test/containers/associative/multimap/multimap.ops/upper_bound.pass.cpp - LeafOS-Project/android_external_libcxx - Gitiles

 //===----------------------------------------------------------------------===//
 //
 //                     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.
 //
 //===----------------------------------------------------------------------===//

 // <map>

 // class multimap

 //       iterator upper_bound(const key_type& k);
 // const_iterator upper_bound(const key_type& k) const;

 #include <map>
 #include <cassert>

 #include "../../../min_allocator.h"

 int main()
 {
     typedef std::pair<const int, double> V;
     {
     typedef std::multimap<int, double> M;
     {
         typedef 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.upper_bound(4);
         assert(r == m.begin());
         r = m.upper_bound(5);
         assert(r == next(m.begin(), 3));
         r = m.upper_bound(6);
         assert(r == next(m.begin(), 3));
         r = m.upper_bound(7);
         assert(r == next(m.begin(), 6));
         r = m.upper_bound(8);
         assert(r == next(m.begin(), 6));
         r = m.upper_bound(9);
         assert(r == next(m.begin(), 9));
         r = m.upper_bound(10);
         assert(r == m.end());
     }
     {
         typedef 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.upper_bound(4);
         assert(r == m.begin());
         r = m.upper_bound(5);
         assert(r == next(m.begin(), 3));
         r = m.upper_bound(6);
         assert(r == next(m.begin(), 3));
         r = m.upper_bound(7);
         assert(r == next(m.begin(), 6));
         r = m.upper_bound(8);
         assert(r == next(m.begin(), 6));
         r = m.upper_bound(9);
         assert(r == next(m.begin(), 9));
         r = m.upper_bound(10);
         assert(r == m.end());
     }
     }
 #if __cplusplus >= 201103L
     {
     typedef std::multimap<int, double, std::less<int>, min_allocator<std::pair<const int, double>>> M;
     {
         typedef 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.upper_bound(4);
         assert(r == m.begin());
         r = m.upper_bound(5);
         assert(r == next(m.begin(), 3));
         r = m.upper_bound(6);
         assert(r == next(m.begin(), 3));
         r = m.upper_bound(7);
         assert(r == next(m.begin(), 6));
         r = m.upper_bound(8);
         assert(r == next(m.begin(), 6));
         r = m.upper_bound(9);
         assert(r == next(m.begin(), 9));
         r = m.upper_bound(10);
         assert(r == m.end());
     }
     {
         typedef 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.upper_bound(4);
         assert(r == m.begin());
         r = m.upper_bound(5);
         assert(r == next(m.begin(), 3));
         r = m.upper_bound(6);
         assert(r == next(m.begin(), 3));
         r = m.upper_bound(7);
         assert(r == next(m.begin(), 6));
         r = m.upper_bound(8);
         assert(r == next(m.begin(), 6));
         r = m.upper_bound(9);
         assert(r == next(m.begin(), 9));
         r = m.upper_bound(10);
         assert(r == m.end());
     }
     }
 #endif
 }
	//===----------------------------------------------------------------------===//
	//
	// 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.
	//
	//===----------------------------------------------------------------------===//

	// <map>

	// class multimap

	// iterator upper_bound(const key_type& k);
	// const_iterator upper_bound(const key_type& k) const;

	#include <map>
	#include <cassert>

	#include "../../../min_allocator.h"

	int main()
	{
	typedef std::pair<const int, double> V;
	{
	typedef std::multimap<int, double> M;
	{
	typedef 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.upper_bound(4);
	assert(r == m.begin());
	r = m.upper_bound(5);
	assert(r == next(m.begin(), 3));
	r = m.upper_bound(6);
	assert(r == next(m.begin(), 3));
	r = m.upper_bound(7);
	assert(r == next(m.begin(), 6));
	r = m.upper_bound(8);
	assert(r == next(m.begin(), 6));
	r = m.upper_bound(9);
	assert(r == next(m.begin(), 9));
	r = m.upper_bound(10);
	assert(r == m.end());
	}
	{
	typedef 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.upper_bound(4);
	assert(r == m.begin());
	r = m.upper_bound(5);
	assert(r == next(m.begin(), 3));
	r = m.upper_bound(6);
	assert(r == next(m.begin(), 3));
	r = m.upper_bound(7);
	assert(r == next(m.begin(), 6));
	r = m.upper_bound(8);
	assert(r == next(m.begin(), 6));
	r = m.upper_bound(9);
	assert(r == next(m.begin(), 9));
	r = m.upper_bound(10);
	assert(r == m.end());
	}
	}
	#if __cplusplus >= 201103L
	{
	typedef std::multimap<int, double, std::less<int>, min_allocator<std::pair<const int, double>>> M;
	{
	typedef 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.upper_bound(4);
	assert(r == m.begin());
	r = m.upper_bound(5);
	assert(r == next(m.begin(), 3));
	r = m.upper_bound(6);
	assert(r == next(m.begin(), 3));
	r = m.upper_bound(7);
	assert(r == next(m.begin(), 6));
	r = m.upper_bound(8);
	assert(r == next(m.begin(), 6));
	r = m.upper_bound(9);
	assert(r == next(m.begin(), 9));
	r = m.upper_bound(10);
	assert(r == m.end());
	}
	{
	typedef 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.upper_bound(4);
	assert(r == m.begin());
	r = m.upper_bound(5);
	assert(r == next(m.begin(), 3));
	r = m.upper_bound(6);
	assert(r == next(m.begin(), 3));
	r = m.upper_bound(7);
	assert(r == next(m.begin(), 6));
	r = m.upper_bound(8);
	assert(r == next(m.begin(), 6));
	r = m.upper_bound(9);
	assert(r == next(m.begin(), 9));
	r = m.upper_bound(10);
	assert(r == m.end());
	}
	}
	#endif
	}