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282 lines
6.5 KiB
C++
282 lines
6.5 KiB
C++
//===----------------------------------------------------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is dual licensed under the MIT and the University of Illinois Open
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// Source Licenses. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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// <map>
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// class multimap
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// template <class Key, class T, class Compare, class Allocator>
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// void
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// swap(multimap<Key, T, Compare, Allocator>& x, multimap<Key, T, Compare, Allocator>& y);
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#include <map>
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#include <cassert>
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#include "test_allocator.h"
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#include "../../../test_compare.h"
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#include "min_allocator.h"
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int main()
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{
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typedef std::pair<const int, double> V;
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{
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typedef std::multimap<int, double> M;
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{
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M m1;
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M m2;
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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}
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{
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V ar2[] =
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{
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V(5, 5),
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V(6, 6),
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V(7, 7),
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V(8, 8),
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V(9, 9),
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V(10, 10),
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V(11, 11),
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V(12, 12)
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};
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M m1;
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M m2(ar2, ar2+sizeof(ar2)/sizeof(ar2[0]));
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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}
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{
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V ar1[] =
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{
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V(1, 1),
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V(2, 2),
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V(3, 3),
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V(4, 4)
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};
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M m1(ar1, ar1+sizeof(ar1)/sizeof(ar1[0]));
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M m2;
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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}
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{
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V ar1[] =
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{
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V(1, 1),
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V(2, 2),
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V(3, 3),
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V(4, 4)
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};
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V ar2[] =
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{
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V(5, 5),
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V(6, 6),
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V(7, 7),
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V(8, 8),
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V(9, 9),
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V(10, 10),
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V(11, 11),
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V(12, 12)
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};
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M m1(ar1, ar1+sizeof(ar1)/sizeof(ar1[0]));
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M m2(ar2, ar2+sizeof(ar2)/sizeof(ar2[0]));
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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}
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}
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{
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typedef test_allocator<V> A;
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typedef test_compare<std::less<int> > C;
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typedef std::multimap<int, double, C, A> M;
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V ar1[] =
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{
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V(1, 1),
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V(2, 2),
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V(3, 3),
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V(4, 4)
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};
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V ar2[] =
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{
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V(5, 5),
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V(6, 6),
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V(7, 7),
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V(8, 8),
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V(9, 9),
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V(10, 10),
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V(11, 11),
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V(12, 12)
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};
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M m1(ar1, ar1+sizeof(ar1)/sizeof(ar1[0]), C(1), A(1, 1));
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M m2(ar2, ar2+sizeof(ar2)/sizeof(ar2[0]), C(2), A(1, 2));
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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assert(m1.key_comp() == C(2));
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assert(m1.get_allocator().get_id() == 1);
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assert(m2.key_comp() == C(1));
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assert(m2.get_allocator().get_id() == 2);
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}
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{
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typedef other_allocator<V> A;
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typedef test_compare<std::less<int> > C;
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typedef std::multimap<int, double, C, A> M;
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V ar1[] =
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{
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V(1, 1),
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V(2, 2),
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V(3, 3),
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V(4, 4)
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};
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V ar2[] =
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{
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V(5, 5),
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V(6, 6),
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V(7, 7),
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V(8, 8),
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V(9, 9),
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V(10, 10),
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V(11, 11),
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V(12, 12)
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};
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M m1(ar1, ar1+sizeof(ar1)/sizeof(ar1[0]), C(1), A(1));
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M m2(ar2, ar2+sizeof(ar2)/sizeof(ar2[0]), C(2), A(2));
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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assert(m1.key_comp() == C(2));
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assert(m1.get_allocator() == A(2));
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assert(m2.key_comp() == C(1));
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assert(m2.get_allocator() == A(1));
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}
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#if TEST_STD_VER >= 11
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{
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typedef std::multimap<int, double, std::less<int>, min_allocator<std::pair<const int, double>>> M;
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{
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M m1;
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M m2;
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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}
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{
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V ar2[] =
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{
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V(5, 5),
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V(6, 6),
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V(7, 7),
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V(8, 8),
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V(9, 9),
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V(10, 10),
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V(11, 11),
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V(12, 12)
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};
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M m1;
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M m2(ar2, ar2+sizeof(ar2)/sizeof(ar2[0]));
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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}
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{
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V ar1[] =
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{
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V(1, 1),
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V(2, 2),
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V(3, 3),
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V(4, 4)
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};
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M m1(ar1, ar1+sizeof(ar1)/sizeof(ar1[0]));
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M m2;
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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}
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{
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V ar1[] =
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{
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V(1, 1),
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V(2, 2),
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V(3, 3),
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V(4, 4)
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};
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V ar2[] =
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{
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V(5, 5),
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V(6, 6),
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V(7, 7),
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V(8, 8),
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V(9, 9),
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V(10, 10),
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V(11, 11),
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V(12, 12)
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};
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M m1(ar1, ar1+sizeof(ar1)/sizeof(ar1[0]));
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M m2(ar2, ar2+sizeof(ar2)/sizeof(ar2[0]));
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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}
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}
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{
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typedef min_allocator<V> A;
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typedef test_compare<std::less<int> > C;
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typedef std::multimap<int, double, C, A> M;
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V ar1[] =
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{
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V(1, 1),
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V(2, 2),
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V(3, 3),
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V(4, 4)
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};
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V ar2[] =
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{
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V(5, 5),
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V(6, 6),
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V(7, 7),
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V(8, 8),
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V(9, 9),
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V(10, 10),
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V(11, 11),
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V(12, 12)
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};
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M m1(ar1, ar1+sizeof(ar1)/sizeof(ar1[0]), C(1), A());
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M m2(ar2, ar2+sizeof(ar2)/sizeof(ar2[0]), C(2), A());
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M m1_save = m1;
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M m2_save = m2;
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swap(m1, m2);
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assert(m1 == m2_save);
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assert(m2 == m1_save);
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assert(m1.key_comp() == C(2));
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assert(m1.get_allocator() == A());
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assert(m2.key_comp() == C(1));
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assert(m2.get_allocator() == A());
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}
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#endif
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}
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