third_party/llvm-project/libcxx/test/std/algorithms/ranges_robust_against_omitting_invoke.pass.cpp - cobalt - 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

 // <algorithm>
 //
 // Range algorithms should use `std::invoke` to call the given projection(s) (and predicates, where applicable).

 #include <algorithm>

 #include <array>
 #include <concepts>
 #include <initializer_list>
 #include <iterator>
 #include <ranges>

 struct Foo {
   int val;
   constexpr bool unary_pred() const { return val > 0; }
   constexpr bool binary_pred(const Foo& rhs) const { return val < rhs.val; }
   constexpr auto operator<=>(const Foo&) const = default;
 };

 struct Bar {
   Foo val;
   Bar create() const { return Bar(); }
 };

 // Invokes both the (iterator, sentinel, ...) and the (range, ...) overloads of the given niebloid.

 // (in, ...)
 template <class Func, std::ranges::range Input, class... Args>
 constexpr void test(Func&& func, Input& in, Args&&... args) {
   (void)func(in.begin(), in.end(), std::forward<Args>(args)...);
   (void)func(in, std::forward<Args>(args)...);
 }

 // (in1, in2, ...)
 template <class Func, std::ranges::range Input, class... Args>
 constexpr void test(Func&& func, Input& in1, Input& in2, Args&&... args) {
   (void)func(in1.begin(), in1.end(), in2.begin(), in2.end(), std::forward<Args>(args)...);
   (void)func(in1, in2, std::forward<Args>(args)...);
 }

 // (in, mid, ...)
 template <class Func, std::ranges::range Input, class... Args>
 constexpr void test_mid(Func&& func, Input& in, std::ranges::iterator_t<Input> mid, Args&&... args) {
   (void)func(in.begin(), mid, in.end(), std::forward<Args>(args)...);
   (void)func(in, mid, std::forward<Args>(args)...);
 }

 constexpr bool test_all() {
   std::array in  = {Bar{Foo{1}}, Bar{Foo{2}}, Bar{Foo{3}}};
   std::array in2 = {Bar{Foo{4}}, Bar{Foo{5}}, Bar{Foo{6}}};
   auto mid       = in.begin() + 1;

   std::array output = {Bar{Foo{7}}, Bar{Foo{8}}, Bar{Foo{9}}, Bar{Foo{10}}, Bar{Foo{11}}, Bar{Foo{12}}};
   auto out          = output.begin();
   auto out2         = output.begin() + 1;

   Bar a{Foo{1}};
   Bar b{Foo{2}};
   Bar c{Foo{3}};

   Foo x{2};
   std::size_t count = 1;

   test(std::ranges::any_of, in, &Foo::unary_pred, &Bar::val);
   test(std::ranges::all_of, in, &Foo::unary_pred, &Bar::val);
   test(std::ranges::none_of, in, &Foo::unary_pred, &Bar::val);
   test(std::ranges::find, in, x, &Bar::val);
   test(std::ranges::find_if, in, &Foo::unary_pred, &Bar::val);
   test(std::ranges::find_if_not, in, &Foo::unary_pred, &Bar::val);
   test(std::ranges::find_first_of, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::adjacent_find, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::mismatch, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::equal, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::lexicographical_compare, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::partition_point, in, &Foo::unary_pred, &Bar::val);
   test(std::ranges::lower_bound, in, x, &Foo::binary_pred, &Bar::val);
   test(std::ranges::upper_bound, in, x, &Foo::binary_pred, &Bar::val);
   test(std::ranges::equal_range, in, x, &Foo::binary_pred, &Bar::val);
   test(std::ranges::binary_search, in, x, &Foo::binary_pred, &Bar::val);

   // min
   (void)std::ranges::min(a, b, &Foo::binary_pred, &Bar::val);
   (void)std::ranges::min(std::initializer_list<Bar>{a, b}, &Foo::binary_pred, &Bar::val);
   (void)std::ranges::min(in, &Foo::binary_pred, &Bar::val);
   // max
   (void)std::ranges::max(a, b, &Foo::binary_pred, &Bar::val);
   (void)std::ranges::max(std::initializer_list<Bar>{a, b}, &Foo::binary_pred, &Bar::val);
   (void)std::ranges::max(in, &Foo::binary_pred, &Bar::val);
   // minmax
   (void)std::ranges::minmax(a, b, &Foo::binary_pred, &Bar::val);
   (void)std::ranges::minmax(std::initializer_list<Bar>{a, b}, &Foo::binary_pred, &Bar::val);
   (void)std::ranges::minmax(in, &Foo::binary_pred, &Bar::val);

