list是C++标准模版库(STL,Standard Template Library)中的部分内容。实际上,list容器就是一个双向链表,可以高效地进行插入删除元素。
使用list容器之前必须加上STL的list容器的头文件:#include<list>;
list属于std命名域的内容,因此需要通过命名限定:using std::list;也可以直接使用全局的命名空间方式:using namespace std;
(1)初始化
typedef struct info_s
{
int nNumber;
}info_t;
typedef std::list< info_t > list_t;
定义list的类型
list_t List; //定义一个空的链表
list_t List(count); //建一个含count个默认值是0的元素的链表
list_t List(count, info); //建一个含count个默认值是info的元素的链表
list_t List(List2); //建一个的copy链表
list_t List(List2.begin(),List2.end()); //含区间的元素[First,Last]
(2)添加(添加到末尾)
info_t info;
//Set(info)
List.push_back(info);
将会添加到末尾
(3)遍历
list_t::iterator iter;
for(iter = List.begin(); iter != List.end() ;iter++)
{
std::cout<< iter->nNumber <<std::endl;
}
(4)删除末尾元素
c++的stl list 提供pop_back()函数来删除最后一个元素。
List.pop_back();
(5)删除所有元素
简单粗暴的方法:调用clear()
List.clear();
遍历删除法,一个一个删除,这样的好处是,如果元素有申请内容或者系统资源,我们可以把他释放了,避免资源泄漏。
list_t::iterator iter;
for(iter = List.begin(); iter != List.end() ;)
{
//这里可以做是否内存或者资源的操作
//
iter = List.erase(iter);
//iter指向了下一个元素
}
(6)插入
iter = List.insert(iter , info);
插入后iter指向新插入的元素。
(7)查找
list_t::iterator iter ;
iter = std::find(List.begin(),List.end(), info);
if(iter != List.end())
{
std::cout<<"find it"<<std::endl;
}
else
{
std::cout<<"not find it"<<std::endl;
}
注意结构体需要重载==运算符
(8)排序
List.sort();
注意,结构体需要重载运算符<
上代码
#include <iostream>
#include <list>
#include <algorithm>
#include <stdlib.h>
#include <string.h>
typedef struct info_s
{
int nNumber;
bool operator==(struct info_s b) const
{
return this->nNumber == b.nNumber;
}
bool operator!=(struct info_s b) const
{
return this->nNumber != b.nNumber;
}
bool operator>=(struct info_s b) const
{
return this->nNumber >= b.nNumber;
}
bool operator<=(struct info_s b) const
{
return this->nNumber <= b.nNumber;
}
bool operator>(struct info_s b) const
{
return this->nNumber > b.nNumber;
}
bool operator<(struct info_s b) const
{
return this->nNumber < b.nNumber;
}
}info_t;
typedef std::list< info_t > list_t;
void append(list_t &List, info_t &info)
{
std::cout<<"***append****"<<std::endl;
List.push_back(info);
}
void for_each(list_t &List)
{
std::cout<<"***for_each****"<<std::endl;
list_t::iterator iter;
for(iter = List.begin(); iter != List.end() ;iter++)
{
std::cout<< iter->nNumber <<std::endl;
}
}
void del_end_info(list_t &List)
{
std::cout<<"***del_end_info****"<<std::endl;
if(! List.empty())
{
List.pop_back();
}
}
void for_each_delete(list_t &List)
{
list_t::iterator iter;
for(iter = List.begin(); iter != List.end() ;)
{
std::cout<< "delete before iter->number:"<<iter->nNumber <<std::endl;
iter = List.erase(iter);
std::cout<< "delete after iter->number:"<< iter->nNumber <<std::endl;
}
}
int insert_one(list_t &List , info_t &info, int iPlace)
{
int i = 0;
std::cout<<"insert_one"<<std::endl;
if(iPlace < 0)
{
std::cout<<"insert_one param error"<<std::endl;
return -1;
}
list_t::iterator iter = List.begin();
while(iter != List.end())
{
//std::cout<<" dump "<< (*iVector)<<std::endl;
if(i == iPlace)
{
iter = List.insert(iter , info); //此时insert的返回值是迭代器,插入成功后iVector指向插入的位置
std::cout<<" insert_one after List point "<<iter->nNumber <<std::endl;
return 0;
}
i++;
++iter;
}
iter = List.insert(List.end() , info);
return 0;
}
void find_one(list_t &List,info_t info )
{
std::cout<<"find_one"<<std::endl;
list_t::iterator iter ;
iter = std::find(List.begin(),List.end(), info);
if(iter != List.end())
{
std::cout<<"find it"<<std::endl;
}
else
{
std::cout<<"not find it"<<std::endl;
}
}
void Sort(list_t & List)
{
std::cout<<"Sort it"<<std::endl;
List.sort();
for_each(List);
}
int main()
{
//初始化
list_t List;
info_t info;
memset(&info, 0, sizeof(info_t));
//添加
info.nNumber = 8;
append(List, info);
info.nNumber = 5;
append(List, info);
info.nNumber = 7;
append(List, info);
info.nNumber = 1;
append(List, info);
info.nNumber = 1;
append(List, info);
info.nNumber = 2;
append(List, info);
info.nNumber = 1;
append(List, info);
//遍历
for_each(List);
//插入
info.nNumber = 80;
insert_one(List,info,3);
for_each(List);
//查找
find_one(List,info);
//排序
Sort(List);
//删除末尾
del_end_info(List);
for_each(List);
std::cout<< " size:"<<List.size()<<std::endl;
//删除所有
// List.clear();
for_each_delete(List);
for_each(List);
std::cout<< " size:"<<List.size()<<std::endl;
return 0;
}