libcxx/test/std/ranges/range.adaptors/range.ref.view.pass.cpp - llvm-project - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // 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-no-concepts
 // UNSUPPORTED: libcpp-has-no-incomplete-ranges

 // template<range R>
 //  requires is_object_v<R>
 // class ref_view;

 #include <ranges>

 #include <cassert>
 #include "test_macros.h"
 #include "test_iterators.h"

 int globalBuff[8];

 template<class T>
 concept ValidRefView = requires { typename std::ranges::ref_view<T>; };

 struct Range {
   int start = 0;
   friend constexpr int* begin(Range const& range) { return globalBuff + range.start; }
   friend constexpr int* end(Range const&) { return globalBuff + 8; }
   friend constexpr int* begin(Range& range) { return globalBuff + range.start; }
   friend constexpr int* end(Range&) { return globalBuff + 8; }
 };

 struct BeginOnly {
   friend int* begin(BeginOnly const&);
   friend int* begin(BeginOnly &);
 };

 static_assert( ValidRefView<Range>);
 static_assert(!ValidRefView<BeginOnly>);
 static_assert(!ValidRefView<int (&)[4]>);
 static_assert( ValidRefView<int[4]>);

 static_assert(std::derived_from<std::ranges::ref_view<Range>, std::ranges::view_interface<std::ranges::ref_view<Range>>>);

 struct RangeConvertible {
   operator Range& ();
 };

 struct RValueRangeConvertible {
   operator Range&& ();
 };

 static_assert( std::is_constructible_v<std::ranges::ref_view<Range>, Range&>);
 static_assert( std::is_constructible_v<std::ranges::ref_view<Range>, RangeConvertible>);
 static_assert(!std::is_constructible_v<std::ranges::ref_view<Range>, RValueRangeConvertible>);

 struct ConstConvertibleToLValueAndRValue {
   operator Range& () const;
   operator Range&& () const;
 };
 static_assert( std::is_convertible_v<RangeConvertible, std::ranges::ref_view<Range>>);
 static_assert(!std::is_convertible_v<RValueRangeConvertible, std::ranges::ref_view<Range>>);
 static_assert(!std::is_convertible_v<ConstConvertibleToLValueAndRValue, std::ranges::ref_view<Range>>);

 struct ForwardRange {
   constexpr forward_iterator<int*> begin() const { return forward_iterator<int*>(globalBuff); }
   constexpr forward_iterator<int*> end() const { return forward_iterator<int*>(globalBuff + 8); }
 };

 struct Cpp17InputRange {
   struct sentinel {
     friend constexpr bool operator==(sentinel, cpp17_input_iterator<int*> iter) { return iter.base() == globalBuff + 8; }
     friend constexpr std::ptrdiff_t operator-(sentinel, cpp17_input_iterator<int*>) { return -8; }
     friend constexpr std::ptrdiff_t operator-(cpp17_input_iterator<int*>, sentinel) { return 8; }
   };

   constexpr cpp17_input_iterator<int*> begin() const {
     return cpp17_input_iterator<int*>(globalBuff);
   }
   constexpr sentinel end() const { return {}; }
 };

 struct Cpp20InputRange {
   struct sentinel {
     friend constexpr bool operator==(sentinel, const cpp20_input_iterator<int*> &iter) { return iter.base() == globalBuff + 8; }
     friend constexpr std::ptrdiff_t operator-(sentinel, const cpp20_input_iterator<int*>&) { return -8; }
   };

   constexpr cpp20_input_iterator<int*> begin() const {
     return cpp20_input_iterator<int*>(globalBuff);
   }
   constexpr sentinel end() const { return {}; }
 };

 template<>
 inline constexpr bool std::ranges::enable_borrowed_range<Cpp20InputRange> = true;

 template<class R>
 concept EmptyIsInvocable = requires (std::ranges::ref_view<R> view) { view.empty(); };

 template<class R>
 concept SizeIsInvocable = requires (std::ranges::ref_view<R> view) { view.size(); };

 template<class R>
 concept DataIsInvocable = requires (std::ranges::ref_view<R> view) { view.data(); };

 // Testing ctad.
 static_assert(std::same_as<decltype(std::ranges::ref_view(std::declval<Range&>())),
               std::ranges::ref_view<Range>>);

 constexpr bool test() {
   {
     // ref_view::base
     Range range;
     std::ranges::ref_view<Range> view{range};
     assert(view.begin() == globalBuff);
     view.base() = Range{2};
     assert(view.begin() == globalBuff + 2);
   }

   {
     // ref_view::begin
     Range range1;
     std::ranges::ref_view<Range> view1 = range1;
     assert(view1.begin() == globalBuff);

