| //===----------------------------------------------------------------------===// |
| // |
| // 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 set |
| |
| // iterator upper_bound(const key_type& k); |
| // const_iterator upper_bound(const key_type& k) const; |
| |
| #include <set> |
| #include <cassert> |
| |
| #include "min_allocator.h" |
| #include "private_constructor.hpp" |
| |
| int main() |
| { |
| { |
| typedef int V; |
| typedef std::set<int> M; |
| { |
| typedef M::iterator R; |
| V ar[] = |
| { |
| 5, |
| 7, |
| 9, |
| 11, |
| 13, |
| 15, |
| 17, |
| 19 |
| }; |
| M m(ar, ar+sizeof(ar)/sizeof(ar[0])); |
| R r = m.upper_bound(5); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(7); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(9); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(11); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(13); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(15); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(17); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(19); |
| assert(r == next(m.begin(), 8)); |
| r = m.upper_bound(4); |
| assert(r == next(m.begin(), 0)); |
| r = m.upper_bound(6); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(8); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(10); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(12); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(14); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(16); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(18); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(20); |
| assert(r == next(m.begin(), 8)); |
| } |
| { |
| typedef M::const_iterator R; |
| V ar[] = |
| { |
| 5, |
| 7, |
| 9, |
| 11, |
| 13, |
| 15, |
| 17, |
| 19 |
| }; |
| const M m(ar, ar+sizeof(ar)/sizeof(ar[0])); |
| R r = m.upper_bound(5); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(7); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(9); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(11); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(13); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(15); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(17); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(19); |
| assert(r == next(m.begin(), 8)); |
| r = m.upper_bound(4); |
| assert(r == next(m.begin(), 0)); |
| r = m.upper_bound(6); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(8); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(10); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(12); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(14); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(16); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(18); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(20); |
| assert(r == next(m.begin(), 8)); |
| } |
| } |
| #if __cplusplus >= 201103L |
| { |
| typedef int V; |
| typedef std::set<int, std::less<int>, min_allocator<int>> M; |
| { |
| typedef M::iterator R; |
| V ar[] = |
| { |
| 5, |
| 7, |
| 9, |
| 11, |
| 13, |
| 15, |
| 17, |
| 19 |
| }; |
| M m(ar, ar+sizeof(ar)/sizeof(ar[0])); |
| R r = m.upper_bound(5); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(7); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(9); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(11); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(13); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(15); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(17); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(19); |
| assert(r == next(m.begin(), 8)); |
| r = m.upper_bound(4); |
| assert(r == next(m.begin(), 0)); |
| r = m.upper_bound(6); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(8); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(10); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(12); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(14); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(16); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(18); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(20); |
| assert(r == next(m.begin(), 8)); |
| } |
| { |
| typedef M::const_iterator R; |
| V ar[] = |
| { |
| 5, |
| 7, |
| 9, |
| 11, |
| 13, |
| 15, |
| 17, |
| 19 |
| }; |
| const M m(ar, ar+sizeof(ar)/sizeof(ar[0])); |
| R r = m.upper_bound(5); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(7); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(9); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(11); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(13); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(15); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(17); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(19); |
| assert(r == next(m.begin(), 8)); |
| r = m.upper_bound(4); |
| assert(r == next(m.begin(), 0)); |
| r = m.upper_bound(6); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(8); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(10); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(12); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(14); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(16); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(18); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(20); |
| assert(r == next(m.begin(), 8)); |
| } |
| } |
| #endif |
| #if _LIBCPP_STD_VER > 11 |
| { |
| typedef int V; |
| typedef std::set<V, std::less<>> M; |
| typedef M::iterator R; |
| |
| V ar[] = |
| { |
| 5, |
| 7, |
| 9, |
| 11, |
| 13, |
| 15, |
| 17, |
| 19 |
| }; |
| M m(ar, ar+sizeof(ar)/sizeof(ar[0])); |
| R r = m.upper_bound(5); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(7); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(9); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(11); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(13); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(15); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(17); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(19); |
| assert(r == next(m.begin(), 8)); |
| r = m.upper_bound(4); |
| assert(r == next(m.begin(), 0)); |
| r = m.upper_bound(6); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(8); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(10); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(12); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(14); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(16); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(18); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(20); |
| assert(r == next(m.begin(), 8)); |
| } |
| |
| { |
| typedef PrivateConstructor V; |
| typedef std::set<V, std::less<>> M; |
| typedef M::iterator R; |
| |
| M m; |
| m.insert ( V::make ( 5 )); |
| m.insert ( V::make ( 7 )); |
| m.insert ( V::make ( 9 )); |
| m.insert ( V::make ( 11 )); |
| m.insert ( V::make ( 13 )); |
| m.insert ( V::make ( 15 )); |
| m.insert ( V::make ( 17 )); |
| m.insert ( V::make ( 19 )); |
| |
| R r = m.upper_bound(5); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(7); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(9); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(11); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(13); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(15); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(17); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(19); |
| assert(r == next(m.begin(), 8)); |
| r = m.upper_bound(4); |
| assert(r == next(m.begin(), 0)); |
| r = m.upper_bound(6); |
| assert(r == next(m.begin(), 1)); |
| r = m.upper_bound(8); |
| assert(r == next(m.begin(), 2)); |
| r = m.upper_bound(10); |
| assert(r == next(m.begin(), 3)); |
| r = m.upper_bound(12); |
| assert(r == next(m.begin(), 4)); |
| r = m.upper_bound(14); |
| assert(r == next(m.begin(), 5)); |
| r = m.upper_bound(16); |
| assert(r == next(m.begin(), 6)); |
| r = m.upper_bound(18); |
| assert(r == next(m.begin(), 7)); |
| r = m.upper_bound(20); |
| assert(r == next(m.begin(), 8)); |
| } |
| #endif |
| } |
