test/std/experimental/memory/memory.polymorphic.allocator.class/memory.polymorphic.allocator.mem/construct_piecewise_pair.pass.cpp - 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
 //
 //===----------------------------------------------------------------------===//

 // UNSUPPORTED: c++03

 // <experimental/memory_resource>

 // template <class T> class polymorphic_allocator

 // template <class U1, class U2, class ...Args1, class ...Args2>
 // void polymorphic_allocator<T>::construct(pair<U1, U2>*, piecewise_construct_t
 //                                          tuple<Args1...>, tuple<Args2...>)

 #include <experimental/memory_resource>
 #include <type_traits>
 #include <utility>
 #include <tuple>
 #include <cassert>
 #include <cstdlib>

 #include "test_macros.h"
 #include "test_memory_resource.h"
 #include "uses_alloc_types.h"
 #include "controlled_allocators.h"
 #include "test_allocator.h"

 namespace ex = std::experimental::pmr;

 template <class T, class U, class ...TTuple, class ...UTuple>
 bool doTest(UsesAllocatorType TExpect, UsesAllocatorType UExpect,
             std::tuple<TTuple...> ttuple, std::tuple<UTuple...> utuple)
 {
     using P = std::pair<T, U>;
     TestResource R;
     ex::memory_resource * M = &R;
     ex::polymorphic_allocator<P> A(M);
     P * ptr = A.allocate(1);

     // UNDER TEST //
     A.construct(ptr, std::piecewise_construct, std::move(ttuple), std::move(utuple));
     // ------- //
     bool tres = checkConstruct<TTuple&&...>(ptr->first, TExpect, M);
     bool ures = checkConstruct<UTuple&&...>(ptr->second, UExpect, M);

     A.destroy(ptr);
     A.deallocate(ptr, 1);
     return tres && ures;
 }

 template <class Alloc, class ...TTypes, class ...UTypes>
 void test_pmr_uses_allocator(std::tuple<TTypes...> ttuple, std::tuple<UTypes...> utuple)
 {
     {
         using T = NotUsesAllocator<Alloc, sizeof...(TTypes)>;
         using U = NotUsesAllocator<Alloc, sizeof...(UTypes)>;
         assert((doTest<T, U>(UA_None, UA_None,
                              std::move(ttuple), std::move(utuple))));
     }
     {
         using T = UsesAllocatorV1<Alloc, sizeof...(TTypes)>;
         using U = UsesAllocatorV2<Alloc, sizeof...(UTypes)>;
         assert((doTest<T, U>(UA_AllocArg, UA_AllocLast,
                              std::move(ttuple), std::move(utuple))));
     }
     {
         using T = UsesAllocatorV2<Alloc, sizeof...(TTypes)>;
         using U = UsesAllocatorV3<Alloc, sizeof...(UTypes)>;
         assert((doTest<T, U>(UA_AllocLast, UA_AllocArg,
                              std::move(ttuple), std::move(utuple))));
     }
     {
         using T = UsesAllocatorV3<Alloc, sizeof...(TTypes)>;
         using U = NotUsesAllocator<Alloc, sizeof...(UTypes)>;
         assert((doTest<T, U>(UA_AllocArg, UA_None,
                              std::move(ttuple), std::move(utuple))));
     }
 }

 template <class Alloc, class ...TTypes, class ...UTypes>
 void test_pmr_not_uses_allocator(std::tuple<TTypes...> ttuple, std::tuple<UTypes...> utuple)
 {
     {
         using T = NotUsesAllocator<Alloc, sizeof...(TTypes)>;
         using U = NotUsesAllocator<Alloc, sizeof...(UTypes)>;
         assert((doTest<T, U>(UA_None, UA_None,
                              std::move(ttuple), std::move(utuple))));
     }
     {
         using T = UsesAllocatorV1<Alloc, sizeof...(TTypes)>;
         using U = UsesAllocatorV2<Alloc, sizeof...(UTypes)>;
         assert((doTest<T, U>(UA_None, UA_None,
                              std::move(ttuple), std::move(utuple))));
     }
     {
         using T = UsesAllocatorV2<Alloc, sizeof...(TTypes)>;
         using U = UsesAllocatorV3<Alloc, sizeof...(UTypes)>;
         assert((doTest<T, U>(UA_None, UA_None,
                              std::move(ttuple), std::move(utuple))));
     }
     {
         using T = UsesAllocatorV3<Alloc, sizeof...(TTypes)>;
         using U = NotUsesAllocator<Alloc, sizeof...(UTypes)>;
         assert((doTest<T, U>(UA_None, UA_None,
                              std::move(ttuple), std::move(utuple))));
     }
 }

