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libcxx/test/std/containers/associative/multimap/multimap.ops/equal_range.pass.cpp

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//===----------------------------------------------------------------------===//
//
// 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.
//
//===----------------------------------------------------------------------===//
// <multimap>
// class multimap
// pair<iterator, iterator> equal_range(const key_type& k);
// pair<const_iterator, const_iterator> equal_range(const key_type& k) const;
#include <map>
#include <cassert>
#include "test_macros.h"
#include "min_allocator.h"
#include "private_constructor.hpp"
#include "is_transparent.h"
int main()
{
typedef std::pair<const int, double> V;
{
typedef std::multimap<int, double> M;
{
typedef std::pair<M::iterator, M::iterator> R;
V ar[] =
{
V(5, 1),
V(5, 2),
V(5, 3),
V(7, 1),
V(7, 2),
V(7, 3),
V(9, 1),
V(9, 2),
V(9, 3)
};
M m(ar, ar+sizeof(ar)/sizeof(ar[0]));
R r = m.equal_range(4);
assert(r.first == m.begin());
assert(r.second == m.begin());
r = m.equal_range(5);
assert(r.first == m.begin());
assert(r.second == next(m.begin(), 3));
r = m.equal_range(6);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 3));
r = m.equal_range(7);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(8);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(9);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 9));
r = m.equal_range(10);
assert(r.first == m.end());
assert(r.second == m.end());
}
{
typedef std::pair<M::const_iterator, M::const_iterator> R;
V ar[] =
{
V(5, 1),
V(5, 2),
V(5, 3),
V(7, 1),
V(7, 2),
V(7, 3),
V(9, 1),
V(9, 2),
V(9, 3)
};
const M m(ar, ar+sizeof(ar)/sizeof(ar[0]));
R r = m.equal_range(4);
assert(r.first == m.begin());
assert(r.second == m.begin());
r = m.equal_range(5);
assert(r.first == m.begin());
assert(r.second == next(m.begin(), 3));
r = m.equal_range(6);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 3));
r = m.equal_range(7);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(8);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(9);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 9));
r = m.equal_range(10);
assert(r.first == m.end());
assert(r.second == m.end());
}
}
#if TEST_STD_VER >= 11
{
typedef std::multimap<int, double, std::less<int>, min_allocator<std::pair<const int, double>>> M;
{
typedef std::pair<M::iterator, M::iterator> R;
V ar[] =
{
V(5, 1),
V(5, 2),
V(5, 3),
V(7, 1),
V(7, 2),
V(7, 3),
V(9, 1),
V(9, 2),
V(9, 3)
};
M m(ar, ar+sizeof(ar)/sizeof(ar[0]));
R r = m.equal_range(4);
assert(r.first == m.begin());
assert(r.second == m.begin());
r = m.equal_range(5);
assert(r.first == m.begin());
assert(r.second == next(m.begin(), 3));
r = m.equal_range(6);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 3));
r = m.equal_range(7);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(8);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(9);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 9));
r = m.equal_range(10);
assert(r.first == m.end());
assert(r.second == m.end());
}
{
typedef std::pair<M::const_iterator, M::const_iterator> R;
V ar[] =
{
V(5, 1),
V(5, 2),
V(5, 3),
V(7, 1),
V(7, 2),
V(7, 3),
V(9, 1),
V(9, 2),
V(9, 3)
};
const M m(ar, ar+sizeof(ar)/sizeof(ar[0]));
R r = m.equal_range(4);
assert(r.first == m.begin());
assert(r.second == m.begin());
r = m.equal_range(5);
assert(r.first == m.begin());
assert(r.second == next(m.begin(), 3));
r = m.equal_range(6);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 3));
r = m.equal_range(7);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(8);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(9);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 9));
r = m.equal_range(10);
assert(r.first == m.end());
assert(r.second == m.end());
}
}
#endif
#if TEST_STD_VER > 11
{
typedef std::multimap<int, double, std::less<>> M;
typedef std::pair<M::iterator, M::iterator> R;
V ar[] =
{
V(5, 1),
V(5, 2),
V(5, 3),
V(7, 1),
V(7, 2),
V(7, 3),
V(9, 1),
V(9, 2),
V(9, 3)
};
M m(ar, ar+sizeof(ar)/sizeof(ar[0]));
R r = m.equal_range(4);
assert(r.first == m.begin());
assert(r.second == m.begin());
r = m.equal_range(5);
assert(r.first == m.begin());
assert(r.second == next(m.begin(), 3));
r = m.equal_range(6);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 3));
r = m.equal_range(7);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(8);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(9);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 9));
r = m.equal_range(10);
assert(r.first == m.end());
assert(r.second == m.end());
r = m.equal_range(C2Int(4));
assert(r.first == m.begin());
assert(r.second == m.begin());
r = m.equal_range(C2Int(5));
assert(r.first == m.begin());
assert(r.second == next(m.begin(), 3));
r = m.equal_range(C2Int(6));
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 3));
r = m.equal_range(C2Int(7));
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(C2Int(8));
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(C2Int(9));
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 9));
r = m.equal_range(C2Int(10));
assert(r.first == m.end());
assert(r.second == m.end());
}
{
typedef PrivateConstructor PC;
typedef std::multimap<PC, double, std::less<>> M;
typedef std::pair<M::iterator, M::iterator> R;
M m;
m.insert ( std::make_pair<PC, double> ( PC::make(5), 1 ));
m.insert ( std::make_pair<PC, double> ( PC::make(5), 2 ));
m.insert ( std::make_pair<PC, double> ( PC::make(5), 3 ));
m.insert ( std::make_pair<PC, double> ( PC::make(7), 1 ));
m.insert ( std::make_pair<PC, double> ( PC::make(7), 2 ));
m.insert ( std::make_pair<PC, double> ( PC::make(7), 3 ));
m.insert ( std::make_pair<PC, double> ( PC::make(9), 1 ));
m.insert ( std::make_pair<PC, double> ( PC::make(9), 2 ));
m.insert ( std::make_pair<PC, double> ( PC::make(9), 3 ));
// assert(m.size() == 9);
R r = m.equal_range(4);
assert(r.first == m.begin());
assert(r.second == m.begin());
r = m.equal_range(5);
assert(r.first == m.begin());
assert(r.second == next(m.begin(), 3));
r = m.equal_range(6);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 3));
r = m.equal_range(7);
assert(r.first == next(m.begin(), 3));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(8);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 6));
r = m.equal_range(9);
assert(r.first == next(m.begin(), 6));
assert(r.second == next(m.begin(), 9));
r = m.equal_range(10);
assert(r.first == m.end());
assert(r.second == m.end());
}
#endif
}
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