test/std/containers/associative/from_range_associative_containers.h - llvm-project/libcxx - 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
 //
 //===----------------------------------------------------------------------===//

 #ifndef SUPPORT_FROM_RANGE_ASSOCIATIVE_CONTAINERS_H
 #define SUPPORT_FROM_RANGE_ASSOCIATIVE_CONTAINERS_H

 #include <algorithm>
 #include <cassert>
 #include <cstddef>
 #include <ranges>
 #include <vector>
 #include <utility>

 #include "../exception_safety_helpers.h"
 #include "../from_range_helpers.h"
 #include "../test_compare.h"
 #include "MoveOnly.h"
 #include "almost_satisfies_types.h"
 #include "count_new.h"
 #include "test_macros.h"

 template <class Container, class Range>
 concept HasFromRangeCtr = requires (Range&& range) {
   Container(std::from_range, std::forward<Range>(range));
   Container(std::from_range, std::forward<Range>(range), std::less<typename Container::key_type>());
   Container(std::from_range, std::forward<Range>(range), std::less<typename Container::key_type>(),
       std::allocator<typename Container::value_type>());
   Container(std::from_range, std::forward<Range>(range), std::allocator<typename Container::value_type>());
 };

 template <template <class...> class Container, class K, class V, class K2, class V2>
 constexpr bool test_map_constraints() {
   using ValueType = std::pair<const K, V>;

   // Input range with the same value type.
   static_assert(HasFromRangeCtr<Container<K, V>, InputRange<ValueType>>);
   // Input range with a convertible value type.
   static_assert(HasFromRangeCtr<Container<K, V>, InputRange<std::pair<const K2, V2>>>);
   // Input range with a non-convertible value type.
   static_assert(!HasFromRangeCtr<Container<K, V>, InputRange<std::pair<const Empty, V>>>);
   static_assert(!HasFromRangeCtr<Container<K, V>, InputRange<std::pair<const K, Empty>>>);
   // Not an input range.
   static_assert(!HasFromRangeCtr<Container<K, V>, InputRangeNotDerivedFromGeneric<ValueType>>);

   return true;
 }

 template <template <class ...> class Container,
           class K,
           class V,
           class Iter,
           class Sent,
           class Comp,
           class Alloc,
           class ValueType = std::pair<const K, V>>
 void test_associative_map_with_input(std::vector<ValueType>&& input) {
   auto in = wrap_input<Iter, Sent>(input);

   { // (range)
     Container<K, V> c(std::from_range, in);

     assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
     assert(std::ranges::is_permutation(input, c));
   }

   { // (range, comp)
     Comp comp;
     Container<K, V, Comp> c(std::from_range, in, comp);

     assert(c.key_comp() == comp);
     assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
     assert(std::ranges::is_permutation(input, c));
   }

   { // (range, allocator)
     Alloc alloc;
     Container<K, V, std::less<K>, Alloc> c(std::from_range, in, alloc);

     assert(c.get_allocator() == alloc);
     assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
     assert(std::ranges::is_permutation(input, c));
   }

   { // (range, comp, allocator)
     Comp comp;
     Alloc alloc;
     Container<K, V, Comp, Alloc> c(std::from_range, in, comp, alloc);

     assert(c.key_comp() == comp);
     assert(c.get_allocator() == alloc);
     assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
     assert(std::ranges::is_permutation(input, c));
   }
 }

 template <template <class ...> class Container,
           class K,
           class V,
           class Iter,
           class Sent,
           class Comp,
           class Alloc>
 void test_associative_map() {
   auto test_with_input = &test_associative_map_with_input<Container, K, V, Iter, Sent, Comp, Alloc>;

   // Normal input.
   test_with_input({{1, 2}, {3, 4}, {5, 6}, {7, 8}, {9, 10}});
   // Empty input.
   test_with_input({});
   // Single-element input.
   test_with_input({{1, 2}});
 }

 template <template <class ...> class Container>
 void test_associative_map_move_only() {
   std::pair<const int, MoveOnly> input[5];
   std::ranges::subrange in(std::move_iterator{input}, std::move_iterator{input + 5});

