| //===----------------------------------------------------------------------===// |
| // |
| // 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 |
| |
| // <algorithm> |
| |
| // this test checks that the comparators in the ranges algorithms aren't copied/moved |
| |
| #include <algorithm> |
| #include <cassert> |
| #include <cstddef> |
| #include <deque> |
| |
| #include "test_macros.h" |
| |
| struct Less { |
| int *copies_; |
| constexpr explicit Less(int *copies) : copies_(copies) {} |
| constexpr Less(const Less& rhs) : copies_(rhs.copies_) { *copies_ += 1; } |
| constexpr Less& operator=(const Less&) = default; |
| constexpr bool operator()(void*, void*) const { return false; } |
| }; |
| |
| struct Equal { |
| int *copies_; |
| constexpr explicit Equal(int *copies) : copies_(copies) {} |
| constexpr Equal(const Equal& rhs) : copies_(rhs.copies_) { *copies_ += 1; } |
| constexpr Equal& operator=(const Equal&) = default; |
| constexpr bool operator()(void*, void*) const { return true; } |
| }; |
| |
| struct UnaryVoid { |
| int *copies_; |
| constexpr explicit UnaryVoid(int *copies) : copies_(copies) {} |
| constexpr UnaryVoid(const UnaryVoid& rhs) : copies_(rhs.copies_) { *copies_ += 1; } |
| constexpr UnaryVoid& operator=(const UnaryVoid&) = default; |
| constexpr void operator()(void*) const {} |
| }; |
| |
| struct UnaryTrue { |
| int *copies_; |
| constexpr explicit UnaryTrue(int *copies) : copies_(copies) {} |
| constexpr UnaryTrue(const UnaryTrue& rhs) : copies_(rhs.copies_) { *copies_ += 1; } |
| constexpr UnaryTrue& operator=(const UnaryTrue&) = default; |
| constexpr bool operator()(void*) const { return true; } |
| }; |
| |
| struct NullaryValue { |
| int *copies_; |
| constexpr explicit NullaryValue(int *copies) : copies_(copies) {} |
| constexpr NullaryValue(const NullaryValue& rhs) : copies_(rhs.copies_) { *copies_ += 1; } |
| constexpr NullaryValue& operator=(const NullaryValue&) = default; |
| constexpr std::nullptr_t operator()() const { return nullptr; } |
| }; |
| |
| struct UnaryTransform { |
| int *copies_; |
| constexpr explicit UnaryTransform(int *copies) : copies_(copies) {} |
| constexpr UnaryTransform(const UnaryTransform& rhs) : copies_(rhs.copies_) { *copies_ += 1; } |
| constexpr UnaryTransform& operator=(const UnaryTransform&) = default; |
| constexpr std::nullptr_t operator()(void*) const { return nullptr; } |
| }; |
| |
| struct BinaryTransform { |
| int *copies_; |
| constexpr explicit BinaryTransform(int *copies) : copies_(copies) {} |
| constexpr BinaryTransform(const BinaryTransform& rhs) : copies_(rhs.copies_) { *copies_ += 1; } |
| constexpr BinaryTransform& operator=(const BinaryTransform&) = default; |
| constexpr std::nullptr_t operator()(void*, void*) const { return nullptr; } |
| }; |
| |
| constexpr bool all_the_algorithms() |
| { |
| void *a[10] = {}; |
| void *b[10] = {}; |
| void *half[5] = {}; |
| void **first = a; |
| void **mid = a+5; |
| void **last = a+10; |
| void **first2 = b; |
| void **mid2 = b+5; |
| void **last2 = b+10; |
| void *value = nullptr; |
| int count = 1; |
| |
| int copies = 0; |
| (void)std::ranges::adjacent_find(first, last, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::adjacent_find(a, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::all_of(first, last, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::all_of(a, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::any_of(first, last, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::any_of(a, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::binary_search(first, last, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::binary_search(a, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::clamp(value, value, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::count_if(first, last, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::count_if(a, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::copy_if(first, last, first2, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::copy_if(a, first2, UnaryTrue(&copies)); assert(copies == 0); |
| #if TEST_STD_VER >= 23 |
| (void)std::ranges::ends_with(first, last, first2, last2, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::ends_with(a, b, Equal(&copies)); assert(copies == 0); |
| #endif |
| (void)std::ranges::equal(first, last, first2, last2, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::equal(a, b, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::equal_range(first, last, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::equal_range(a, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::find_end(first, last, first2, mid2, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::find_end(a, b, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::find_first_of(first, last, first2, last2, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::find_first_of(a, b, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::find_if(first, last, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::find_if(a, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::find_if_not(first, last, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::find_if_not(a, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::for_each(first, last, UnaryVoid(&copies)); assert(copies == 1); copies = 0; |
| (void)std::ranges::for_each(a, UnaryVoid(&copies)); assert(copies == 1); copies = 0; |
| (void)std::ranges::for_each_n(first, count, UnaryVoid(&copies)); assert(copies == 1); copies = 0; |
| (void)std::ranges::generate(first, last, NullaryValue(&copies)); assert(copies == 0); |
| (void)std::ranges::generate(a, NullaryValue(&copies)); assert(copies == 0); |
| (void)std::ranges::generate_n(first, count, NullaryValue(&copies)); assert(copies == 0); |
| (void)std::ranges::includes(first, last, first2, last2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::includes(a, b, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::is_heap(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::is_heap(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::is_heap_until(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::is_heap_until(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::is_partitioned(first, last, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::is_partitioned(a, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::is_permutation(first, last, first2, last2, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::is_permutation(a, b, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::is_sorted(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::is_sorted(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::is_sorted_until(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::is_sorted_until(a, Less(&copies)); assert(copies == 0); |
| if (!std::is_constant_evaluated()) { (void)std::ranges::inplace_merge(first, mid, last, Less(&copies)); assert(copies == 0); } |
| if (!std::is_constant_evaluated()) { (void)std::ranges::inplace_merge(a, mid, Less(&copies)); assert(copies == 0); } |