   test(std::ranges::min_element, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::max_element, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::minmax_element, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::count, in, x, &Bar::val);
   test(std::ranges::count_if, in, &Foo::unary_pred, &Bar::val);
   test(std::ranges::search, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::search_n, in, count, x, &Foo::binary_pred, &Bar::val);
   test(std::ranges::find_end, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::is_partitioned, in, &Foo::unary_pred, &Bar::val);
   test(std::ranges::is_sorted, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::is_sorted_until, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::includes, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::is_heap, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::is_heap_until, in, &Foo::binary_pred, &Bar::val);
   (void)std::ranges::clamp(b, a, c, &Foo::binary_pred, &Bar::val);
   test(std::ranges::is_permutation, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::for_each, in, &Foo::unary_pred, &Bar::val);
   std::ranges::for_each_n(in.begin(), count, &Foo::unary_pred, &Bar::val);
   // `copy`, `copy_n` and `copy_backward` have neither a projection nor a predicate.
   test(std::ranges::copy_if, in, out, &Foo::unary_pred, &Bar::val);
   // `move` and `move_backward` have neither a projection nor a predicate.
   // `fill` and `fill_n` have neither a projection nor a predicate.
   {
     std::array out_transform = {false, true, true};
     test(std::ranges::transform, in, out_transform.begin(), &Foo::unary_pred, &Bar::val);
   }
   // Whether `ranges::generate{,_n}` invokes `gen` via `std::invoke` is not observable.
   test(std::ranges::remove_copy, in, out, x, &Bar::val);
   test(std::ranges::remove_copy_if, in, out, &Foo::unary_pred, &Bar::val);
   // `replace*` algorithms only use the projection to compare the elements, not to write them.
   test(std::ranges::replace, in, x, a, &Bar::val);
   test(std::ranges::replace_if, in, &Foo::unary_pred, a, &Bar::val);
   test(std::ranges::replace_copy, in, out, x, a, &Bar::val);
   test(std::ranges::replace_copy_if, in, out, &Foo::unary_pred, a, &Bar::val);
   // `swap_ranges` has neither a projection nor a predicate.
   // `reverse_copy` has neither a projection nor a predicate.
   // `rotate_copy` has neither a projection nor a predicate.
   // For `sample`, whether the given generator is invoked via `std::invoke` is not observable.
   test(std::ranges::unique_copy, in, out, &Foo::binary_pred, &Bar::val);
   test(std::ranges::partition_copy, in, out, out2, &Foo::unary_pred, &Bar::val);
   test(std::ranges::partial_sort_copy, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::merge, in, in2, out, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::set_difference, in, in2, out, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::set_intersection, in, in2, out, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::set_symmetric_difference, in, in2, out, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::set_union, in, in2, out, &Foo::binary_pred, &Bar::val, &Bar::val);
   test(std::ranges::remove, in, x, &Bar::val);
   test(std::ranges::remove_if, in, &Foo::unary_pred, &Bar::val);
   // `reverse` has neither a projection nor a predicate.
   // `rotate` has neither a projection nor a predicate.
   // For `shuffle`, whether the given generator is invoked via `std::invoke` is not observable.
   test(std::ranges::unique, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::partition, in, &Foo::unary_pred, &Bar::val);
   if (!std::is_constant_evaluated())
     test(std::ranges::stable_partition, in, &Foo::unary_pred, &Bar::val);
   test(std::ranges::sort, in, &Foo::binary_pred, &Bar::val);
   if (!std::is_constant_evaluated())
     test(std::ranges::stable_sort, in, &Foo::binary_pred, &Bar::val);
   test_mid(std::ranges::partial_sort, in, mid, &Foo::binary_pred, &Bar::val);
   test_mid(std::ranges::nth_element, in, mid, &Foo::binary_pred, &Bar::val);
   if (!std::is_constant_evaluated())
     test_mid(std::ranges::inplace_merge, in, mid, &Foo::binary_pred, &Bar::val);
   test(std::ranges::make_heap, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::push_heap, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::pop_heap, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::sort_heap, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::prev_permutation, in, &Foo::binary_pred, &Bar::val);
   test(std::ranges::next_permutation, in, &Foo::binary_pred, &Bar::val);

   return true;
 }

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

   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

	// <algorithm>
	//
	// Range algorithms should use `std::invoke` to call the given projection(s) (and predicates, where applicable).

