sources/cxx-stl/llvm-libc++/test/std/thread/futures/futures.promise/alloc_ctor.pass.cpp - toolchain/prebuilts/ndk/r13 - Git at Google

 //===----------------------------------------------------------------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is dual licensed under the MIT and the University of Illinois Open
 // Source Licenses. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // UNSUPPORTED: libcpp-has-no-threads
 // UNSUPPORTED: c++98, c++03

 // <future>

 // class promise<R>

 // template <class Allocator>
 //   promise(allocator_arg_t, const Allocator& a);

 #include <future>
 #include <cassert>

 #include "test_allocator.h"
 #include "min_allocator.h"

 int main()
 {
     assert(test_alloc_base::alloc_count == 0);
     {
         std::promise<int> p(std::allocator_arg, test_allocator<int>(42));
         assert(test_alloc_base::alloc_count == 1);
         std::future<int> f = p.get_future();
         assert(test_alloc_base::alloc_count == 1);
         assert(f.valid());
     }
     assert(test_alloc_base::alloc_count == 0);
     {
         std::promise<int&> p(std::allocator_arg, test_allocator<int>(42));
         assert(test_alloc_base::alloc_count == 1);
         std::future<int&> f = p.get_future();
         assert(test_alloc_base::alloc_count == 1);
         assert(f.valid());
     }
     assert(test_alloc_base::alloc_count == 0);
     {
         std::promise<void> p(std::allocator_arg, test_allocator<void>(42));
         assert(test_alloc_base::alloc_count == 1);
         std::future<void> f = p.get_future();
         assert(test_alloc_base::alloc_count == 1);
         assert(f.valid());
     }
     assert(test_alloc_base::alloc_count == 0);
     // Test with a minimal allocator
     {
         std::promise<int> p(std::allocator_arg, bare_allocator<void>());
         std::future<int> f = p.get_future();
         assert(f.valid());
     }
     {
         std::promise<int&> p(std::allocator_arg, bare_allocator<void>());
         std::future<int&> f = p.get_future();
         assert(f.valid());
     }
     {
         std::promise<void> p(std::allocator_arg, bare_allocator<void>());
         std::future<void> f = p.get_future();
         assert(f.valid());
     }
     // Test with a minimal allocator that returns class-type pointers
     {
         std::promise<int> p(std::allocator_arg, min_allocator<void>());
         std::future<int> f = p.get_future();
         assert(f.valid());
     }
     {
         std::promise<int&> p(std::allocator_arg, min_allocator<void>());
         std::future<int&> f = p.get_future();
         assert(f.valid());
     }
     {
         std::promise<void> p(std::allocator_arg, min_allocator<void>());
         std::future<void> f = p.get_future();
         assert(f.valid());
     }
 }
	//===----------------------------------------------------------------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is dual licensed under the MIT and the University of Illinois Open
	// Source Licenses. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// UNSUPPORTED: libcpp-has-no-threads
	// UNSUPPORTED: c++98, c++03

	// <future>

	// class promise<R>

	// template <class Allocator>
	// promise(allocator_arg_t, const Allocator& a);

	#include <future>
	#include <cassert>

	#include "test_allocator.h"
	#include "min_allocator.h"

	int main()
	{
	assert(test_alloc_base::alloc_count == 0);
	{
	std::promise<int> p(std::allocator_arg, test_allocator<int>(42));
	assert(test_alloc_base::alloc_count == 1);
	std::future<int> f = p.get_future();
	assert(test_alloc_base::alloc_count == 1);
	assert(f.valid());
	}
	assert(test_alloc_base::alloc_count == 0);
	{
	std::promise<int&> p(std::allocator_arg, test_allocator<int>(42));
	assert(test_alloc_base::alloc_count == 1);
	std::future<int&> f = p.get_future();
	assert(test_alloc_base::alloc_count == 1);
	assert(f.valid());
	}
	assert(test_alloc_base::alloc_count == 0);
	{
	std::promise<void> p(std::allocator_arg, test_allocator<void>(42));
	assert(test_alloc_base::alloc_count == 1);
	std::future<void> f = p.get_future();
	assert(test_alloc_base::alloc_count == 1);
	assert(f.valid());
	}
	assert(test_alloc_base::alloc_count == 0);
	// Test with a minimal allocator
	{
	std::promise<int> p(std::allocator_arg, bare_allocator<void>());
	std::future<int> f = p.get_future();
	assert(f.valid());
	}
	{
	std::promise<int&> p(std::allocator_arg, bare_allocator<void>());
	std::future<int&> f = p.get_future();
	assert(f.valid());
	}
	{
	std::promise<void> p(std::allocator_arg, bare_allocator<void>());
	std::future<void> f = p.get_future();
	assert(f.valid());
	}
	// Test with a minimal allocator that returns class-type pointers
	{
	std::promise<int> p(std::allocator_arg, min_allocator<void>());
	std::future<int> f = p.get_future();
	assert(f.valid());
	}
	{
	std::promise<int&> p(std::allocator_arg, min_allocator<void>());
	std::future<int&> f = p.get_future();
	assert(f.valid());
	}
	{
	std::promise<void> p(std::allocator_arg, min_allocator<void>());
	std::future<void> f = p.get_future();
	assert(f.valid());
	}
	}