//===----------------------------------------------------------------------===//
//
// 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.
//
//===----------------------------------------------------------------------===//
// <set>
// class multiset
// iterator erase(const_iterator first, const_iterator last);
#include <set>
#include <cassert>
#include "min_allocator.h"
int main()
{
{
typedef std::multiset<int> M;
typedef int V;
typedef M::iterator I;
V ar[] =
{
1,
2,
3,
4,
5,
6,
7,
8
};
M m(ar, ar + sizeof(ar)/sizeof(ar[0]));
assert(m.size() == 8);
I i = m.erase(next(m.cbegin(), 5), next(m.cbegin(), 5));
assert(m.size() == 8);
assert(i == next(m.begin(), 5));
assert(*next(m.begin(), 0) == 1);
assert(*next(m.begin(), 1) == 2);
assert(*next(m.begin(), 2) == 3);
assert(*next(m.begin(), 3) == 4);
assert(*next(m.begin(), 4) == 5);
assert(*next(m.begin(), 5) == 6);
assert(*next(m.begin(), 6) == 7);
assert(*next(m.begin(), 7) == 8);
i = m.erase(next(m.cbegin(), 3), next(m.cbegin(), 4));
assert(m.size() == 7);
assert(i == next(m.begin(), 3));
assert(*next(m.begin(), 0) == 1);
assert(*next(m.begin(), 1) == 2);
assert(*next(m.begin(), 2) == 3);
assert(*next(m.begin(), 3) == 5);
assert(*next(m.begin(), 4) == 6);
assert(*next(m.begin(), 5) == 7);
assert(*next(m.begin(), 6) == 8);
i = m.erase(next(m.cbegin(), 2), next(m.cbegin(), 5));
assert(m.size() == 4);
assert(i == next(m.begin(), 2));
assert(*next(m.begin(), 0) == 1);
assert(*next(m.begin(), 1) == 2);
assert(*next(m.begin(), 2) == 7);
assert(*next(m.begin(), 3) == 8);
i = m.erase(next(m.cbegin(), 0), next(m.cbegin(), 2));
assert(m.size() == 2);
assert(i == next(m.begin(), 0));
assert(*next(m.begin(), 0) == 7);
assert(*next(m.begin(), 1) == 8);
i = m.erase(m.cbegin(), m.cend());
assert(m.size() == 0);
assert(i == m.end());
}
#if TEST_STD_VER >= 11
{
typedef std::multiset<int, std::less<int>, min_allocator<int>> M;
typedef int V;
typedef M::iterator I;
V ar[] =
{
1,
2,
3,
4,
5,
6,
7,
8
};
M m(ar, ar + sizeof(ar)/sizeof(ar[0]));
assert(m.size() == 8);
I i = m.erase(next(m.cbegin(), 5), next(m.cbegin(), 5));
assert(m.size() == 8);
assert(i == next(m.begin(), 5));
assert(*next(m.begin(), 0) == 1);
assert(*next(m.begin(), 1) == 2);
assert(*next(m.begin(), 2) == 3);
assert(*next(m.begin(), 3) == 4);
assert(*next(m.begin(), 4) == 5);
assert(*next(m.begin(), 5) == 6);
assert(*next(m.begin(), 6) == 7);
assert(*next(m.begin(), 7) == 8);
i = m.erase(next(m.cbegin(), 3), next(m.cbegin(), 4));
assert(m.size() == 7);
assert(i == next(m.begin(), 3));
assert(*next(m.begin(), 0) == 1);
assert(*next(m.begin(), 1) == 2);
assert(*next(m.begin(), 2) == 3);
assert(*next(m.begin(), 3) == 5);
assert(*next(m.begin(), 4) == 6);
assert(*next(m.begin(), 5) == 7);
assert(*next(m.begin(), 6) == 8);
i = m.erase(next(m.cbegin(), 2), next(m.cbegin(), 5));
assert(m.size() == 4);
assert(i == next(m.begin(), 2));
assert(*next(m.begin(), 0) == 1);
assert(*next(m.begin(), 1) == 2);
assert(*next(m.begin(), 2) == 7);
assert(*next(m.begin(), 3) == 8);
i = m.erase(next(m.cbegin(), 0), next(m.cbegin(), 2));
assert(m.size() == 2);
assert(i == next(m.begin(), 0));
assert(*next(m.begin(), 0) == 7);
assert(*next(m.begin(), 1) == 8);
i = m.erase(m.cbegin(), m.cend());
assert(m.size() == 0);
assert(i == m.end());
}
#endif
}