// { dg-options "-std=gnu++0x" } // 2010-03-25 Paolo Carlini // Copyright (C) 2010 Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the // terms of the GNU General Public License as published by the // Free Software Foundation; either version 3, or (at your option) // any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License along // with this library; see the file COPYING3. If not see // . #include #include void test01() { bool test __attribute__((unused)) = true; typedef std::pair Pair; std::unordered_map um1, um2; VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(1, -1)); um2.insert(Pair(1, -1)); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(2, -1)); um2.insert(Pair(2, -1)); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(1, -1)); um2.insert(Pair(1, -1)); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(3, -3)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um2.insert(Pair(3, -3)); VERIFY( (um1 == um2) ); VERIFY( !(um1 != um2) ); um2.clear(); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um1.clear(); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(1, -1)); um2.insert(Pair(2, -2)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um1.insert(Pair(2, -2)); um2.insert(Pair(1, -1)); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(3, -3)); um2.insert(Pair(4, -4)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um1.insert(Pair(4, -4)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um2.insert(Pair(3, -3)); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(1, -1)); um2.insert(Pair(1, -1)); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(4, -4)); um2.insert(Pair(4, -4)); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.clear(); um2.clear(); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(1, -1)); um2.insert(Pair(1, -2)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um1.clear(); um2.clear(); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(1, -1)); um2.insert(Pair(1, -1)); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(2, -2)); um2.insert(Pair(2, -3)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um1.insert(Pair(2, -3)); um2.insert(Pair(2, -2)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um1.clear(); um2.clear(); VERIFY( um1 == um2 ); VERIFY( !(um1 != um2) ); um1.insert(Pair(2, -2)); um2.insert(Pair(2, -3)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um1.insert(Pair(1, -1)); um2.insert(Pair(1, -1)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um1.insert(Pair(2, -3)); um2.insert(Pair(2, -2)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um1.insert(Pair(1, -1)); um2.insert(Pair(1, -1)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); um1.insert(Pair(1, -1)); um2.insert(Pair(1, -2)); VERIFY( um1 != um2 ); VERIFY( !(um1 == um2) ); const std::unordered_map cum1(um1), cum2(um2); VERIFY( cum1 != cum2 ); VERIFY( !(cum1 == cum2) ); VERIFY( cum1 != um2 ); VERIFY( !(um1 == cum2) ); } int main() { test01(); return 0; }