   [[maybe_unused]] Container<int, MoveOnly> c(std::from_range, in);
 }

 template <template <class ...> class Container>
 void test_map_exception_safety_throwing_copy() {
 #if !defined(TEST_HAS_NO_EXCEPTIONS)
   using K = int;
   using V = ThrowingCopy<3>;

   V::throwing_enabled = false;
   std::pair<const K, V> in[5] = {
     {1, {}}, {2, {}}, {3, {}}, {4, {}}, {5, {}}
   };
   V::throwing_enabled = true;
   V::reset();

   try {
     Container<K, V> c(std::from_range, in);
     assert(false); // The constructor call above should throw.

   } catch (int) {
     assert(V::created_by_copying == 3);
     assert(V::destroyed == 2); // No destructor call for the partially-constructed element.
   }
 #endif
 }

 template <template <class ...> class Container, class K, class V>
 void test_map_exception_safety_throwing_allocator() {
 #if !defined(TEST_HAS_NO_EXCEPTIONS)
   using ValueType = std::pair<const K, V>;
   ValueType in[] = {
     ValueType{K{1}, V{1}}
   };

   try {
     ThrowingAllocator<ValueType> alloc;

     globalMemCounter.reset();
     Container<K, V, test_less<K>, ThrowingAllocator<ValueType>> c(std::from_range, in, alloc);
     assert(false); // The constructor call above should throw.

   } catch (int) {
     assert(globalMemCounter.new_called == globalMemCounter.delete_called);
   }
 #endif
 }

 template <class Container, class Range>
 concept SetHasFromRangeCtr = requires (Range&& range) {
   Container(std::from_range, std::forward<Range>(range));
   Container(std::from_range, std::forward<Range>(range), std::less<typename Container::value_type>());
   Container(std::from_range, std::forward<Range>(range), std::less<typename Container::value_type>(),
       std::allocator<typename Container::value_type>());
   Container(std::from_range, std::forward<Range>(range), std::allocator<typename Container::value_type>());
 };

 template <template <class...> class Container, class T, class U>
 constexpr bool test_set_constraints() {
   // Input range with the same value type.
   static_assert(SetHasFromRangeCtr<Container<T>, InputRange<T>>);
   // Input range with a convertible value type.
   static_assert(SetHasFromRangeCtr<Container<T>, InputRange<U>>);
   // Input range with a non-convertible value type.
   static_assert(!SetHasFromRangeCtr<Container<T>, InputRange<Empty>>);
   // Not an input range.
   static_assert(!SetHasFromRangeCtr<Container<T>, InputRangeNotDerivedFromGeneric<T>>);

   return true;
 }

 template <template <class ...> class Container,
           class T,
           class Iter,
           class Sent,
           class Comp,
           class Alloc>
 void test_associative_set_with_input(std::vector<T>&& input) {
   auto b = Iter(input.data());
   auto e = Iter(input.data() + input.size());
   std::ranges::subrange in(std::move(b), Sent(std::move(e)));

   { // (range)
     Container<T> c(std::from_range, in);

     assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
     assert(std::ranges::is_permutation(input, c));
   }

   { // (range, comp)
     Comp comp;
     Container<T, Comp> c(std::from_range, in, comp);

     assert(c.key_comp() == comp);
     assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
     assert(std::ranges::is_permutation(input, c));
   }

   { // (range, allocator)
     Alloc alloc;
     Container<T, std::less<T>, Alloc> c(std::from_range, in, alloc);

     assert(c.get_allocator() == alloc);
     assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
     assert(std::ranges::is_permutation(input, c));
   }

