// Copyright (C) 2016-2019 Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the // terms of the GNU General Public License as published by the // Free Software Foundation; either version 3, or (at your option) // any later version. // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License along // with this library; see the file COPYING3. If not see // . // { dg-options "-std=gnu++17" } // { dg-skip-if "" { *-*-* } { "-D_GLIBCXX_PROFILE" } } #include #include #include using test_type = std::map; void test01() { test_type c{ {1, 10}, {2, 20}, {3, 30} }; test_type::node_type node; test_type::insert_return_type ins; test_type::iterator pos; node = c.extract(0); VERIFY( !node ); VERIFY( node.empty() ); VERIFY( c.size() == 3 ); ins = c.insert(std::move(node)); VERIFY( !node ); VERIFY( node.empty() ); VERIFY( c.size() == 3 ); VERIFY( !ins.inserted ); VERIFY( !ins.node ); VERIFY( ins.position == c.end() ); node = c.extract(1); VERIFY( (bool)node ); VERIFY( !node.empty() ); VERIFY( c.size() == 2 ); VERIFY( c.count(1) == 0 ); VERIFY( node.get_allocator() == c.get_allocator() ); VERIFY( node.key() == 1 ); VERIFY( node.mapped() == 10 ); node.key() = 4; node.mapped() = 40; VERIFY( node.key() == 4 ); VERIFY( node.mapped() == 40 ); ins = c.insert(std::move(node)); VERIFY( !node ); VERIFY( node.empty() ); VERIFY( c.size() == 3 ); VERIFY( ins.inserted ); VERIFY( !ins.node ); VERIFY( ins.position != c.end() ); VERIFY( ins.position->first == 4 ); VERIFY( ins.position->second == 40 ); VERIFY( c.count(1) == 0 ); VERIFY( c.count(4) == 1 ); VERIFY( std::is_sorted(c.begin(), c.end()) ); pos = c.insert(c.begin(), std::move(node)); VERIFY( !node ); VERIFY( node.empty() ); VERIFY( c.size() == 3 ); VERIFY( pos == c.end() ); node = c.extract(2); pos = c.insert(c.begin(), std::move(node)); VERIFY( c.size() == 3 ); VERIFY( pos != c.end() ); VERIFY( pos->first == 2 ); VERIFY( pos->second == 20 ); test_type c2 = c; node = c2.extract(3); ins = c.insert(std::move(node)); VERIFY( node.empty() ); VERIFY( ins.position != c.end() ); VERIFY( !ins.inserted ); VERIFY( !ins.node.empty() ); VERIFY( ins.node.key() == 3 ); VERIFY( ins.node.mapped() == 30 ); VERIFY( ins.position->first == ins.node.key() ); } void test02() { test_type c{ {1, 10}, {2, 20}, {3, 30} }; test_type::node_type node; test_type::insert_return_type ins; node = c.extract(c.begin()); VERIFY( (bool)node ); VERIFY( !node.empty() ); VERIFY( c.size() == 2 ); VERIFY( node.get_allocator() == c.get_allocator() ); VERIFY( node.key() == 1 ); VERIFY( node.mapped() == 10 ); ins = c.insert(std::move(node)); VERIFY( node.empty() ); VERIFY( c.size() == 3 ); VERIFY( ins.inserted ); VERIFY( !ins.node ); VERIFY( ins.position != c.end() ); VERIFY( ins.position->first == 1 ); VERIFY( ins.position->second == 10 ); } void test03() { struct less : std::less { }; using std::is_same_v; using compat_type1 = std::map; static_assert( is_same_v ); using compat_type2 = std::multimap; static_assert( is_same_v ); using compat_type3 = std::multimap; static_assert( is_same_v ); } void test04() { // Check order of members in insert_return_type auto [pos, ins, node] = test_type::insert_return_type{}; using std::is_same_v; static_assert( is_same_v ); static_assert( is_same_v ); static_assert( is_same_v ); } int main() { test01(); test02(); test03(); }