C++ 实现静态单链表的实例
利用数组实现的静态单链表,与严蔚敏书实现略有不同,不另设回收空间。有任何BUG或错误,希望各位朋友多多反馈~~感激不尽
/* Author : Moyiii
* Mail: lc09@vip.qq.com
* 静态链表实现,仅作学习之用,当然如果
* 你想拿去用,随你好啦。
*/
#include <iostream>
using namespace std;
#define MAX_LIST_SIZE 100
class Node
{
public:
int data;
int cur;
};
class SLinkList
{
public:
SLinkList();
//和普通的线性链表区别不是很大。除了两个分配
//和回收节点空间的函数,具体算法请参考课本或
//网络资料
int newNode();
bool deleteNode(int pos);
bool insertElem(int pos, int elem);
bool deleteElem(int pos);
int& getElem(int pos);
int getLength();
bool isEmpty();
void print();
void clear();
private:
int head;//这个可以不要,默认等于0
int space;
int length;
Node *elems;
};
SLinkList :: SLinkList()
{
// 0号位置为头几点,不可以更改,初始指向自己
// 从1~MAXLENGTH为可分配节点,最初由space管理
elems = new Node[MAX_LIST_SIZE];
if(!elems)
{
cout << "Malloc failed!" << endl;
}
head = space = length = 0;
for(int i = 0; i < MAX_LIST_SIZE; ++i)
{
elems[i].data = i;
elems[i].cur = i + 1;
}
elems[MAX_LIST_SIZE - 1].cur = 0;
elems[0].cur = 0;
space = 1;
}
//从space指向的备用节点链表中取下一个节点
int SLinkList :: newNode()
{
if(space == 0)
{
cout << "Space is full!" << endl;
return 0;
}
int pos = space;
space = elems[space].cur;
elems[pos].cur = 0;
return pos;
}
//回收节点空间
bool SLinkList :: deleteNode(int pos)
{
if(pos == 0)
{
cout << "Free space Error!" << endl;
return false;
}
elems[pos].cur = space;
space = pos;
return true;
}
//插入节点,思路类似,找到被删除节点的前一个节点
//然后更改指向
bool SLinkList :: insertElem(int pos, int elem)
{
if(length == MAX_LIST_SIZE)
{
cout << "Space is Full" << endl;
return false;
}
if(pos < 1 || pos > length + 1)
{
cout << "Insert Over Bound" << endl;
return false;
}
int index = head;
for(int i = 1; i <= pos - 1; ++i)
{
index = elems[index].cur;
}
int node = newNode();
if(node == 0)
{
cout << "Space malloc failed" << endl;
return false;
}
elems[node].data = elem;
elems[node].cur = elems[index].cur;
elems[index].cur = node;
length++;
return true;
}
//一回事,注意把删除的节点回收给space
bool SLinkList :: deleteElem(int pos)
{
if(pos < 1 || pos > length)
{
cout << "Delete Node over Bound!" << endl;
return false;
}
int index = head;
for(int i = 1; i <= pos - 1; ++i)
{
index = elems[index].cur;
}
int node = elems[index].cur;
elems[index].cur = elems[node].cur;
deleteNode(node);
length--;
return true;
}
void SLinkList :: print()
{
int index = elems[head].cur;
while(index != 0)
{
cout << elems[index].data << " ";
index = elems[index].cur;
}
cout << endl;
return;
}
int SLinkList :: getLength()
{
return length;
}
bool SLinkList :: isEmpty()
{
if(length == 0)
{
return true;
}
else
{
return false;
}
}
int& SLinkList :: getElem(int pos)
{
int index = head;
for(int i = 1; i <= pos; ++i)
{
index = elems[index].cur;
}
return elems[index].data;
}
void SLinkList :: clear()
{
for(int i = 0; i < MAX_LIST_SIZE; ++i)
{
elems[i].data = i;
elems[i].cur = i + 1;
}
elems[MAX_LIST_SIZE - 1].cur = 0;
elems[0].cur = 0;
space = 1;
}
int main()
{
//测试数据,测试插入删除空间是否溢出
SLinkList myList;
for(int i = 1; i <= 105; ++i)
{
myList.insertElem(1,i);
}
//myList.print();
for(int i = 1; i <= 105; ++i)
{
myList.deleteElem(1);
}
//myList.print();
//普通测试
for(int i = 1; i <= 10; ++i)
{
myList.insertElem(1,i);
}
myList.print();
cout << "Length= " << myList.getLength() <<endl;
myList.deleteElem(5);
myList.print();
cout << "Length= " << myList.getLength() <<endl;
cout << myList.isEmpty() << endl;
int &elem = myList.getElem(3);
elem = 99;
myList.print();
myList.clear();
myList.print();
return 0;
}
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