| (void)std::ranges::lexicographical_compare(first, last, first2, last2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::lexicographical_compare(a, b, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::lower_bound(first, last, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::lower_bound(a, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::make_heap(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::make_heap(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::max(value, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::max({ value, value }, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::max(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::max_element(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::max_element(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::merge(first, mid, mid, last, first2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::merge(half, half, b, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::min(value, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::min({ value, value }, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::min(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::min_element(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::min_element(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::minmax(value, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::minmax({ value, value }, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::minmax(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::minmax_element(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::minmax_element(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::mismatch(first, last, first2, last2, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::mismatch(a, b, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::next_permutation(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::next_permutation(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::none_of(first, last, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::none_of(a, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::nth_element(first, mid, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::nth_element(a, mid, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::partial_sort(first, mid, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::partial_sort(a, mid, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::partial_sort_copy(first, last, first2, mid2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::partial_sort_copy(a, b, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::partition(first, last, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::partition(a, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::partition_copy(first, last, first2, last2, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::partition_copy(a, first2, last2, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::partition_point(first, last, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::partition_point(a, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::pop_heap(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::pop_heap(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::prev_permutation(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::prev_permutation(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::push_heap(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::push_heap(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::remove_copy_if(first, last, first2, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::remove_copy_if(a, first2, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::remove_if(first, last, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::remove_if(a, UnaryTrue(&copies)); assert(copies == 0); |
| (void)std::ranges::replace_copy_if(first, last, first2, UnaryTrue(&copies), value); assert(copies == 0); |
| (void)std::ranges::replace_copy_if(a, first2, UnaryTrue(&copies), value); assert(copies == 0); |
| (void)std::ranges::replace_if(first, last, UnaryTrue(&copies), value); assert(copies == 0); |
| (void)std::ranges::replace_if(a, UnaryTrue(&copies), value); assert(copies == 0); |
| (void)std::ranges::search(first, last, first2, mid2, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::search(a, b, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::search_n(first, last, count, value, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::search_n(a, count, value, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::set_difference(first, mid, mid, last, first2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::set_difference(a, b, first2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::set_intersection(first, mid, mid, last, first2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::set_intersection(a, b, first2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::set_symmetric_difference(first, mid, mid, last, first2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::set_symmetric_difference(a, b, first2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::set_union(first, mid, mid, last, first2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::set_union(a, b, first2, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::sort(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::sort(a, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::sort_heap(first, last, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::sort_heap(a, Less(&copies)); assert(copies == 0); |
| if (!std::is_constant_evaluated()) { (void)std::ranges::stable_partition(first, last, UnaryTrue(&copies)); assert(copies == 0); } |
| if (!std::is_constant_evaluated()) { (void)std::ranges::stable_partition(a, UnaryTrue(&copies)); assert(copies == 0); } |
| if (!std::is_constant_evaluated()) { (void)std::ranges::stable_sort(first, last, Less(&copies)); assert(copies == 0); } |
| if (!std::is_constant_evaluated()) { (void)std::ranges::stable_sort(a, Less(&copies)); assert(copies == 0); } |
| #if TEST_STD_VER > 20 |
| (void)std::ranges::starts_with(first, last, first2, last2, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::starts_with(a, b, Equal(&copies)); assert(copies == 0); |
| #endif |
| (void)std::ranges::transform(first, last, first2, UnaryTransform(&copies)); assert(copies == 0); |
| (void)std::ranges::transform(a, first2, UnaryTransform(&copies)); assert(copies == 0); |
| (void)std::ranges::transform(first, mid, mid, last, first2, BinaryTransform(&copies)); assert(copies == 0); |
| (void)std::ranges::transform(a, b, first2, BinaryTransform(&copies)); assert(copies == 0); |
| (void)std::ranges::unique(first, last, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::unique(a, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::unique_copy(first, last, first2, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::unique_copy(a, first2, Equal(&copies)); assert(copies == 0); |
| (void)std::ranges::upper_bound(first, last, value, Less(&copies)); assert(copies == 0); |
| (void)std::ranges::upper_bound(a, value, Less(&copies)); assert(copies == 0); |
| |
| return true; |
| } |
| |
| int main(int, char**) |
| { |
| all_the_algorithms(); |
| static_assert(all_the_algorithms()); |
| |
| return 0; |
| } |