 int main(int, char**)
 {
     using ERT = std::experimental::erased_type;
     using PMR = ex::memory_resource*;
     using PMA = ex::polymorphic_allocator<char>;
     {
         std::tuple<> t1;
         test_pmr_uses_allocator<ERT>(t1, t1);
         test_pmr_not_uses_allocator<PMR>(t1, t1);
         test_pmr_uses_allocator<PMA>(t1, t1);
     }
     {
         std::tuple<int> t1(42);
         std::tuple<> t2;
         test_pmr_uses_allocator<ERT>(t1, t2);
         test_pmr_uses_allocator<ERT>(t2, t1);
         test_pmr_not_uses_allocator<PMR>(t1, t2);
         test_pmr_not_uses_allocator<PMR>(t2, t1);
         test_pmr_uses_allocator<PMA>(t1, t2);
         test_pmr_uses_allocator<PMA>(t2, t1);
     }
     {
         std::tuple<int> t1(42);
         int x = 55;
         double dx = 42.42;
         std::tuple<int&, double&&> t2(x, std::move(dx));
         test_pmr_uses_allocator<ERT>(           t1, std::move(t2));
         test_pmr_uses_allocator<ERT>(std::move(t2),            t1);
         test_pmr_not_uses_allocator<PMR>(           t1, std::move(t2));
         test_pmr_not_uses_allocator<PMR>(std::move(t2),            t1);
         test_pmr_uses_allocator<PMA>(           t1, std::move(t2));
         test_pmr_uses_allocator<PMA>(std::move(t2),            t1);
     }
     {
         void* xptr = nullptr;
         long y = 4242;
         std::tuple<int, long const&, void*&> t1(42, y, xptr);
         int x = 55;
         double dx = 42.42;
         const char* s = "hello World";
         std::tuple<int&, double&&, const char*> t2(x, std::move(dx), s);
         test_pmr_uses_allocator<ERT>(           t1, std::move(t2));
         test_pmr_uses_allocator<ERT>(std::move(t2),            t1);
         test_pmr_not_uses_allocator<PMR>(           t1, std::move(t2));
         test_pmr_not_uses_allocator<PMR>(std::move(t2),            t1);
         test_pmr_uses_allocator<PMA>(           t1, std::move(t2));
         test_pmr_uses_allocator<PMA>(std::move(t2),            t1);
     }

   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

	// <experimental/memory_resource>

	// template <class T> class polymorphic_allocator

	// template <class U1, class U2, class ...Args1, class ...Args2>
	// void polymorphic_allocator<T>::construct(pair<U1, U2>*, piecewise_construct_t
	// tuple<Args1...>, tuple<Args2...>)

	#include <experimental/memory_resource>
	#include <type_traits>
	#include <utility>
	#include <tuple>
	#include <cassert>
	#include <cstdlib>

	#include "test_macros.h"
	#include "test_memory_resource.h"
	#include "uses_alloc_types.h"
	#include "controlled_allocators.h"
	#include "test_allocator.h"

	namespace ex = std::experimental::pmr;

	template <class T, class U, class ...TTuple, class ...UTuple>
	bool doTest(UsesAllocatorType TExpect, UsesAllocatorType UExpect,
	std::tuple<TTuple...> ttuple, std::tuple<UTuple...> utuple)
	{
	using P = std::pair<T, U>;
	TestResource R;
	ex::memory_resource * M = &R;
	ex::polymorphic_allocator<P> A(M);
	P * ptr = A.allocate(1);

	// UNDER TEST //
	A.construct(ptr, std::piecewise_construct, std::move(ttuple), std::move(utuple));
	// ------- //
	bool tres = checkConstruct<TTuple&&...>(ptr->first, TExpect, M);
	bool ures = checkConstruct<UTuple&&...>(ptr->second, UExpect, M);