	#include <algorithm>

	#include <array>
	#include <concepts>
	#include <initializer_list>
	#include <iterator>
	#include <ranges>

	struct Foo {
	int val;
	constexpr bool unary_pred() const { return val > 0; }
	constexpr bool binary_pred(const Foo& rhs) const { return val < rhs.val; }
	constexpr auto operator<=>(const Foo&) const = default;
	};

	struct Bar {
	Foo val;
	Bar create() const { return Bar(); }
	};

	// Invokes both the (iterator, sentinel, ...) and the (range, ...) overloads of the given niebloid.

	// (in, ...)
	template <class Func, std::ranges::range Input, class... Args>
	constexpr void test(Func&& func, Input& in, Args&&... args) {
	(void)func(in.begin(), in.end(), std::forward<Args>(args)...);
	(void)func(in, std::forward<Args>(args)...);
	}

	// (in1, in2, ...)
	template <class Func, std::ranges::range Input, class... Args>
	constexpr void test(Func&& func, Input& in1, Input& in2, Args&&... args) {
	(void)func(in1.begin(), in1.end(), in2.begin(), in2.end(), std::forward<Args>(args)...);
	(void)func(in1, in2, std::forward<Args>(args)...);
	}

	// (in, mid, ...)
	template <class Func, std::ranges::range Input, class... Args>
	constexpr void test_mid(Func&& func, Input& in, std::ranges::iterator_t<Input> mid, Args&&... args) {
	(void)func(in.begin(), mid, in.end(), std::forward<Args>(args)...);
	(void)func(in, mid, std::forward<Args>(args)...);
	}

	constexpr bool test_all() {
	std::array in = {Bar{Foo{1}}, Bar{Foo{2}}, Bar{Foo{3}}};
	std::array in2 = {Bar{Foo{4}}, Bar{Foo{5}}, Bar{Foo{6}}};
	auto mid = in.begin() + 1;

	std::array output = {Bar{Foo{7}}, Bar{Foo{8}}, Bar{Foo{9}}, Bar{Foo{10}}, Bar{Foo{11}}, Bar{Foo{12}}};
	auto out = output.begin();
	auto out2 = output.begin() + 1;

	Bar a{Foo{1}};
	Bar b{Foo{2}};
	Bar c{Foo{3}};

	Foo x{2};
	std::size_t count = 1;

	test(std::ranges::any_of, in, &Foo::unary_pred, &Bar::val);
	test(std::ranges::all_of, in, &Foo::unary_pred, &Bar::val);
	test(std::ranges::none_of, in, &Foo::unary_pred, &Bar::val);
	test(std::ranges::find, in, x, &Bar::val);
	test(std::ranges::find_if, in, &Foo::unary_pred, &Bar::val);
	test(std::ranges::find_if_not, in, &Foo::unary_pred, &Bar::val);
	test(std::ranges::find_first_of, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::adjacent_find, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::mismatch, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::equal, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::lexicographical_compare, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::partition_point, in, &Foo::unary_pred, &Bar::val);
	test(std::ranges::lower_bound, in, x, &Foo::binary_pred, &Bar::val);
	test(std::ranges::upper_bound, in, x, &Foo::binary_pred, &Bar::val);
	test(std::ranges::equal_range, in, x, &Foo::binary_pred, &Bar::val);
	test(std::ranges::binary_search, in, x, &Foo::binary_pred, &Bar::val);

	// min
	(void)std::ranges::min(a, b, &Foo::binary_pred, &Bar::val);
	(void)std::ranges::min(std::initializer_list<Bar>{a, b}, &Foo::binary_pred, &Bar::val);
	(void)std::ranges::min(in, &Foo::binary_pred, &Bar::val);
	// max
	(void)std::ranges::max(a, b, &Foo::binary_pred, &Bar::val);
	(void)std::ranges::max(std::initializer_list<Bar>{a, b}, &Foo::binary_pred, &Bar::val);
	(void)std::ranges::max(in, &Foo::binary_pred, &Bar::val);
	// minmax
	(void)std::ranges::minmax(a, b, &Foo::binary_pred, &Bar::val);
	(void)std::ranges::minmax(std::initializer_list<Bar>{a, b}, &Foo::binary_pred, &Bar::val);
	(void)std::ranges::minmax(in, &Foo::binary_pred, &Bar::val);

