test/std/utilities/allocator.adaptor/allocator.adaptor.members/construct_pair.pass.cpp - 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
 //
 //===----------------------------------------------------------------------===//

 // UNSUPPORTED: c++98, c++03

 // <scoped_allocator>

 // template <class OtherAlloc, class ...InnerAlloc>
 //   class scoped_allocator_adaptor

 // template <class U1, class U2>
 // void scoped_allocator_adaptor::construct(pair<U1, U2>*)

 #include <scoped_allocator>
 #include <type_traits>
 #include <utility>
 #include <tuple>
 #include <cassert>
 #include <cstdlib>
 #include "uses_alloc_types.hpp"
 #include "controlled_allocators.hpp"

 #include "test_macros.h"


 void test_no_inner_alloc()
 {
     using VoidAlloc = CountingAllocator<void>;
     AllocController P;
     {
         using T = UsesAllocatorV1<VoidAlloc, 0>;
         using U = UsesAllocatorV2<VoidAlloc, 0>;
         using Pair = std::pair<T, U>;
         using Alloc = CountingAllocator<Pair>;
         using SA = std::scoped_allocator_adaptor<Alloc>;
         static_assert(std::uses_allocator<T, CountingAllocator<T> >::value, "");
         Pair * ptr = (Pair*)std::malloc(sizeof(Pair));
         assert(ptr);
         Alloc CA(P);
         SA A(CA);
         A.construct(ptr);
         assert(checkConstruct<>(ptr->first, UA_AllocArg, CA));
         assert(checkConstruct<>(ptr->second, UA_AllocLast, CA));
         assert((P.checkConstruct<std::piecewise_construct_t const&,
                                  std::tuple<std::allocator_arg_t, SA&>&&,
                                  std::tuple<SA&>&&
               >(CA, ptr)));
         A.destroy(ptr);
         std::free(ptr);

     }
     P.reset();
     {
         using T = UsesAllocatorV3<VoidAlloc, 0>;
         using U = NotUsesAllocator<VoidAlloc, 0>;
         using Pair = std::pair<T, U>;
         using Alloc = CountingAllocator<Pair>;
         using SA = std::scoped_allocator_adaptor<Alloc>;
         static_assert(std::uses_allocator<T, CountingAllocator<T> >::value, "");
         Pair * ptr = (Pair*)std::malloc(sizeof(Pair));
         assert(ptr);
         Alloc CA(P);
         SA A(CA);
         A.construct(ptr);
         assert(checkConstruct<>(ptr->first, UA_AllocArg, CA));
         assert(checkConstruct<>(ptr->second, UA_None));
         assert((P.checkConstruct<std::piecewise_construct_t const&,
                                  std::tuple<std::allocator_arg_t, SA&>&&,
                                  std::tuple<>&&
                    >(CA, ptr)));
         A.destroy(ptr);
         std::free(ptr);
     }
 }

 void test_with_inner_alloc()
 {
     using VoidAlloc2 = CountingAllocator<void, 2>;

     AllocController POuter;
     AllocController PInner;
     {
         using T = UsesAllocatorV1<VoidAlloc2, 0>;
         using U = UsesAllocatorV2<VoidAlloc2, 0>;
         using Pair = std::pair<T, U>;
         using Outer = CountingAllocator<Pair, 1>;
         using Inner = CountingAllocator<Pair, 2>;
         using SA = std::scoped_allocator_adaptor<Outer, Inner>;
         using SAInner = std::scoped_allocator_adaptor<Inner>;
         static_assert(!std::uses_allocator<T, Outer>::value, "");
         static_assert(std::uses_allocator<T, Inner>::value, "");
         Pair * ptr = (Pair*)std::malloc(sizeof(Pair));
         assert(ptr);
         Outer O(POuter);
         Inner I(PInner);
         SA A(O, I);
         A.construct(ptr);
         assert(checkConstruct<>(ptr->first, UA_AllocArg, I));
         assert(checkConstruct<>(ptr->second, UA_AllocLast));
         assert((POuter.checkConstruct<std::piecewise_construct_t const&,
                                  std::tuple<std::allocator_arg_t, SAInner&>&&,
                                  std::tuple<SAInner&>&&
               >(O, ptr)));
         A.destroy(ptr);
         std::free(ptr);
     }
     PInner.reset();
     POuter.reset();
     {
         using T = UsesAllocatorV3<VoidAlloc2, 0>;
         using U = NotUsesAllocator<VoidAlloc2, 0>;
         using Pair = std::pair<T, U>;
         using Outer = CountingAllocator<Pair, 1>;
         using Inner = CountingAllocator<Pair, 2>;
         using SA = std::scoped_allocator_adaptor<Outer, Inner>;
         using SAInner = std::scoped_allocator_adaptor<Inner>;
         static_assert(!std::uses_allocator<T, Outer>::value, "");
         static_assert(std::uses_allocator<T, Inner>::value, "");
         Pair * ptr = (Pair*)std::malloc(sizeof(Pair));
         assert(ptr);
         Outer O(POuter);
         Inner I(PInner);
         SA A(O, I);
         A.construct(ptr);
         assert(checkConstruct<>(ptr->first, UA_AllocArg, I));
         assert(checkConstruct<>(ptr->second, UA_None));
         assert((POuter.checkConstruct<std::piecewise_construct_t const&,
                                  std::tuple<std::allocator_arg_t, SAInner&>&&,
                                  std::tuple<>&&
               >(O, ptr)));
         A.destroy(ptr);
         std::free(ptr);
     }
 }
 int main(int, char**) {
     test_no_inner_alloc();
     test_with_inner_alloc();