     ForwardRange range2;
     std::ranges::ref_view<ForwardRange> view2 = range2;
     assert(view2.begin().base() == globalBuff);

     Cpp17InputRange range3;
     std::ranges::ref_view<Cpp17InputRange> view3 = range3;
     assert(view3.begin().base() == globalBuff);

     Cpp20InputRange range4;
     std::ranges::ref_view<Cpp20InputRange> view4 = range4;
     assert(view4.begin().base() == globalBuff);
   }

   {
     // ref_view::end
     Range range1;
     std::ranges::ref_view<Range> view1 = range1;
     assert(view1.end() == globalBuff + 8);

     ForwardRange range2;
     std::ranges::ref_view<ForwardRange> view2 = range2;
     assert(view2.end().base() == globalBuff + 8);

     Cpp17InputRange range3;
     std::ranges::ref_view<Cpp17InputRange> view3 = range3;
     assert(view3.end() == cpp17_input_iterator(globalBuff + 8));

     Cpp20InputRange range4;
     std::ranges::ref_view<Cpp20InputRange> view4 = range4;
     assert(view4.end() == cpp20_input_iterator(globalBuff + 8));
   }

   {
     // ref_view::empty
     Range range{8};
     std::ranges::ref_view<Range> view1 = range;
     assert(view1.empty());

     ForwardRange range2;
     std::ranges::ref_view<ForwardRange> view2 = range2;
     assert(!view2.empty());

     static_assert(!EmptyIsInvocable<Cpp17InputRange>);
     static_assert(!EmptyIsInvocable<Cpp20InputRange>);
   }

   {
     // ref_view::size
     Range range1{8};
     std::ranges::ref_view<Range> view1 = range1;
     assert(view1.size() == 0);

     Range range2{2};
     std::ranges::ref_view<Range> view2 = range2;
     assert(view2.size() == 6);

     static_assert(!SizeIsInvocable<ForwardRange>);
   }

   {
     // ref_view::data
     Range range1;
     std::ranges::ref_view<Range> view1 = range1;
     assert(view1.data() == globalBuff);

     Range range2{2};
     std::ranges::ref_view<Range> view2 = range2;
     assert(view2.data() == globalBuff + 2);

     static_assert(!DataIsInvocable<ForwardRange>);
   }

   return true;
 }

 int main(int, char**) {
   test();
   static_assert(test());

   return 0;
 }
	//===----------------------------------------------------------------------===//
	//
	// 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-no-concepts
	// UNSUPPORTED: libcpp-has-no-incomplete-ranges

	// template<range R>
	// requires is_object_v<R>
	// class ref_view;

	#include <ranges>

	#include <cassert>
	#include "test_macros.h"
	#include "test_iterators.h"

	int globalBuff[8];

	template<class T>
	concept ValidRefView = requires { typename std::ranges::ref_view<T>; };

	struct Range {
	int start = 0;
	friend constexpr int* begin(Range const& range) { return globalBuff + range.start; }
	friend constexpr int* end(Range const&) { return globalBuff + 8; }
	friend constexpr int* begin(Range& range) { return globalBuff + range.start; }
	friend constexpr int* end(Range&) { return globalBuff + 8; }
	};

	struct BeginOnly {
	friend int* begin(BeginOnly const&);
	friend int* begin(BeginOnly &);
	};

	static_assert( ValidRefView<Range>);
	static_assert(!ValidRefView<BeginOnly>);
	static_assert(!ValidRefView<int (&)[4]>);
	static_assert( ValidRefView<int[4]>);

	static_assert(std::derived_from<std::ranges::ref_view<Range>, std::ranges::view_interface<std::ranges::ref_view<Range>>>);

	struct RangeConvertible {
	operator Range& ();
	};

	struct RValueRangeConvertible {
	operator Range&& ();
	};

	static_assert( std::is_constructible_v<std::ranges::ref_view<Range>, Range&>);
	static_assert( std::is_constructible_v<std::ranges::ref_view<Range>, RangeConvertible>);
	static_assert(!std::is_constructible_v<std::ranges::ref_view<Range>, RValueRangeConvertible>);

	struct ConstConvertibleToLValueAndRValue {
	operator Range& () const;
	operator Range&& () const;
	};
	static_assert( std::is_convertible_v<RangeConvertible, std::ranges::ref_view<Range>>);
	static_assert(!std::is_convertible_v<RValueRangeConvertible, std::ranges::ref_view<Range>>);
	static_assert(!std::is_convertible_v<ConstConvertibleToLValueAndRValue, std::ranges::ref_view<Range>>);

