libstdc++-v3/testsuite/23_containers/vector/bool/modifiers/swap/2.cc

   1 // 2005-12-23  Paolo Carlini  <pcarlini@suse.de>
   2
   3 // Copyright (C) 2005, 2006, 2009 Free Software Foundation, Inc.
   4 //
   5 // This file is part of the GNU ISO C++ Library.  This library is free
   6 // software; you can redistribute it and/or modify it under the
   7 // terms of the GNU General Public License as published by the
   8 // Free Software Foundation; either version 3, or (at your option)
   9 // any later version.
  10
  11 // This library is distributed in the hope that it will be useful,
  12 // but WITHOUT ANY WARRANTY; without even the implied warranty of
  13 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  14 // GNU General Public License for more details.
  15
  16 // You should have received a copy of the GNU General Public License along
  17 // with this library; see the file COPYING3.  If not see
  18 // <http://www.gnu.org/licenses/>.
  19
  20 // 23.2.5 vector<bool>::swap
  21
  22 #include <vector>
  23 #include <testsuite_hooks.h>
  24 #include <testsuite_allocator.h>
  25
  26 // uneq_allocator, two different personalities.
  27 void
  28 test01()
  29 {
  30   bool test __attribute__((unused)) = true;
  31   using namespace std;
  32
  33   typedef __gnu_test::uneq_allocator<bool> my_alloc;
  34   typedef vector<bool, my_alloc> my_vector;
  35
  36   const char title01[] = "Rivers of sand";
  37   const char title02[] = "Concret PH";
  38   const char title03[] = "Sonatas and Interludes for Prepared Piano";
  39   const char title04[] = "never as tired as when i'm waking up";
  40
  41   const size_t N1 = sizeof(title01);
  42   const size_t N2 = sizeof(title02);
  43   const size_t N3 = sizeof(title03);
  44   const size_t N4 = sizeof(title04);
  45
  46   vector<bool> vec01_ref;
  47   for (size_t i = 0; i < N1; ++i)
  48     vec01_ref.push_back(bool(title01[i] > 96 ? 1 : 0));
  49   vector<bool> vec02_ref;
  50   for (size_t i = 0; i < N2; ++i)
  51     vec02_ref.push_back(bool(title02[i] > 96 ? 1 : 0));
  52   vector<bool> vec03_ref;
  53   for (size_t i = 0; i < N3; ++i)
  54     vec03_ref.push_back(bool(title03[i] > 96 ? 1 : 0));
  55   vector<bool> vec04_ref;
  56   for (size_t i = 0; i < N4; ++i)
  57     vec04_ref.push_back(bool(title04[i] > 96 ? 1 : 0));
  58
  59   my_vector::size_type size01, size02;
  60
  61   my_alloc alloc01(1), alloc02(2);
  62   int personality01, personality02;
  63
  64   my_vector vec01(alloc01);
  65   size01 = vec01.size();
  66   personality01 = vec01.get_allocator().get_personality();
  67   my_vector vec02(alloc02);
  68   size02 = vec02.size();
  69   personality02 = vec02.get_allocator().get_personality();
  70
  71   vec01.swap(vec02);
  72   VERIFY( vec01.size() == size02 );
  73   VERIFY( vec01.empty() );
  74   VERIFY( vec02.size() == size01 );
  75   VERIFY( vec02.empty() );
  76   VERIFY( vec01.get_allocator().get_personality() == personality02 );
  77   VERIFY( vec02.get_allocator().get_personality() == personality01 );
  78
  79   my_vector vec03(alloc02);
  80   size01 = vec03.size();
  81   personality01 = vec03.get_allocator().get_personality();
  82   my_vector vec04(vec02_ref.begin(), vec02_ref.end(), alloc01);
  83   size02 = vec04.size();
  84   personality02 = vec04.get_allocator().get_personality();
  85
  86   vec03.swap(vec04);
  87   VERIFY( vec03.size() == size02 );
  88   VERIFY( equal(vec03.begin(), vec03.end(), vec02_ref.begin()) );
  89   VERIFY( vec04.size() == size01 );
  90   VERIFY( vec04.empty() );
  91   VERIFY( vec03.get_allocator().get_personality() == personality02 );
  92   VERIFY( vec04.get_allocator().get_personality() == personality01 );
  93