   { // (range, comp, allocator)
     Comp comp;
     Alloc alloc;
     Container<T, Comp, Alloc> c(std::from_range, in, comp, alloc);

     assert(c.key_comp() == comp);
     assert(c.get_allocator() == alloc);
     assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
     assert(std::ranges::is_permutation(input, c));
   }
 }

 template <template <class ...> class Container,
           class T,
           class Iter,
           class Sent,
           class Comp,
           class Alloc>
 void test_associative_set() {
   auto test_with_input = &test_associative_set_with_input<Container, T, Iter, Sent, Comp, Alloc>;

   // Normal input.
   test_with_input({0, 5, 12, 7, -1, 8, 26});
   // Empty input.
   test_with_input({});
   // Single-element input.
   test_with_input({5});
 }

 template <template <class ...> class Container>
 void test_associative_set_move_only() {
   MoveOnly input[5];
   std::ranges::subrange in(std::move_iterator{input}, std::move_iterator{input + 5});

   [[maybe_unused]] Container<MoveOnly> c(std::from_range, in);
 }

 template <template <class ...> class Container>
 void test_set_exception_safety_throwing_copy() {
 #if !defined(TEST_HAS_NO_EXCEPTIONS)
   using T = ThrowingCopy<3>;
   T::reset();
   T in[5] = {{1}, {2}, {3}, {4}, {5}};

   try {
     Container<T> c(std::from_range, in);
     assert(false); // The constructor call above should throw.

   } catch (int) {
     assert(T::created_by_copying == 3);
     assert(T::destroyed == 2); // No destructor call for the partially-constructed element.
   }
 #endif
 }

 template <template <class ...> class Container, class T>
 void test_set_exception_safety_throwing_allocator() {
 #if !defined(TEST_HAS_NO_EXCEPTIONS)
   T in[] = {1, 2};

   try {
     ThrowingAllocator<T> alloc;

     globalMemCounter.reset();
     Container<T, test_less<T>, ThrowingAllocator<T>> c(std::from_range, in, alloc);
     assert(false); // The constructor call above should throw.

   } catch (int) {
     assert(globalMemCounter.new_called == globalMemCounter.delete_called);
   }
 #endif
 }

 #endif // SUPPORT_FROM_RANGE_ASSOCIATIVE_CONTAINERS_H
	//===----------------------------------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#ifndef SUPPORT_FROM_RANGE_ASSOCIATIVE_CONTAINERS_H
	#define SUPPORT_FROM_RANGE_ASSOCIATIVE_CONTAINERS_H

	#include <algorithm>
	#include <cassert>
	#include <cstddef>
	#include <ranges>
	#include <vector>
	#include <utility>

	#include "../exception_safety_helpers.h"
	#include "../from_range_helpers.h"
	#include "../test_compare.h"
	#include "MoveOnly.h"
	#include "almost_satisfies_types.h"
	#include "count_new.h"
	#include "test_macros.h"

	template <class Container, class Range>
	concept HasFromRangeCtr = requires (Range&& range) {
	Container(std::from_range, std::forward<Range>(range));
	Container(std::from_range, std::forward<Range>(range), std::less<typename Container::key_type>());
	Container(std::from_range, std::forward<Range>(range), std::less<typename Container::key_type>(),
	std::allocator<typename Container::value_type>());
	Container(std::from_range, std::forward<Range>(range), std::allocator<typename Container::value_type>());
	};

	template <template <class...> class Container, class K, class V, class K2, class V2>
	constexpr bool test_map_constraints() {
	using ValueType = std::pair<const K, V>;

	// Input range with the same value type.
	static_assert(HasFromRangeCtr<Container<K, V>, InputRange<ValueType>>);
	// Input range with a convertible value type.
	static_assert(HasFromRangeCtr<Container<K, V>, InputRange<std::pair<const K2, V2>>>);
	// Input range with a non-convertible value type.
	static_assert(!HasFromRangeCtr<Container<K, V>, InputRange<std::pair<const Empty, V>>>);
	static_assert(!HasFromRangeCtr<Container<K, V>, InputRange<std::pair<const K, Empty>>>);
	// Not an input range.
	static_assert(!HasFromRangeCtr<Container<K, V>, InputRangeNotDerivedFromGeneric<ValueType>>);

	return true;
	}

	template <template <class ...> class Container,
	class K,
	class V,
	class Iter,
	class Sent,
	class Comp,
	class Alloc,
	class ValueType = std::pair<const K, V>>
	void test_associative_map_with_input(std::vector<ValueType>&& input) {
	auto in = wrap_input<Iter, Sent>(input);

