map unordered_map unordered_multimap
作者:互联网
C++ map容器插入具有相同键的键值对的覆盖问题
map容器插入键值对的方法一般有两种
map["key"] = value;map.insert(make_pair<>("", ""));
#include <map>
#include <iostream>
using namespace std;
int main()
{
map<double, double> mp1;
mp1[1.0] = 1.1;
mp1[1.0] = 1.2;
cout << mp1.size() << endl;
cout << mp1.begin()->second << endl;
return 0;
}
输出结果为
1 1.2
使用方法二插入相同键的键值对时,后一组的键值对不会插入map容器,即不会覆盖前一组键值对。代码如下:
#include <map>
#include <iostream>
using namespace std;
int main()
{
map<double, double> mp1;
mp1.insert(make_pair<double, double>(2.0, 2.1));
mp1.insert(make_pair<double, double>(2.0, 2.2));
cout << mp1.size() << endl;
cout << mp1.begin()->second << endl;
return 0;
}
输出结果为
1 2.1
#include <string>
#include <iostream>
//查询性能最高
//允许重复的,hash_map
#include <unordered_map>
#include <algorithm>
using namespace std;
int main()
{
//允许重复的映射
unordered_multimap<string, double>mymap{ {"a1",113},{ "a2",143 },{ "a3",1123 } };
mymap.insert(pair<string, double>("a4", 345));
mymap.insert(pair<string, double>("a4", 315));
mymap.insert(pair<string, double>("a4", 325));
mymap.insert(pair<string, double>("a4", 335));
/*mymap.insert(unordered_multimap<string, double>::value_type("a5", 3425));*/
/*for (auto i : mymap)
{
cout << i.first << " " << i.second << endl;
}*/
/*auto it = mymap.find("a1");
if (it != mymap.end())
{
cout << it->second << endl;
}*/
//查找所有
auto it = mymap.equal_range("a4");
for_each(it.first, it.second, [](unordered_multimap<string, double>::value_type &x) {cout << x.first << " " << x.second << endl; });
cin.get();
return 0;
}
root@ubuntu:~/c++# g++ -std=c++11 multimap.cpp -o multimap root@ubuntu:~/c++# ./multimap a4 335 a4 325 a4 315 a4 345
#include <string>
#include <iostream>
//查询性能最高
//允许重复的,hash_map
#include <unordered_map>
#include <algorithm>
using namespace std;
int main()
{
//允许重复的映射
unordered_map<string, double>mymap{ {"a1",113},{ "a2",143 },{ "a3",1123 } };
mymap.insert(pair<string, double>("a4", 345));
mymap.insert(pair<string, double>("a4", 315));
mymap.insert(pair<string, double>("a4", 325));
mymap.insert(pair<string, double>("a4", 335));
/*mymap.insert(unordered_multimap<string, double>::value_type("a5", 3425));*/
/*for (auto i : mymap)
{
cout << i.first << " " << i.second << endl;
}*/
/*auto it = mymap.find("a1");
if (it != mymap.end())
{
cout << it->second << endl;
}*/
//查找所有
auto it = mymap.equal_range("a4");
for_each(it.first, it.second, [](unordered_multimap<string, double>::value_type &x) {cout << x.first << " " << x.second << endl; });
cin.get();
return 0;
}
root@ubuntu:~/c++# g++ -std=c++11 multimap.cpp -o multimap root@ubuntu:~/c++# ./multimap a4 345 root@ubuntu:~/c++# cat multimap.cpp
#include <unordered_map>
#include <string>
#include<iostream>
using namespace std;
class Node
{
public:
Node(int age, string name);
~Node();
bool operator==(const Node &n) const;
public:
std::string m_strName;
int m_iAge;
};
Node::Node(int age, string name) :m_strName(name),m_iAge(age)
{
}
Node::~Node()
{
}
bool Node::operator==(const Node & n) const
{
if (n.m_iAge==m_iAge && m_strName==n.m_strName)
{
return true;
}
return false;
}
struct KeyHasher
{
std::size_t operator()(const Node& k) const
{
using std::size_t;
using std::hash;
using std::string;
return ((hash<string>()(k.m_strName)) ^ (hash<int>()(k.m_iAge) << 1));
}
};
int main( )
{
std::unordered_map<Node, int, KeyHasher> myMap;
myMap.insert(pair<Node, int>(Node(24, "kobe"), 24));
//遍历输出+迭代器的使用
auto iter = myMap.begin();//auto自动识别为迭代器类型unordered_map<int,string>::iterator
while (iter!= myMap.end())
{
cout << iter->second << endl;
++iter;
}
auto iterator = myMap.find(Node(24, "kobe"));//find()返回一个指向2的迭代器
if (iterator != myMap.end())
cout << iterator->first.m_strName << " "<< iterator->second << endl;
myMap.insert(pair<Node, int>(Node(24, "kobe"), 40));
iterator = myMap.find(Node(24, "kobe"));//find()返回一个指向2的迭代器
if (iterator != myMap.end())
cout << iterator->first.m_strName << " "<< iterator->second << endl;
}
root@ubuntu:~/c++# ./unorder2 24 kobe 24 kobe 24
标签:Node,map,multimap,insert,std,a4,include,unordered 来源: https://www.cnblogs.com/dream397/p/14675918.html