C++ list 链表
#include<iostream>
using namespace std;
#include<list>
void printList(const list<int>& L)
{
for (list<int>::const_iterator it = L.begin(); it !=L.end(); it++)
{
cout << *it << " ";
}
cout << endl;
}
void test01()
{
//创建list容器
list<int>L1;
L1.push_back(10);
L1.push_back(20);
L1.push_back(30);
L1.push_back(40);
//遍历元素
printList(L1);
//区间方式构造
list<int>L2(L1.begin(), L1.end());
printList(L2);
//拷贝构造
list<int>L3(L2);
printList(L3);
//n个elem
list<int>L4(10, 1000);
printList(L4);
}
int main()
{
test01();
system("pause");
return 0;
}
#include<iostream>
using namespace std;
#include<list>
void printList(const list<int>& L)
{
for (list<int>::const_iterator it = L.begin(); it !=L.end(); it++)
{
cout << *it << " ";
}
cout << endl;
}
void test02()
{
//创建list容器
list<int>L1;
L1.push_back(10);
L1.push_back(20);
L1.push_back(30);
L1.push_back(40);
printList(L1);
list<int>L2;
L2 = L1; // operater =
printList(L2);
list<int>L3;
L3.assign(L2.begin(),L2.end());
printList(L3);
list<int>L4;
L4.assign(10,1000);
printList(L4);
}
void test03()
{
//创建list容器
list<int>L1;
L1.push_back(10);
L1.push_back(20);
L1.push_back(30);
L1.push_back(40);
list<int>L2;
L2.assign(10, 1000);
cout << "交换前:" << endl;
printList(L1);
printList(L2);
L1.swap(L2);
cout << "交换后:"<<endl;
printList(L1);
printList(L2);
}
int main()
{
//test01();
test02();
test03();
system("pause");
return 0;
}
#include<iostream>
using namespace std;
#include<list>
void printList(const list<int>& L)
{
for (list<int>::const_iterator it = L.begin(); it !=L.end(); it++)
{
cout << *it << " ";
}
cout << endl;
}
void test01()
{
//创建list容器
list<int>L1;
L1.push_back(10);
L1.push_back(20);
L1.push_back(30);
L1.push_back(40);
//遍历元素
printList(L1);
if (L1.empty()) {
cout << "L1为空" << endl;
}
else {
cout << "L1不为空" << endl;
cout << "L1的元素个数为:"<<L1.size() << endl;
}
//重新指定大小
L1.resize(10,1000);
printList(L1);
L1.resize(2);
printList(L1);
}
#include<iostream>
using namespace std;
#include<list>
void printList(const list<int>& L)
{
if (L.empty()) {
cout<<"为空"<<endl;
return;
}
for (list<int>::const_iterator it = L.begin(); it != L.end(); it++)
{
cout << *it << " ";
}
cout << endl;
}
void test01()
{
//创建list容器
list<int>L1;
L1.push_back(10);
L1.push_back(20);
L1.push_back(30);
//头插
L1.push_front(100);
L1.push_front(200);
L1.push_front(300);
//300 200 100 10 20 30
//遍历元素
printList(L1);
//尾删
L1.pop_back();
//300 200 100 10 20
printList(L1);
//头删
L1.pop_front();
//200 100 10 20
printList(L1);
//insert插入
list<int>::iterator it = L1.begin();
L1.insert(++it, 1000);
//200 1000 100 10 20
printList(L1);
//删除
it = L1.begin();
L1.erase(it);
//1000 100 10 20
printList(L1);
//移除
L1.push_back(10000);
L1.push_back(10000);
L1.push_back(10000);
L1.push_back(10000);
printList(L1);
L1.remove(10000);
printList(L1);
L1.clear();
printList(L1);
}
int main()
{
test01();
return 0;
}
#include<iostream>
using namespace std;
#include<list>
void printList(const list<int>& L)
{
if (L.empty()) {
cout<<"为空"<<endl;
return;
}
for (list<int>::const_iterator it = L.begin(); it != L.end(); it++)
{
cout << *it << " ";
}
cout << endl;
}
void test01()
{
//创建list容器
list<int>L1;
L1.push_back(10);
L1.push_back(20);
L1.push_back(30);
L1.push_back(40);
cout << "第一个元素为:" << L1.front() << endl;
cout << "最后一个元素为:" << L1.back() << endl;
//验证 iterater sss
list<int>::iterator it = L1.begin();
it++; //支持双向
it--;
//it=it+1 //不支持双向访问
}
int main()
{
test01();
return 0;
}
#include<iostream>
using namespace std;
#include<list>
#include<algorithm>
void printList(const list<int>& L)
{
if (L.empty()) {
cout<<"为空"<<endl;
return;
}
for (list<int>::const_iterator it = L.begin(); it != L.end(); it++)
{
cout << *it << " ";
}
cout << endl;
}
bool mycmp(int a,int b)
{
return a>b;
}
//list 容器反转和排序
void test01()
{
//创建list容器
list<int>L1;
L1.push_back(30);
L1.push_back(50);
L1.push_back(20);
L1.push_back(10);
L1.push_back(40);
cout << "反转之前:" << endl;
printList(L1);
//反转
L1.reverse();
cout << "反转后" << endl;
printList(L1);
//所有不支持随机访问迭代器的容器,不可以用标准算法
//不支持随机访问迭代器的容器,内部会提供对应一些算法
//sort(L1.begin(), L1.end());
L1.sort(); //默认排序规则 从小到大 升序
cout << "排序后:" << endl;
printList(L1);
L1.sort(mycmp);
cout << "排序后:" << endl;
printList(L1);
}
int main()
{
test01();
return 0;
}