	{ // (range)
	Container<K, V> c(std::from_range, in);

	assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
	assert(std::ranges::is_permutation(input, c));
	}

	{ // (range, comp)
	Comp comp;
	Container<K, V, Comp> c(std::from_range, in, comp);

	assert(c.key_comp() == comp);
	assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
	assert(std::ranges::is_permutation(input, c));
	}

	{ // (range, allocator)
	Alloc alloc;
	Container<K, V, std::less<K>, Alloc> c(std::from_range, in, alloc);

	assert(c.get_allocator() == alloc);
	assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
	assert(std::ranges::is_permutation(input, c));
	}

	{ // (range, comp, allocator)
	Comp comp;
	Alloc alloc;
	Container<K, V, Comp, Alloc> c(std::from_range, in, comp, alloc);

	assert(c.key_comp() == comp);
	assert(c.get_allocator() == alloc);
	assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
	assert(std::ranges::is_permutation(input, c));
	}
	}

	template <template <class ...> class Container,
	class K,
	class V,
	class Iter,
	class Sent,
	class Comp,
	class Alloc>
	void test_associative_map() {
	auto test_with_input = &test_associative_map_with_input<Container, K, V, Iter, Sent, Comp, Alloc>;

	// Normal input.
	test_with_input({{1, 2}, {3, 4}, {5, 6}, {7, 8}, {9, 10}});
	// Empty input.
	test_with_input({});
	// Single-element input.
	test_with_input({{1, 2}});
	}

	template <template <class ...> class Container>
	void test_associative_map_move_only() {
	std::pair<const int, MoveOnly> input[5];
	std::ranges::subrange in(std::move_iterator{input}, std::move_iterator{input + 5});

	[[maybe_unused]] Container<int, MoveOnly> c(std::from_range, in);
	}

	template <template <class ...> class Container>
	void test_map_exception_safety_throwing_copy() {
	#if !defined(TEST_HAS_NO_EXCEPTIONS)
	using K = int;
	using V = ThrowingCopy<3>;

	V::throwing_enabled = false;
	std::pair<const K, V> in[5] = {
	{1, {}}, {2, {}}, {3, {}}, {4, {}}, {5, {}}
	};
	V::throwing_enabled = true;
	V::reset();

	try {
	Container<K, V> c(std::from_range, in);
	assert(false); // The constructor call above should throw.

	} catch (int) {
	assert(V::created_by_copying == 3);
	assert(V::destroyed == 2); // No destructor call for the partially-constructed element.
	}
	#endif
	}

	template <template <class ...> class Container, class K, class V>
	void test_map_exception_safety_throwing_allocator() {
	#if !defined(TEST_HAS_NO_EXCEPTIONS)
	using ValueType = std::pair<const K, V>;
	ValueType in[] = {
	ValueType{K{1}, V{1}}
	};

	try {
	ThrowingAllocator<ValueType> alloc;

	globalMemCounter.reset();
	Container<K, V, test_less<K>, ThrowingAllocator<ValueType>> c(std::from_range, in, alloc);
	assert(false); // The constructor call above should throw.