	struct ForwardRange {
	constexpr forward_iterator<int> begin() const { return forward_iterator<int>(globalBuff); }
	constexpr forward_iterator<int> end() const { return forward_iterator<int>(globalBuff + 8); }
	};

	struct Cpp17InputRange {
	struct sentinel {
	friend constexpr bool operator==(sentinel, cpp17_input_iterator<int*> iter) { return iter.base() == globalBuff + 8; }
	friend constexpr std::ptrdiff_t operator-(sentinel, cpp17_input_iterator<int*>) { return -8; }
	friend constexpr std::ptrdiff_t operator-(cpp17_input_iterator<int*>, sentinel) { return 8; }
	};

	constexpr cpp17_input_iterator<int*> begin() const {
	return cpp17_input_iterator<int*>(globalBuff);
	}
	constexpr sentinel end() const { return {}; }
	};

	struct Cpp20InputRange {
	struct sentinel {
	friend constexpr bool operator==(sentinel, const cpp20_input_iterator<int*> &iter) { return iter.base() == globalBuff + 8; }
	friend constexpr std::ptrdiff_t operator-(sentinel, const cpp20_input_iterator<int*>&) { return -8; }
	};

	constexpr cpp20_input_iterator<int*> begin() const {
	return cpp20_input_iterator<int*>(globalBuff);
	}
	constexpr sentinel end() const { return {}; }
	};

	template<>
	inline constexpr bool std::ranges::enable_borrowed_range<Cpp20InputRange> = true;

	template<class R>
	concept EmptyIsInvocable = requires (std::ranges::ref_view<R> view) { view.empty(); };

	template<class R>
	concept SizeIsInvocable = requires (std::ranges::ref_view<R> view) { view.size(); };

	template<class R>
	concept DataIsInvocable = requires (std::ranges::ref_view<R> view) { view.data(); };

	// Testing ctad.
	static_assert(std::same_as<decltype(std::ranges::ref_view(std::declval<Range&>())),
	std::ranges::ref_view<Range>>);

	constexpr bool test() {
	{
	// ref_view::base
	Range range;
	std::ranges::ref_view<Range> view{range};
	assert(view.begin() == globalBuff);
	view.base() = Range{2};
	assert(view.begin() == globalBuff + 2);
	}

	{
	// ref_view::begin
	Range range1;
	std::ranges::ref_view<Range> view1 = range1;
	assert(view1.begin() == globalBuff);

	ForwardRange range2;
	std::ranges::ref_view<ForwardRange> view2 = range2;
	assert(view2.begin().base() == globalBuff);

	Cpp17InputRange range3;
	std::ranges::ref_view<Cpp17InputRange> view3 = range3;
	assert(view3.begin().base() == globalBuff);

	Cpp20InputRange range4;
	std::ranges::ref_view<Cpp20InputRange> view4 = range4;
	assert(view4.begin().base() == globalBuff);
	}

	{
	// ref_view::end
	Range range1;
	std::ranges::ref_view<Range> view1 = range1;
	assert(view1.end() == globalBuff + 8);

	ForwardRange range2;
	std::ranges::ref_view<ForwardRange> view2 = range2;
	assert(view2.end().base() == globalBuff + 8);

	Cpp17InputRange range3;
	std::ranges::ref_view<Cpp17InputRange> view3 = range3;
	assert(view3.end() == cpp17_input_iterator(globalBuff + 8));

	Cpp20InputRange range4;
	std::ranges::ref_view<Cpp20InputRange> view4 = range4;
	assert(view4.end() == cpp20_input_iterator(globalBuff + 8));
	}

	{
	// ref_view::empty
	Range range{8};
	std::ranges::ref_view<Range> view1 = range;
	assert(view1.empty());

	ForwardRange range2;
	std::ranges::ref_view<ForwardRange> view2 = range2;
	assert(!view2.empty());

	static_assert(!EmptyIsInvocable<Cpp17InputRange>);
	static_assert(!EmptyIsInvocable<Cpp20InputRange>);
	}

	{
	// ref_view::size
	Range range1{8};
	std::ranges::ref_view<Range> view1 = range1;
	assert(view1.size() == 0);

	Range range2{2};
	std::ranges::ref_view<Range> view2 = range2;
	assert(view2.size() == 6);

	static_assert(!SizeIsInvocable<ForwardRange>);
	}

	{
	// ref_view::data
	Range range1;
	std::ranges::ref_view<Range> view1 = range1;
	assert(view1.data() == globalBuff);

	Range range2{2};
	std::ranges::ref_view<Range> view2 = range2;
	assert(view2.data() == globalBuff + 2);

	static_assert(!DataIsInvocable<ForwardRange>);
	}

	return true;
	}

	int main(int, char**) {
	test();
	static_assert(test());

	return 0;
	}