   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++98, c++03

	// <scoped_allocator>

	// template <class OtherAlloc, class ...InnerAlloc>
	// class scoped_allocator_adaptor

	// template <class U1, class U2>
	// void scoped_allocator_adaptor::construct(pair<U1, U2>*)

	#include <scoped_allocator>
	#include <type_traits>
	#include <utility>
	#include <tuple>
	#include <cassert>
	#include <cstdlib>
	#include "uses_alloc_types.hpp"
	#include "controlled_allocators.hpp"

	#include "test_macros.h"


	void test_no_inner_alloc()
	{
	using VoidAlloc = CountingAllocator<void>;
	AllocController P;
	{
	using T = UsesAllocatorV1<VoidAlloc, 0>;
	using U = UsesAllocatorV2<VoidAlloc, 0>;
	using Pair = std::pair<T, U>;
	using Alloc = CountingAllocator<Pair>;
	using SA = std::scoped_allocator_adaptor<Alloc>;
	static_assert(std::uses_allocator<T, CountingAllocator<T> >::value, "");
	Pair * ptr = (Pair*)std::malloc(sizeof(Pair));
	assert(ptr);
	Alloc CA(P);
	SA A(CA);
	A.construct(ptr);
	assert(checkConstruct<>(ptr->first, UA_AllocArg, CA));
	assert(checkConstruct<>(ptr->second, UA_AllocLast, CA));
	assert((P.checkConstruct<std::piecewise_construct_t const&,
	std::tuple<std::allocator_arg_t, SA&>&&,
	std::tuple<SA&>&&
	>(CA, ptr)));
	A.destroy(ptr);
	std::free(ptr);

	}
	P.reset();
	{
	using T = UsesAllocatorV3<VoidAlloc, 0>;
	using U = NotUsesAllocator<VoidAlloc, 0>;
	using Pair = std::pair<T, U>;
	using Alloc = CountingAllocator<Pair>;
	using SA = std::scoped_allocator_adaptor<Alloc>;
	static_assert(std::uses_allocator<T, CountingAllocator<T> >::value, "");
	Pair * ptr = (Pair*)std::malloc(sizeof(Pair));
	assert(ptr);
	Alloc CA(P);
	SA A(CA);
	A.construct(ptr);
	assert(checkConstruct<>(ptr->first, UA_AllocArg, CA));
	assert(checkConstruct<>(ptr->second, UA_None));
	assert((P.checkConstruct<std::piecewise_construct_t const&,
	std::tuple<std::allocator_arg_t, SA&>&&,
	std::tuple<>&&
	>(CA, ptr)));
	A.destroy(ptr);
	std::free(ptr);
	}
	}

	void test_with_inner_alloc()
	{
	using VoidAlloc2 = CountingAllocator<void, 2>;

	AllocController POuter;
	AllocController PInner;
	{
	using T = UsesAllocatorV1<VoidAlloc2, 0>;
	using U = UsesAllocatorV2<VoidAlloc2, 0>;
	using Pair = std::pair<T, U>;
	using Outer = CountingAllocator<Pair, 1>;
	using Inner = CountingAllocator<Pair, 2>;
	using SA = std::scoped_allocator_adaptor<Outer, Inner>;
	using SAInner = std::scoped_allocator_adaptor<Inner>;
	static_assert(!std::uses_allocator<T, Outer>::value, "");
	static_assert(std::uses_allocator<T, Inner>::value, "");
	Pair * ptr = (Pair*)std::malloc(sizeof(Pair));
	assert(ptr);
	Outer O(POuter);
	Inner I(PInner);
	SA A(O, I);
	A.construct(ptr);
	assert(checkConstruct<>(ptr->first, UA_AllocArg, I));
	assert(checkConstruct<>(ptr->second, UA_AllocLast));
	assert((POuter.checkConstruct<std::piecewise_construct_t const&,
	std::tuple<std::allocator_arg_t, SAInner&>&&,
	std::tuple<SAInner&>&&
	>(O, ptr)));
	A.destroy(ptr);
	std::free(ptr);
	}
	PInner.reset();
	POuter.reset();
	{
	using T = UsesAllocatorV3<VoidAlloc2, 0>;
	using U = NotUsesAllocator<VoidAlloc2, 0>;
	using Pair = std::pair<T, U>;
	using Outer = CountingAllocator<Pair, 1>;
	using Inner = CountingAllocator<Pair, 2>;
	using SA = std::scoped_allocator_adaptor<Outer, Inner>;
	using SAInner = std::scoped_allocator_adaptor<Inner>;
	static_assert(!std::uses_allocator<T, Outer>::value, "");
	static_assert(std::uses_allocator<T, Inner>::value, "");
	Pair * ptr = (Pair*)std::malloc(sizeof(Pair));
	assert(ptr);
	Outer O(POuter);
	Inner I(PInner);
	SA A(O, I);
	A.construct(ptr);
	assert(checkConstruct<>(ptr->first, UA_AllocArg, I));
	assert(checkConstruct<>(ptr->second, UA_None));
	assert((POuter.checkConstruct<std::piecewise_construct_t const&,
	std::tuple<std::allocator_arg_t, SAInner&>&&,
	std::tuple<>&&
	>(O, ptr)));
	A.destroy(ptr);
	std::free(ptr);
	}
	}
	int main(int, char**) {
	test_no_inner_alloc();
	test_with_inner_alloc();

	return 0;
	}