	test(std::ranges::min_element, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::max_element, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::minmax_element, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::count, in, x, &Bar::val);
	test(std::ranges::count_if, in, &Foo::unary_pred, &Bar::val);
	test(std::ranges::search, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::search_n, in, count, x, &Foo::binary_pred, &Bar::val);
	test(std::ranges::find_end, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::is_partitioned, in, &Foo::unary_pred, &Bar::val);
	test(std::ranges::is_sorted, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::is_sorted_until, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::includes, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::is_heap, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::is_heap_until, in, &Foo::binary_pred, &Bar::val);
	(void)std::ranges::clamp(b, a, c, &Foo::binary_pred, &Bar::val);
	test(std::ranges::is_permutation, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::for_each, in, &Foo::unary_pred, &Bar::val);
	std::ranges::for_each_n(in.begin(), count, &Foo::unary_pred, &Bar::val);
	// `copy`, `copy_n` and `copy_backward` have neither a projection nor a predicate.
	test(std::ranges::copy_if, in, out, &Foo::unary_pred, &Bar::val);
	// `move` and `move_backward` have neither a projection nor a predicate.
	// `fill` and `fill_n` have neither a projection nor a predicate.
	{
	std::array out_transform = {false, true, true};
	test(std::ranges::transform, in, out_transform.begin(), &Foo::unary_pred, &Bar::val);
	}
	// Whether `ranges::generate{,_n}` invokes `gen` via `std::invoke` is not observable.
	test(std::ranges::remove_copy, in, out, x, &Bar::val);
	test(std::ranges::remove_copy_if, in, out, &Foo::unary_pred, &Bar::val);
	// `replace*` algorithms only use the projection to compare the elements, not to write them.
	test(std::ranges::replace, in, x, a, &Bar::val);
	test(std::ranges::replace_if, in, &Foo::unary_pred, a, &Bar::val);
	test(std::ranges::replace_copy, in, out, x, a, &Bar::val);
	test(std::ranges::replace_copy_if, in, out, &Foo::unary_pred, a, &Bar::val);
	// `swap_ranges` has neither a projection nor a predicate.
	// `reverse_copy` has neither a projection nor a predicate.
	// `rotate_copy` has neither a projection nor a predicate.
	// For `sample`, whether the given generator is invoked via `std::invoke` is not observable.
	test(std::ranges::unique_copy, in, out, &Foo::binary_pred, &Bar::val);
	test(std::ranges::partition_copy, in, out, out2, &Foo::unary_pred, &Bar::val);
	test(std::ranges::partial_sort_copy, in, in2, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::merge, in, in2, out, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::set_difference, in, in2, out, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::set_intersection, in, in2, out, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::set_symmetric_difference, in, in2, out, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::set_union, in, in2, out, &Foo::binary_pred, &Bar::val, &Bar::val);
	test(std::ranges::remove, in, x, &Bar::val);
	test(std::ranges::remove_if, in, &Foo::unary_pred, &Bar::val);
	// `reverse` has neither a projection nor a predicate.
	// `rotate` has neither a projection nor a predicate.
	// For `shuffle`, whether the given generator is invoked via `std::invoke` is not observable.
	test(std::ranges::unique, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::partition, in, &Foo::unary_pred, &Bar::val);
	if (!std::is_constant_evaluated())
	test(std::ranges::stable_partition, in, &Foo::unary_pred, &Bar::val);
	test(std::ranges::sort, in, &Foo::binary_pred, &Bar::val);
	if (!std::is_constant_evaluated())
	test(std::ranges::stable_sort, in, &Foo::binary_pred, &Bar::val);
	test_mid(std::ranges::partial_sort, in, mid, &Foo::binary_pred, &Bar::val);
	test_mid(std::ranges::nth_element, in, mid, &Foo::binary_pred, &Bar::val);
	if (!std::is_constant_evaluated())
	test_mid(std::ranges::inplace_merge, in, mid, &Foo::binary_pred, &Bar::val);
	test(std::ranges::make_heap, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::push_heap, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::pop_heap, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::sort_heap, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::prev_permutation, in, &Foo::binary_pred, &Bar::val);
	test(std::ranges::next_permutation, in, &Foo::binary_pred, &Bar::val);

	return true;
	}

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

	return 0;
	}