	A.destroy(ptr);
	A.deallocate(ptr, 1);
	return tres && ures;
	}

	template <class Alloc, class ...TTypes, class ...UTypes>
	void test_pmr_uses_allocator(std::tuple<TTypes...> ttuple, std::tuple<UTypes...> utuple)
	{
	{
	using T = NotUsesAllocator<Alloc, sizeof...(TTypes)>;
	using U = NotUsesAllocator<Alloc, sizeof...(UTypes)>;
	assert((doTest<T, U>(UA_None, UA_None,
	std::move(ttuple), std::move(utuple))));
	}
	{
	using T = UsesAllocatorV1<Alloc, sizeof...(TTypes)>;
	using U = UsesAllocatorV2<Alloc, sizeof...(UTypes)>;
	assert((doTest<T, U>(UA_AllocArg, UA_AllocLast,
	std::move(ttuple), std::move(utuple))));
	}
	{
	using T = UsesAllocatorV2<Alloc, sizeof...(TTypes)>;
	using U = UsesAllocatorV3<Alloc, sizeof...(UTypes)>;
	assert((doTest<T, U>(UA_AllocLast, UA_AllocArg,
	std::move(ttuple), std::move(utuple))));
	}
	{
	using T = UsesAllocatorV3<Alloc, sizeof...(TTypes)>;
	using U = NotUsesAllocator<Alloc, sizeof...(UTypes)>;
	assert((doTest<T, U>(UA_AllocArg, UA_None,
	std::move(ttuple), std::move(utuple))));
	}
	}

	template <class Alloc, class ...TTypes, class ...UTypes>
	void test_pmr_not_uses_allocator(std::tuple<TTypes...> ttuple, std::tuple<UTypes...> utuple)
	{
	{
	using T = NotUsesAllocator<Alloc, sizeof...(TTypes)>;
	using U = NotUsesAllocator<Alloc, sizeof...(UTypes)>;
	assert((doTest<T, U>(UA_None, UA_None,
	std::move(ttuple), std::move(utuple))));
	}
	{
	using T = UsesAllocatorV1<Alloc, sizeof...(TTypes)>;
	using U = UsesAllocatorV2<Alloc, sizeof...(UTypes)>;
	assert((doTest<T, U>(UA_None, UA_None,
	std::move(ttuple), std::move(utuple))));
	}
	{
	using T = UsesAllocatorV2<Alloc, sizeof...(TTypes)>;
	using U = UsesAllocatorV3<Alloc, sizeof...(UTypes)>;
	assert((doTest<T, U>(UA_None, UA_None,
	std::move(ttuple), std::move(utuple))));
	}
	{
	using T = UsesAllocatorV3<Alloc, sizeof...(TTypes)>;
	using U = NotUsesAllocator<Alloc, sizeof...(UTypes)>;
	assert((doTest<T, U>(UA_None, UA_None,
	std::move(ttuple), std::move(utuple))));
	}
	}

	int main(int, char**)
	{
	using ERT = std::experimental::erased_type;
	using PMR = ex::memory_resource*;
	using PMA = ex::polymorphic_allocator<char>;
	{
	std::tuple<> t1;
	test_pmr_uses_allocator<ERT>(t1, t1);
	test_pmr_not_uses_allocator<PMR>(t1, t1);
	test_pmr_uses_allocator<PMA>(t1, t1);
	}
	{
	std::tuple<int> t1(42);
	std::tuple<> t2;
	test_pmr_uses_allocator<ERT>(t1, t2);
	test_pmr_uses_allocator<ERT>(t2, t1);
	test_pmr_not_uses_allocator<PMR>(t1, t2);
	test_pmr_not_uses_allocator<PMR>(t2, t1);
	test_pmr_uses_allocator<PMA>(t1, t2);
	test_pmr_uses_allocator<PMA>(t2, t1);
	}
	{
	std::tuple<int> t1(42);
	int x = 55;
	double dx = 42.42;
	std::tuple<int&, double&&> t2(x, std::move(dx));
	test_pmr_uses_allocator<ERT>( t1, std::move(t2));
	test_pmr_uses_allocator<ERT>(std::move(t2), t1);
	test_pmr_not_uses_allocator<PMR>( t1, std::move(t2));
	test_pmr_not_uses_allocator<PMR>(std::move(t2), t1);
	test_pmr_uses_allocator<PMA>( t1, std::move(t2));
	test_pmr_uses_allocator<PMA>(std::move(t2), t1);
	}
	{
	void* xptr = nullptr;
	long y = 4242;
	std::tuple<int, long const&, void*&> t1(42, y, xptr);
	int x = 55;
	double dx = 42.42;
	const char* s = "hello World";
	std::tuple<int&, double&&, const char*> t2(x, std::move(dx), s);
	test_pmr_uses_allocator<ERT>( t1, std::move(t2));
	test_pmr_uses_allocator<ERT>(std::move(t2), t1);
	test_pmr_not_uses_allocator<PMR>( t1, std::move(t2));
	test_pmr_not_uses_allocator<PMR>(std::move(t2), t1);
	test_pmr_uses_allocator<PMA>( t1, std::move(t2));
	test_pmr_uses_allocator<PMA>(std::move(t2), t1);
	}

	return 0;
	}