//===----------------------------------------------------------------------===// // // 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 // std::views::reverse #include #include #include #include #include #include "test_range.h" #include "types.h" constexpr bool test() { int buf[] = {1, 2, 3}; // views::reverse(x) is equivalent to x.base() if x is a reverse_view { { BidirRange view(buf, buf + 3); std::ranges::reverse_view reversed(view); std::same_as auto result = std::views::reverse(reversed); assert(result.begin_ == buf); assert(result.end_ == buf + 3); } { // Common use case is worth testing BidirRange view(buf, buf + 3); std::same_as auto result = std::views::reverse(std::views::reverse(view)); assert(result.begin_ == buf); assert(result.end_ == buf + 3); } } // views::reverse(x) is equivalent to subrange{end, begin, size} if x is a // sized subrange over reverse iterators { using It = bidirectional_iterator; using Subrange = std::ranges::subrange; using ReverseIt = std::reverse_iterator; using ReverseSubrange = std::ranges::subrange; { BidirRange view(buf, buf + 3); ReverseSubrange subrange(ReverseIt(std::ranges::end(view)), ReverseIt(std::ranges::begin(view)), /* size */3); std::same_as auto result = std::views::reverse(subrange); assert(base(result.begin()) == buf); assert(base(result.end()) == buf + 3); } { // std::move into views::reverse BidirRange view(buf, buf + 3); ReverseSubrange subrange(ReverseIt(std::ranges::end(view)), ReverseIt(std::ranges::begin(view)), /* size */3); std::same_as auto result = std::views::reverse(std::move(subrange)); assert(base(result.begin()) == buf); assert(base(result.end()) == buf + 3); } { // with a const subrange BidirRange view(buf, buf + 3); ReverseSubrange const subrange(ReverseIt(std::ranges::end(view)), ReverseIt(std::ranges::begin(view)), /* size */3); std::same_as auto result = std::views::reverse(subrange); assert(base(result.begin()) == buf); assert(base(result.end()) == buf + 3); } } // views::reverse(x) is equivalent to subrange{end, begin} if x is an // unsized subrange over reverse iterators { using It = bidirectional_iterator; using Subrange = std::ranges::subrange; using ReverseIt = std::reverse_iterator; using ReverseSubrange = std::ranges::subrange; { BidirRange view(buf, buf + 3); ReverseSubrange subrange(ReverseIt(std::ranges::end(view)), ReverseIt(std::ranges::begin(view))); std::same_as auto result = std::views::reverse(subrange); assert(base(result.begin()) == buf); assert(base(result.end()) == buf + 3); } { // std::move into views::reverse BidirRange view(buf, buf + 3); ReverseSubrange subrange(ReverseIt(std::ranges::end(view)), ReverseIt(std::ranges::begin(view))); std::same_as auto result = std::views::reverse(std::move(subrange)); assert(base(result.begin()) == buf); assert(base(result.end()) == buf + 3); } { // with a const subrange BidirRange view(buf, buf + 3); ReverseSubrange const subrange(ReverseIt(std::ranges::end(view)), ReverseIt(std::ranges::begin(view))); std::same_as auto result = std::views::reverse(subrange); assert(base(result.begin()) == buf); assert(base(result.end()) == buf + 3); } } // Otherwise, views::reverse(x) is equivalent to ranges::reverse_view{x} { BidirRange view(buf, buf + 3); std::same_as> auto result = std::views::reverse(view); assert(base(result.begin().base()) == buf + 3); assert(base(result.end().base()) == buf); } // Test that std::views::reverse is a range adaptor { // Test `v | views::reverse` { BidirRange view(buf, buf + 3); std::same_as> auto result = view | std::views::reverse; assert(base(result.begin().base()) == buf + 3); assert(base(result.end().base()) == buf); } // Test `adaptor | views::reverse` { BidirRange view(buf, buf + 3); auto f = [](int i) { return i; }; auto const partial = std::views::transform(f) | std::views::reverse; using Result = std::ranges::reverse_view>; std::same_as auto result = partial(view); assert(base(result.begin().base().base()) == buf + 3); assert(base(result.end().base().base()) == buf); } // Test `views::reverse | adaptor` { BidirRange view(buf, buf + 3); auto f = [](int i) { return i; }; auto const partial = std::views::reverse | std::views::transform(f); using Result = std::ranges::transform_view, decltype(f)>; std::same_as auto result = partial(view); assert(base(result.begin().base().base()) == buf + 3); assert(base(result.end().base().base()) == buf); } // Check SFINAE friendliness { struct NotABidirRange { }; static_assert(!std::is_invocable_v); static_assert(!std::is_invocable_v); static_assert( CanBePiped); static_assert( CanBePiped); static_assert(!CanBePiped); } } { static_assert(std::same_as); } return true; } int main(int, char**) { test(); static_assert(test()); return 0; }