//===----------------------------------------------------------------------===// // // 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. // //===----------------------------------------------------------------------===// // UNSUPPORTED: c++98, c++03 // // template , class Pred = equal_to, // class Alloc = allocator>> // class unordered_multimap // template ::value>::type> // iterator insert(const_iterator p, P&& x); #if _LIBCPP_DEBUG >= 1 #define _LIBCPP_ASSERT(x, m) ((x) ? (void)0 : std::exit(0)) #endif #include #include #include "MoveOnly.h" #include "min_allocator.h" int main() { { typedef std::unordered_multimap C; typedef C::iterator R; typedef std::pair P; C c; C::const_iterator e = c.end(); R r = c.insert(e, P(3.5, static_cast(3))); assert(c.size() == 1); assert(r->first == 3.5); assert(r->second == 3); r = c.insert(r, P(3.5, static_cast(4))); assert(c.size() == 2); assert(r->first == 3.5); assert(r->second == 4); r = c.insert(c.end(), P(4.5, static_cast(4))); assert(c.size() == 3); assert(r->first == 4.5); assert(r->second == 4); r = c.insert(c.end(), P(5.5, static_cast(4))); assert(c.size() == 4); assert(r->first == 5.5); assert(r->second == 4); } { typedef std::unordered_multimap C; typedef C::iterator R; typedef std::pair P; C c; C::const_iterator e = c.end(); R r = c.insert(e, P(3, 3)); assert(c.size() == 1); assert(r->first == 3); assert(r->second == 3); r = c.insert(r, P(3, 4)); assert(c.size() == 2); assert(r->first == 3); assert(r->second == 4); r = c.insert(c.end(), P(4, 4)); assert(c.size() == 3); assert(r->first == 4); assert(r->second == 4); r = c.insert(c.end(), P(5, 4)); assert(c.size() == 4); assert(r->first == 5); assert(r->second == 4); } { typedef std::unordered_multimap, std::equal_to, min_allocator>> C; typedef C::iterator R; typedef std::pair P; C c; C::const_iterator e = c.end(); R r = c.insert(e, P(3.5, static_cast(3))); assert(c.size() == 1); assert(r->first == 3.5); assert(r->second == 3); r = c.insert(r, P(3.5, static_cast(4))); assert(c.size() == 2); assert(r->first == 3.5); assert(r->second == 4); r = c.insert(c.end(), P(4.5, static_cast(4))); assert(c.size() == 3); assert(r->first == 4.5); assert(r->second == 4); r = c.insert(c.end(), P(5.5, static_cast(4))); assert(c.size() == 4); assert(r->first == 5.5); assert(r->second == 4); } { typedef std::unordered_multimap, std::equal_to, min_allocator>> C; typedef C::iterator R; typedef std::pair P; C c; C::const_iterator e = c.end(); R r = c.insert(e, P(3, 3)); assert(c.size() == 1); assert(r->first == 3); assert(r->second == 3); r = c.insert(r, P(3, 4)); assert(c.size() == 2); assert(r->first == 3); assert(r->second == 4); r = c.insert(c.end(), P(4, 4)); assert(c.size() == 3); assert(r->first == 4); assert(r->second == 4); r = c.insert(c.end(), P(5, 4)); assert(c.size() == 4); assert(r->first == 5); assert(r->second == 4); } { typedef std::unordered_multimap C; typedef C::iterator R; C c; C::const_iterator e = c.end(); R r = c.insert(e, {3.5, 3}); assert(c.size() == 1); assert(r->first == 3.5); assert(r->second == 3); r = c.insert(r, {3.5, 4}); assert(c.size() == 2); assert(r->first == 3.5); assert(r->second == 4); r = c.insert(c.end(), {4.5, 4}); assert(c.size() == 3); assert(r->first == 4.5); assert(r->second == 4); r = c.insert(c.end(), {5.5, 4}); assert(c.size() == 4); assert(r->first == 5.5); assert(r->second == 4); } #if _LIBCPP_DEBUG >= 1 { typedef std::unordered_multimap C; typedef C::iterator R; typedef C::value_type P; C c; C c2; C::const_iterator e = c2.end(); R r = c.insert(e, P(3.5, 3)); assert(false); } #endif }