| //===----------------------------------------------------------------------===// |
| // |
| // 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 erase(const_iterator first, const_iterator last); |
| |
| #include <map> |
| #include <cassert> |
| |
| #include "min_allocator.h" |
| |
| int main() |
| { |
| { |
| typedef std::multimap<int, double> M; |
| typedef std::pair<int, double> P; |
| typedef M::iterator I; |
| P ar[] = |
| { |
| P(1, 1.5), |
| P(2, 2.5), |
| P(3, 3.5), |
| P(4, 4.5), |
| P(5, 5.5), |
| P(6, 6.5), |
| P(7, 7.5), |
| P(8, 8.5), |
| }; |
| M m(ar, ar + sizeof(ar)/sizeof(ar[0])); |
| assert(m.size() == 8); |
| I i = m.erase(m.cbegin(), m.cbegin()); |
| assert(m.size() == 8); |
| assert(i == m.begin()); |
| assert(m.begin()->first == 1); |
| assert(m.begin()->second == 1.5); |
| assert(next(m.begin())->first == 2); |
| assert(next(m.begin())->second == 2.5); |
| assert(next(m.begin(), 2)->first == 3); |
| assert(next(m.begin(), 2)->second == 3.5); |
| assert(next(m.begin(), 3)->first == 4); |
| assert(next(m.begin(), 3)->second == 4.5); |
| assert(next(m.begin(), 4)->first == 5); |
| assert(next(m.begin(), 4)->second == 5.5); |
| assert(next(m.begin(), 5)->first == 6); |
| assert(next(m.begin(), 5)->second == 6.5); |
| assert(next(m.begin(), 6)->first == 7); |
| assert(next(m.begin(), 6)->second == 7.5); |
| assert(next(m.begin(), 7)->first == 8); |
| assert(next(m.begin(), 7)->second == 8.5); |
| |
| i = m.erase(m.cbegin(), next(m.cbegin(), 2)); |
| assert(m.size() == 6); |
| assert(i == m.begin()); |
| assert(next(m.begin(), 0)->first == 3); |
| assert(next(m.begin(), 0)->second == 3.5); |
| assert(next(m.begin(), 1)->first == 4); |
| assert(next(m.begin(), 1)->second == 4.5); |
| assert(next(m.begin(), 2)->first == 5); |
| assert(next(m.begin(), 2)->second == 5.5); |
| assert(next(m.begin(), 3)->first == 6); |
| assert(next(m.begin(), 3)->second == 6.5); |
| assert(next(m.begin(), 4)->first == 7); |
| assert(next(m.begin(), 4)->second == 7.5); |
| assert(next(m.begin(), 5)->first == 8); |
| assert(next(m.begin(), 5)->second == 8.5); |
| |
| i = m.erase(next(m.cbegin(), 2), next(m.cbegin(), 6)); |
| assert(m.size() == 2); |
| assert(i == next(m.begin(), 2)); |
| assert(next(m.begin(), 0)->first == 3); |
| assert(next(m.begin(), 0)->second == 3.5); |
| assert(next(m.begin(), 1)->first == 4); |
| assert(next(m.begin(), 1)->second == 4.5); |
| |
| i = m.erase(m.cbegin(), m.cend()); |
| assert(m.size() == 0); |
| assert(i == m.begin()); |
| assert(i == m.end()); |
| } |
| #if __cplusplus >= 201103L |
| { |
| typedef std::multimap<int, double, std::less<int>, min_allocator<std::pair<const int, double>>> M; |
| typedef std::pair<int, double> P; |
| typedef M::iterator I; |
| P ar[] = |
| { |
| P(1, 1.5), |
| P(2, 2.5), |
| P(3, 3.5), |
| P(4, 4.5), |
| P(5, 5.5), |
| P(6, 6.5), |
| P(7, 7.5), |
| P(8, 8.5), |
| }; |
| M m(ar, ar + sizeof(ar)/sizeof(ar[0])); |
| assert(m.size() == 8); |
| I i = m.erase(m.cbegin(), m.cbegin()); |
| assert(m.size() == 8); |
| assert(i == m.begin()); |
| assert(m.begin()->first == 1); |
| assert(m.begin()->second == 1.5); |
| assert(next(m.begin())->first == 2); |
| assert(next(m.begin())->second == 2.5); |
| assert(next(m.begin(), 2)->first == 3); |
| assert(next(m.begin(), 2)->second == 3.5); |
| assert(next(m.begin(), 3)->first == 4); |
| assert(next(m.begin(), 3)->second == 4.5); |
| assert(next(m.begin(), 4)->first == 5); |
| assert(next(m.begin(), 4)->second == 5.5); |
| assert(next(m.begin(), 5)->first == 6); |
| assert(next(m.begin(), 5)->second == 6.5); |
| assert(next(m.begin(), 6)->first == 7); |
| assert(next(m.begin(), 6)->second == 7.5); |
| assert(next(m.begin(), 7)->first == 8); |
| assert(next(m.begin(), 7)->second == 8.5); |
| |
| i = m.erase(m.cbegin(), next(m.cbegin(), 2)); |
| assert(m.size() == 6); |
| assert(i == m.begin()); |
| assert(next(m.begin(), 0)->first == 3); |
| assert(next(m.begin(), 0)->second == 3.5); |
| assert(next(m.begin(), 1)->first == 4); |
| assert(next(m.begin(), 1)->second == 4.5); |
| assert(next(m.begin(), 2)->first == 5); |
| assert(next(m.begin(), 2)->second == 5.5); |
| assert(next(m.begin(), 3)->first == 6); |
| assert(next(m.begin(), 3)->second == 6.5); |
| assert(next(m.begin(), 4)->first == 7); |
| assert(next(m.begin(), 4)->second == 7.5); |
| assert(next(m.begin(), 5)->first == 8); |
| assert(next(m.begin(), 5)->second == 8.5); |
| |
| i = m.erase(next(m.cbegin(), 2), next(m.cbegin(), 6)); |
| assert(m.size() == 2); |
| assert(i == next(m.begin(), 2)); |
| assert(next(m.begin(), 0)->first == 3); |
| assert(next(m.begin(), 0)->second == 3.5); |
| assert(next(m.begin(), 1)->first == 4); |
| assert(next(m.begin(), 1)->second == 4.5); |
| |
| i = m.erase(m.cbegin(), m.cend()); |
| assert(m.size() == 0); |
| assert(i == m.begin()); |
| assert(i == m.end()); |
| } |
| #endif |
| } |