	} catch (int) {
	assert(globalMemCounter.new_called == globalMemCounter.delete_called);
	}
	#endif
	}

	template <class Container, class Range>
	concept SetHasFromRangeCtr = requires (Range&& range) {
	Container(std::from_range, std::forward<Range>(range));
	Container(std::from_range, std::forward<Range>(range), std::less<typename Container::value_type>());
	Container(std::from_range, std::forward<Range>(range), std::less<typename Container::value_type>(),
	std::allocator<typename Container::value_type>());
	Container(std::from_range, std::forward<Range>(range), std::allocator<typename Container::value_type>());
	};

	template <template <class...> class Container, class T, class U>
	constexpr bool test_set_constraints() {
	// Input range with the same value type.
	static_assert(SetHasFromRangeCtr<Container<T>, InputRange<T>>);
	// Input range with a convertible value type.
	static_assert(SetHasFromRangeCtr<Container<T>, InputRange<U>>);
	// Input range with a non-convertible value type.
	static_assert(!SetHasFromRangeCtr<Container<T>, InputRange<Empty>>);
	// Not an input range.
	static_assert(!SetHasFromRangeCtr<Container<T>, InputRangeNotDerivedFromGeneric<T>>);

	return true;
	}

	template <template <class ...> class Container,
	class T,
	class Iter,
	class Sent,
	class Comp,
	class Alloc>
	void test_associative_set_with_input(std::vector<T>&& input) {
	auto b = Iter(input.data());
	auto e = Iter(input.data() + input.size());
	std::ranges::subrange in(std::move(b), Sent(std::move(e)));

	{ // (range)
	Container<T> c(std::from_range, in);

	assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
	assert(std::ranges::is_permutation(input, c));
	}

	{ // (range, comp)
	Comp comp;
	Container<T, Comp> c(std::from_range, in, comp);

	assert(c.key_comp() == comp);
	assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
	assert(std::ranges::is_permutation(input, c));
	}

	{ // (range, allocator)
	Alloc alloc;
	Container<T, std::less<T>, Alloc> c(std::from_range, in, alloc);

	assert(c.get_allocator() == alloc);
	assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
	assert(std::ranges::is_permutation(input, c));
	}

	{ // (range, comp, allocator)
	Comp comp;
	Alloc alloc;
	Container<T, Comp, Alloc> c(std::from_range, in, comp, alloc);

	assert(c.key_comp() == comp);
	assert(c.get_allocator() == alloc);
	assert(c.size() == static_cast<std::size_t>(std::distance(c.begin(), c.end())));
	assert(std::ranges::is_permutation(input, c));
	}
	}

	template <template <class ...> class Container,
	class T,
	class Iter,
	class Sent,
	class Comp,
	class Alloc>
	void test_associative_set() {
	auto test_with_input = &test_associative_set_with_input<Container, T, Iter, Sent, Comp, Alloc>;

	// Normal input.
	test_with_input({0, 5, 12, 7, -1, 8, 26});
	// Empty input.
	test_with_input({});
	// Single-element input.
	test_with_input({5});
	}

	template <template <class ...> class Container>
	void test_associative_set_move_only() {
	MoveOnly input[5];
	std::ranges::subrange in(std::move_iterator{input}, std::move_iterator{input + 5});

	[[maybe_unused]] Container<MoveOnly> c(std::from_range, in);
	}

	template <template <class ...> class Container>
	void test_set_exception_safety_throwing_copy() {
	#if !defined(TEST_HAS_NO_EXCEPTIONS)
	using T = ThrowingCopy<3>;
	T::reset();
	T in[5] = {{1}, {2}, {3}, {4}, {5}};

	try {
	Container<T> c(std::from_range, in);
	assert(false); // The constructor call above should throw.

	} catch (int) {
	assert(T::created_by_copying == 3);
	assert(T::destroyed == 2); // No destructor call for the partially-constructed element.
	}
	#endif
	}

	template <template <class ...> class Container, class T>
	void test_set_exception_safety_throwing_allocator() {
	#if !defined(TEST_HAS_NO_EXCEPTIONS)
	T in[] = {1, 2};

	try {
	ThrowingAllocator<T> alloc;

	globalMemCounter.reset();
	Container<T, test_less<T>, ThrowingAllocator<T>> c(std::from_range, in, alloc);
	assert(false); // The constructor call above should throw.

	} catch (int) {
	assert(globalMemCounter.new_called == globalMemCounter.delete_called);
	}
	#endif
	}

	#endif // SUPPORT_FROM_RANGE_ASSOCIATIVE_CONTAINERS_H