1bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant//===----------------------------------------------------------------------===// 2bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant// 3f5256e16dfc425c1d466f6308d4026d529ce9e0bHoward Hinnant// The LLVM Compiler Infrastructure 4bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant// 5b64f8b07c104c6cc986570ac8ee0ed16a9f23976Howard Hinnant// This file is dual licensed under the MIT and the University of Illinois Open 6b64f8b07c104c6cc986570ac8ee0ed16a9f23976Howard Hinnant// Source Licenses. See LICENSE.TXT for details. 7bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant// 8bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant//===----------------------------------------------------------------------===// 9bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant 10bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant// <deque> 11bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant 12bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant// deque(deque&&); 13bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant 14bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant#include <deque> 15bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant#include <cassert> 16bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant 17bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant#include "../../../MoveOnly.h" 181b92188a82b01e76ac6e8ad5f997293c2a078adcMarshall Clow#include "test_allocator.h" 19061d0cc4db18d17bf01ed14c5db0be098205bd47Marshall Clow#include "min_allocator.h" 20bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant 21bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnantint main() 22bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant{ 2373d21a4f0774d3fadab98e690619a359cfb160a3Howard Hinnant#ifndef _LIBCPP_HAS_NO_RVALUE_REFERENCES 24bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant { 25bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant int ab[] = {3, 4, 2, 8, 0, 1, 44, 34, 45, 96, 80, 1, 13, 31, 45}; 26bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant int* an = ab + sizeof(ab)/sizeof(ab[0]); 27bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant typedef test_allocator<MoveOnly> A; 28bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant std::deque<MoveOnly, A> c1(A(1)); 29bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant for (int* p = ab; p < an; ++p) 30bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant c1.push_back(MoveOnly(*p)); 31bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant std::deque<MoveOnly, A> c2(A(2)); 32bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant for (int* p = ab; p < an; ++p) 33bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant c2.push_back(MoveOnly(*p)); 34bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant std::deque<MoveOnly, A> c3 = std::move(c1); 35bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant assert(c2 == c3); 36bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant assert(c1.size() == 0); 37bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant assert(c3.get_allocator() == c1.get_allocator()); 38bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant } 39bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant { 40bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant int ab[] = {3, 4, 2, 8, 0, 1, 44, 34, 45, 96, 80, 1, 13, 31, 45}; 41bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant int* an = ab + sizeof(ab)/sizeof(ab[0]); 42bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant typedef other_allocator<MoveOnly> A; 43bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant std::deque<MoveOnly, A> c1(A(1)); 44bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant for (int* p = ab; p < an; ++p) 45bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant c1.push_back(MoveOnly(*p)); 46bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant std::deque<MoveOnly, A> c2(A(2)); 47bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant for (int* p = ab; p < an; ++p) 48bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant c2.push_back(MoveOnly(*p)); 49bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant std::deque<MoveOnly, A> c3 = std::move(c1); 50bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant assert(c2 == c3); 51bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant assert(c1.size() == 0); 52bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant assert(c3.get_allocator() == c1.get_allocator()); 53bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant } 54fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant#if __cplusplus >= 201103L 55fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant { 56fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant int ab[] = {3, 4, 2, 8, 0, 1, 44, 34, 45, 96, 80, 1, 13, 31, 45}; 57fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant int* an = ab + sizeof(ab)/sizeof(ab[0]); 58fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant typedef min_allocator<MoveOnly> A; 59fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant std::deque<MoveOnly, A> c1(A{}); 60fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant for (int* p = ab; p < an; ++p) 61fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant c1.push_back(MoveOnly(*p)); 62fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant std::deque<MoveOnly, A> c2(A{}); 63fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant for (int* p = ab; p < an; ++p) 64fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant c2.push_back(MoveOnly(*p)); 65fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant std::deque<MoveOnly, A> c3 = std::move(c1); 66fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant assert(c2 == c3); 67fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant assert(c1.size() == 0); 68fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant assert(c3.get_allocator() == c1.get_allocator()); 69fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant } 70fcd8db7133c56a5a627f3922ce4a180c12287dd9Howard Hinnant#endif 7173d21a4f0774d3fadab98e690619a359cfb160a3Howard Hinnant#endif // _LIBCPP_HAS_NO_RVALUE_REFERENCES 72bc8d3f97eb5c958007f2713238472e0c1c8fe02Howard Hinnant} 73