  94   my_vector vec05(vec01_ref.begin(), vec01_ref.end(), alloc01);
  95   size01 = vec05.size();
  96   personality01 = vec05.get_allocator().get_personality();
  97   my_vector vec06(vec02_ref.begin(), vec02_ref.end(), alloc02);
  98   size02 = vec06.size();
  99   personality02 = vec06.get_allocator().get_personality();
 100
 101   vec05.swap(vec06);
 102   VERIFY( vec05.size() == size02 );
 103   VERIFY( equal(vec05.begin(), vec05.end(), vec02_ref.begin()) );
 104   VERIFY( vec06.size() == size01 );
 105   VERIFY( equal(vec06.begin(), vec06.end(), vec01_ref.begin()) );
 106   VERIFY( vec05.get_allocator().get_personality() == personality02 );
 107   VERIFY( vec06.get_allocator().get_personality() == personality01 );
 108
 109   my_vector vec07(vec01_ref.begin(), vec01_ref.end(), alloc02);
 110   size01 = vec07.size();
 111   personality01 = vec07.get_allocator().get_personality();
 112   my_vector vec08(vec03_ref.begin(), vec03_ref.end(), alloc01);
 113   size02 = vec08.size();
 114   personality02 = vec08.get_allocator().get_personality();
 115
 116   vec07.swap(vec08);
 117   VERIFY( vec07.size() == size02 );
 118   VERIFY( equal(vec07.begin(), vec07.end(), vec03_ref.begin()) );
 119   VERIFY( vec08.size() == size01 );
 120   VERIFY( equal(vec08.begin(), vec08.end(), vec01_ref.begin()) );
 121   VERIFY( vec07.get_allocator().get_personality() == personality02 );
 122   VERIFY( vec08.get_allocator().get_personality() == personality01 );
 123
 124   my_vector vec09(vec03_ref.begin(), vec03_ref.end(), alloc01);
 125   size01 = vec09.size();
 126   personality01 = vec09.get_allocator().get_personality();
 127   my_vector vec10(vec04_ref.begin(), vec04_ref.end(), alloc02);
 128   size02 = vec10.size();
 129   personality02 = vec10.get_allocator().get_personality();
 130
 131   vec09.swap(vec10);
 132   VERIFY( vec09.size() == size02 );
 133   VERIFY( equal(vec09.begin(), vec09.end(), vec04_ref.begin()) );
 134   VERIFY( vec10.size() == size01 );
 135   VERIFY( equal(vec10.begin(), vec10.end(), vec03_ref.begin()) );
 136   VERIFY( vec09.get_allocator().get_personality() == personality02 );
 137   VERIFY( vec10.get_allocator().get_personality() == personality01 );
 138
 139   my_vector vec11(vec04_ref.begin(), vec04_ref.end(), alloc02);
 140   size01 = vec11.size();
 141   personality01 = vec11.get_allocator().get_personality();
 142   my_vector vec12(vec01_ref.begin(), vec01_ref.end(), alloc01);
 143   size02 = vec12.size();
 144   personality02 = vec12.get_allocator().get_personality();
 145
 146   vec11.swap(vec12);
 147   VERIFY( vec11.size() == size02 );
 148   VERIFY( equal(vec11.begin(), vec11.end(), vec01_ref.begin()) );
 149   VERIFY( vec12.size() == size01 );
 150   VERIFY( equal(vec12.begin(), vec12.end(), vec04_ref.begin()) );
 151   VERIFY( vec11.get_allocator().get_personality() == personality02 );
 152   VERIFY( vec12.get_allocator().get_personality() == personality01 );
 153
 154   my_vector vec13(vec03_ref.begin(), vec03_ref.end(), alloc01);
 155   size01 = vec13.size();
 156   personality01 = vec13.get_allocator().get_personality();
 157   my_vector vec14(vec03_ref.begin(), vec03_ref.end(), alloc02);
 158   size02 = vec14.size();
 159   personality02 = vec14.get_allocator().get_personality();
 160
 161   vec13.swap(vec14);
 162   VERIFY( vec13.size() == size02 );
 163   VERIFY( equal(vec13.begin(), vec13.end(), vec03_ref.begin()) );
 164   VERIFY( vec14.size() == size01 );
 165   VERIFY( equal(vec14.begin(), vec14.end(), vec03_ref.begin()) );
 166   VERIFY( vec13.get_allocator().get_personality() == personality02 );
 167   VERIFY( vec14.get_allocator().get_personality() == personality01 );
 168 }
 169
 170 int main()
 171 {
 172   test01();
 173   return 0;
 174 }