, 4};
auto ret = std::ranges::find_end(Iter1(a), Sent1(Iter1(a + 6)),
Iter2(p), Sent2(Iter2(p + 3)),
[](int l, int r) { return l > r; });
assert(base(ret.begin()) == a + 2);
assert(base(ret.end()) == a + 5);
}
{
int a[] = {1, 2, 8, 1, 5, 6};
int p[] = {7, 0, 4};
auto range1 = std::ranges::subrange(Iter1(a), Sent1(Iter1(a + 6)));
auto range2 = std::ranges::subrange(Iter2(p), Sent2(Iter2(p + 3)));
auto ret = std::ranges::find_end(range1, range2, [](int l, int r) { return l > r; });
assert(base(ret.begin()) == a + 2);
assert(base(ret.end()) == a + 5);
}
}
{ // check that the projections are used
{
int a[] = {1, 3, 5, 1, 5, 6};
int p[] = {2, 3, 4};
auto ret = std::ranges::find_end(Iter1(a), Sent1(Iter1(a + 6)),
Iter2(p), Sent2(Iter2(p + 3)),
{},
[](int i) { return i + 3; },
[](int i) { return i * 2; });
assert(base(ret.begin()) == a);
assert(base(ret.end()) == a + 3);
}
{
int a[] = {1, 3, 5, 1, 5, 6};
int p[] = {2, 3, 4};
auto range1 = std::ranges::subrange(Iter1(a), Sent1(Iter1(a + 6)));
auto range2 = std::ranges::subrange(Iter2(p), Sent2(Iter2(p + 3)));
auto ret = std::ranges::find_end(range1,
range2,
{},
[](int i) { return i + 3; },
[](int i) { return i * 2; });
assert(base(ret.begin()) == a);
assert(base(ret.end()) == a + 3);
}
}
}
template <class Iter1, class Sent1 = Iter1>
constexpr void test_iterators2() {
test_iterators<Iter1, Sent1, forward_iterator<int*>>();
test_iterators<Iter1, Sent1, forward_iterator<int*>, sized_sentinel<forward_iterator<int*>>>();
test_iterators<Iter1, Sent1, bidirectional_iterator<int*>>();
test_iterators<Iter1, Sent1, bidirectional_iterator<int*>, sized_sentinel<bidirectional_iterator<int*>>>();
test_iterators<Iter1, Sent1, random_access_iterator<int*>>();
test_iterators<Iter1, Sent1, random_access_iterator<int*>, sized_sentinel<random_access_iterator<int*>>>();
test_iterators<Iter1, Sent1, contiguous_iterator<int*>>();
test_iterators<Iter1, Sent1, contiguous_iterator<int*>, sized_sentinel<contiguous_iterator<int*>>>();
test_iterators<Iter1, Sent1, int*>();
}
constexpr bool test() {
test_iterators2<forward_iterator<int*>>();
test_iterators2<forward_iterator<int*>, sized_sentinel<forward_iterator<int*>>>();
test_iterators2<bidirectional_iterator<int*>>();
test_iterators2<bidirectional_iterator<int*>, sized_sentinel<bidirectional_iterator<int*>>>();
test_iterators2<random_access_iterator<int*>>();
test_iterators2<random_access_iterator<int*>, sized_sentinel<random_access_iterator<int*>>>();
test_iterators2<contiguous_iterator<int*>>();
test_iterators2<contiguous_iterator<int*>, sized_sentinel<contiguous_iterator<int*>>>();
test_iterators2<int*>();
{ // check that std::invoke is used
struct S {
int i;
constexpr S identity() {
return *this;
}
constexpr bool compare(const S& s) {
return i == s.i;
}
};
{
S a[] = {{1}, {2}, {3}, {4}};
S p[] = {{2}, {3}};
auto ret = std::ranges::find_end(a, a + 4, p, p + 2, &S::compare, &S::identity, &S::identity);
assert(ret.begin() == a + 1);
assert(ret.end() == a + 3);
}
{
S a[] = {{1}, {2}, {3}, {4}};
S p[] = {{2}, {3}};
auto ret = std::ranges::find_end(a, p, &S::compare, &S::identity, &S::identity);
assert(ret.begin() == a + 1);
assert(ret.end() == a + 3);
}
}
{ // check that std::ranges::dangling is returned
[[maybe_unused]] std::same_as<std::ranges::dangling> decltype(auto) ret =
std::ranges::find_end(std::array {1, 2, 3, 4}, std::array {2, 3});
}
return true;
}
int main(int, char**) {
test();
static_assert(test());
return 0;
}