//===----------------------------------------------------------------------===// // // 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 // UNSUPPORTED: libcpp-has-no-incomplete-ranges // // // Range algorithms that take predicates should support predicates that return a non-boolean value as long as the // returned type is implicitly convertible to bool. #include #include #include #include #include #include #include "boolean_testable.h" auto unary_pred = [](int i) { return BooleanTestable(i > 0); }; static_assert(!std::same_as); static_assert(std::convertible_to); auto binary_pred = [](int i, int j) { return BooleanTestable(i < j); }; static_assert(!std::same_as); static_assert(std::convertible_to); // Invokes both the (iterator, sentinel, ...) and the (range, ...) overloads of the given niebloid. // (in, ...) template constexpr void test(Func&& func, Input& in, Args&&... args) { func(in.begin(), in.end(), std::forward(args)...); func(in, std::forward(args)...); } // (in1, in2, ...) template constexpr void test(Func&& func, Input& in1, Input& in2, Args&&... args) { func(in1.begin(), in1.end(), in2.begin(), in2.end(), std::forward(args)...); func(in1, in2, std::forward(args)...); } // (in, mid, ...) template constexpr void test_mid(Func&& func, Input& in, std::ranges::iterator_t mid, Args&&... args) { func(in.begin(), mid, in.end(), std::forward(args)...); func(in, mid, std::forward(args)...); } constexpr bool test_all() { std::array in = {1, 2, 3}; std::array in2 = {4, 5, 6}; auto mid = in.begin() + 1; std::array output = {7, 8, 9, 10, 11, 12}; auto out = output.begin(); auto out2 = output.begin() + 1; int x = 2; int count = 1; test(std::ranges::any_of, in, unary_pred); test(std::ranges::all_of, in, unary_pred); test(std::ranges::none_of, in, unary_pred); test(std::ranges::find_if, in, unary_pred); test(std::ranges::find_if_not, in, unary_pred); test(std::ranges::find_first_of, in, in2, binary_pred); test(std::ranges::adjacent_find, in, binary_pred); test(std::ranges::mismatch, in, in2, binary_pred); test(std::ranges::equal, in, in2, binary_pred); test(std::ranges::lexicographical_compare, in, in2, binary_pred); test(std::ranges::partition_point, in, unary_pred); test(std::ranges::lower_bound, in, x, binary_pred); test(std::ranges::upper_bound, in, x, binary_pred); test(std::ranges::equal_range, in, x, binary_pred); test(std::ranges::binary_search, in, x, binary_pred); // min std::ranges::min(1, 2, binary_pred); std::ranges::min(std::initializer_list{1, 2}, binary_pred); std::ranges::min(in, binary_pred); // max std::ranges::max(1, 2, binary_pred); std::ranges::max(std::initializer_list{1, 2}, binary_pred); std::ranges::max(in, binary_pred); // minmax std::ranges::minmax(1, 2, binary_pred); std::ranges::minmax(std::initializer_list{1, 2}, binary_pred); std::ranges::minmax(in, binary_pred); test(std::ranges::min_element, in, binary_pred); test(std::ranges::max_element, in, binary_pred); test(std::ranges::minmax_element, in, binary_pred); test(std::ranges::count_if, in, unary_pred); test(std::ranges::search, in, in2, binary_pred); test(std::ranges::search_n, in, count, x, binary_pred); test(std::ranges::find_end, in, in2, binary_pred); test(std::ranges::is_partitioned, in, unary_pred); test(std::ranges::is_sorted, in, binary_pred); test(std::ranges::is_sorted_until, in, binary_pred); test(std::ranges::includes, in, in2, binary_pred); test(std::ranges::is_heap, in, binary_pred); test(std::ranges::is_heap_until, in, binary_pred); //std::ranges::clamp(2, 1, 3, binary_pred); //test(std::ranges::is_permutation, in, in2, binary_pred); test(std::ranges::copy_if, in, out, unary_pred); //test(std::ranges::remove_copy_if, in, out, unary_pred); test(std::ranges::replace_if, in, unary_pred, x); //test(std::ranges::replace_copy_if, in, out, unary_pred, x); //test(std::ranges::unique_copy, in, out, binary_pred); test(std::ranges::partition_copy, in, out, out2, unary_pred); //test(std::ranges::partial_sort_copy, in, in2, binary_pred); test(std::ranges::merge, in, in2, out, binary_pred); test(std::ranges::set_difference, in, in2, out, binary_pred); test(std::ranges::set_intersection, in, in2, out, binary_pred); test(std::ranges::set_symmetric_difference, in, in2, out, binary_pred); test(std::ranges::set_union, in, in2, out, binary_pred); test(std::ranges::remove_if, in, unary_pred); //test(std::ranges::unique, in, binary_pred); test(std::ranges::partition, in, unary_pred); if (!std::is_constant_evaluated()) test(std::ranges::stable_partition, in, unary_pred); test(std::ranges::sort, in, binary_pred); if (!std::is_constant_evaluated()) test(std::ranges::stable_sort, in, binary_pred); test_mid(std::ranges::partial_sort, in, mid, binary_pred); test_mid(std::ranges::nth_element, in, mid, binary_pred); if (!std::is_constant_evaluated()) test_mid(std::ranges::inplace_merge, in, mid, binary_pred); test(std::ranges::make_heap, in, binary_pred); test(std::ranges::push_heap, in, binary_pred); test(std::ranges::pop_heap, in, binary_pred); test(std::ranges::sort_heap, in, binary_pred); //test(std::ranges::prev_permutation, in, binary_pred); //test(std::ranges::next_permutation, in, binary_pred); return true; } int main(int, char**) { test_all(); static_assert(test_all()); return 0; }