C++ 中循环链表和约瑟夫环

循环链表和约瑟夫环

循环链表的实现

单链表只有向后结点,当单链表的尾链表不指向NULL,而是指向头结点时候,形成了一个环,成为单循环链表,简称循环链表。当它是空表,向后结点就只想了自己,这也是它与单链表的主要差异,判断node->next是否等于head。

代码实现分为四部分:

  1. 初始化
  2. 插入
  3. 删除
  4. 定位寻找

代码实现:

void ListInit(Node *pNode){
  int item;
  Node *temp,*target;
  cout<<"输入0完成初始化"<<endl;
  
  while(1){
    cin>>item;
    if(!item)
      return ;
    if(!(pNode)){ //当空表的时候,head==NULL 
      pNode = new Node ;
      if(!(pNode))
        exit(0);//未成功申请 
      pNode->data = item;
      pNode->next = pNode;
    }
    else{
      //
      for(target = pNode;target->next!=pNode;target = target->next)
        ;
      temp = new Node;
      if(!(temp))
        exit(0);
      temp->data = item;
      temp->next = pNode;
      target->next = temp;
    }
  }
} 
void ListInsert(Node *pNode,int i){ //参数是首节点和插入位置 
  Node *temp;
  Node *target;
  int item;
  cout<<"输入您要插入的值:"<<endl;
  cin>>item;
  if(i==1){
    temp = new Node;
    if(!temp)
      exit(0);
    temp->data = item;
    for(target=pNode;target->next != pNode;target = target->next)
    ;
    temp->next = pNode;
    target->next = temp;
    pNode = temp;
  }
  else{
    target = pNode;
    for (int j=1;j<i-1;++j)
      target = target->next;
    temp = new Node;
    if(!temp)
      exit(0);
    temp->data = item;
    temp->next = target->next;
    target->next = temp;
  }
}
void ListDelete(Node *pNode,int i){
  Node *target,*temp;
  if(i==1){
    for(target=pNode;target->next!=pNode;target=target->next)
    ;
    temp = pNode;//保存一下要删除的首节点 ,一会便于释放 
    pNode = pNode->next;
    target->next = pNode;
    delete temp; 
  }
  else{
    target = pNode;
    for(int j=1;j<i-1;++j)
      target = target->next;
    temp = target->next;//要释放的node
    target->next = target->next->next;
    delete temp; 
  }
}
int ListSearch(Node *pNode,int elem){ //查询并返回结点所在的位置 
  Node *target;
  int i=1;
  for(target = pNode;target->data!=elem && target->next!= pNode;++i)
    target = target->next;
  if(target->next == pNode && target->data!=elem)
    return 0;
  else return i;
}

约瑟夫问题

约瑟夫环(约瑟夫问题)是一个数学的应用问题:已知n个人(以编号1,2,3...n分别表示)围坐在一张圆桌周围。从编号为k的人开始报数,数到m的那个人出列;他的下一个人又从1开始报数,数到m的那个人又出列;依此规律重复下去,直到圆桌周围的人全部出列。这类问题用循环列表的思想刚好能解决。

注意:编写代码的时候,注意报数为m = 1的时候特殊情况

#include<iostream>
#include<cstdio>
using namespace std;
typedef struct Node{
  int data;
  Node *next;
};

Node *Create(int n){
  Node *p = NULL, *head;
  head = new Node;
  if (!head)
    exit(0);
  p = head; // p是当前指针 
  int item=1;
  if(n){
    int i=1;
    Node *temp;
    while(i<=n){
      temp = new Node;
      if(!temp)
        exit(0);
      temp->data = i++;
      p->next = temp;
      p = temp; 
    }
    p->next = head->next;
  }
  delete head;
  return p->next;
}
void Joseph(int n,int m){
  //n为总人数,m为数到第m个的退出
  m = n%m;
  
  Node *start = Create(n);
  
  if(m){//如果取余数后的m!=0,说明 m!=1 
    while(start->next!=start){
      Node *temp = new Node;
      if(!temp)
        exit(0);
      for(int i=0;i<m-1;i++) // m = 3%2 = 1
        start = start->next;
      temp = start->next;
      start->next = start->next->next;
      start = start->next;
      cout<<temp->data<<" ";
      delete temp;
    }
  }
  else{
    for(int i=0;i<n-1;i++){
      Node *temp = new Node;
      if(!temp)
        exit(0);  
      cout<<start->data<<" ";
      temp = start;
      start = start->next;
      delete temp;
    }
  }
  cout<<endl;
  cout<<"The last person is:"<<start->data<<endl;
}
int main(){
  Joseph(3,1);
  Joseph(3,2);
  return 0;
}

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