欢迎您访问程序员文章站本站旨在为大家提供分享程序员计算机编程知识!
您现在的位置是: 首页  >  IT编程

c/c++ 线性表之双向循环链表

程序员文章站 2022-03-21 18:45:44
c/c++ 线性表之双向循环链表 线性表之双向循环链表 不是存放在连续的内存空间,链表中的每个节点的next都指向下一个节点,每个节点的before都指向前一个节点,最后一个节点的下一个节点不是NULL,是头节点。 真实的第一个节点是头节点,头节点不存放数据,单纯为了编写程序方便。但是下面注释里写的 ......

c/c++ 线性表之双向循环链表

线性表之双向循环链表

不是存放在连续的内存空间,链表中的每个节点的next都指向下一个节点,每个节点的before都指向前一个节点,最后一个节点的下一个节点不是NULL,是头节点。

真实的第一个节点是头节点,头节点不存放数据,单纯为了编写程序方便。但是下面注释里写的【第一个节点】的含义是头节点的下一节点,也就是真实存放数据的第一个节点。

下面的代码实现了以下功能

函数 功能描述
push_back 从链表的最后插入节点
push_front 从链表的起始插入节点
show_list 打印出链表里每个节点的值
pop_back 删除链表最后一个节点
pop_front 删除链表起始节点
insert_val 在合适的位置插入一个节点;
比如原来的链表:1->3->NULL,当要插入的节点的值为2的时候,就会在1和3之间插入这个节点,插入后的链表:1->2->3->NULL
find 查找指定的节点
length 返回链表中节点的个数
delete_val 删除指定的节点
sort 排序,重新排列节点
resver 按倒序,重新排列节点
clear 释放除了头节点之外的所有节点所占用的内存空间
destroy 释放所有节点的所占用的内存空间,包括头节点

whileshuangnode.h

#ifndef __WHILESHUANGNODE__
#define __WHILESHUANGNODE__

#include <stdio.h>
#include <malloc.h>
#include <assert.h>
#include <memory.h>
#include <stdbool.h>

#define ElemType int

typedef struct Node{
  ElemType data;
  struct Node* before;
  struct Node* next;
}Node;

typedef struct NodeList{
  Node*  first;
  Node*  last;
  size_t size;
}NodeList;

void init(NodeList*);
void push_back(NodeList*, ElemType);
void push_front(NodeList*, ElemType);
void pop_back(NodeList*);
void pop_front(NodeList*);
void show_list(NodeList*);
void insert_val(NodeList*, ElemType);
Node* find(NodeList*, ElemType);
void delete_val(NodeList*, ElemType);
void sort(NodeList*);
void sort1(NodeList*);
void resver(NodeList*);
void resver1(NodeList*);
void resver2(NodeList*);
void clear(NodeList*);
void destroy(NodeList*);

#endif

whileshuangnode.c

#include "whileshuangnode.h"

void init(NodeList* list){
  list->first = (Node*)malloc(sizeof(Node));
  list->last = list->first;
  list->first->before = list->last;
  list->last->next = list->first;
  list->size = 0;
}

Node* create_node(ElemType val){
  Node* node = (Node*)malloc(sizeof(Node));
  assert(NULL != node);
  node->data = val;
  node->before = NULL;
  node->next = NULL;
  return node;
}
void push_back(NodeList* list, ElemType val){
  Node* p = create_node(val);

  p->before = list->last;
  p->next = list->first;
  
  list->first->before = p;
  list->last->next = p;

  list->last = p;
  
  list->size++;
}

void push_front(NodeList* list, ElemType val){
  Node* p = create_node(val);

  //设置p的before和next
  p->before = list->first;
  
  //第一次添加节点的时候要移动未指针,还要设置first的before
  if(list->first == list->first->next){
    list->last = p;
    p->next = list->first;
    list->first->before = p;
  }
  //不是第一次添加节点的时候,要把原第一个节点的before指向,新添加的节点
  else{
    p->next = list->first->next;
    list->first->next->before = p;
  }
  //设置头指针的next节点
  list->first->next = p;
  
  list->size++;
}

void show_list(NodeList* list){
  Node* tmp = list->first->next;
  while(tmp != list->first){
    printf("%d->", tmp->data);
    tmp = tmp->next;
  }
  printf("NULL\n");
}

void pop_back(NodeList* list){
  if(list->size == 0)return;
  
  free(list->last);
  //让尾指针的next指向NULL
  list->last->before->next = list->first;
  //让first的before指向新的尾节点
  list->first->before = list->last->before;
  //让尾指针指向原尾节点的前一个节点
  list->last = list->last->before;

  list->size--;
}
void pop_front(NodeList* list){
  if(list->size == 0)return;

  free(list->first->next);
  //就剩一个节点的时候,要移动尾指针。
  if(list->first->next == list->last){
    list->last = list->first;
    list->last->next = list->first;
    list->first->before = list->last;
    list->size--;
    return;
  }
  
  //头指针的next指向第二个节点
  list->first->next = list->first->next->next;
  //第二个节点的before指向头节点
  list->first->next->before = list->first;

  list->size--;
}
void insert_val(NodeList* list, ElemType val){
  Node* n = create_node(val);;
  
  Node* p = list->first;
  while(p->next != list->first && val > p->next->data){
    p = p->next;
  }
  //第一次加节点,或者,最后一个节点的值也没有比给的值大的时候
  if(list->first == p->next){
    n->next = list->first;
    n->before = list->last;
    list->last->next = n;
    list->first->before = n;
    list->last = n;
    list->size++;
    return;
  }
  //新节点的next指向原节点的下一个节点
  n->next = p->next;
  //原节点的next指向新节点,注意这句的位置必须在上句的下面
  p->next = n;
  //新节点的下一个节点的before指向新节点
  n->next->before = n;
  //新节点的before指向原节点
  n->before = p;

  list->size++;
}
//寻找给定值的节点的位置
Node* find(NodeList* list, ElemType val){
  if(list->size == 0)return NULL;

  Node* p = list->first;
  while(p->next != list->first && p->next->data != val){
    p = p->next;
  }
  if(list->first == p->next){
    return NULL;
  }
  printf("%d is found\n", p->next->data);
  return p->next;
}
void delete_val(NodeList* list, ElemType val){
  Node* p = find(list, val);
  if(NULL == p) return;

  //删除的节点是尾节点的时候,要移动last
  if(p == list->last){
    list->last = p->before;
    p->before->next = list->first;
    list->first->before = p->before;
    list->size--;
    return;
  }

  p->before->next = p->next;
  p->next->before = p->before;

  free(p);

  list->size--;
}

void sort(NodeList* list){
  if(list->size == 1 || list->size == 0)return;

  //p为第一个节点
  Node* p = list->first->next;

  //t是空白list,往t里加节点
  Node* t = list->first;
  list->last = list->first;
  list->last->next = list->first;
  list->first->before = list->last;
  
  size_t sz = list->size;
  
  Node* tmp;  
  while(sz-- > 0){
    //p的next会被改变,所以提前保存
    tmp = p->next;
    while(t->next != list->first && p->data > t->next->data){
      t = t->next;
    }
    //t为first,或者t为last,都是尾插
    if(t->next == list->first){
      t->next = p;
      p->next = list->first;
      p->before = t;
      list->first->before = p;
      list->last = p;
    }
    else{
      p->next = t->next;
      t->next->before = p;

      t->next = p;
      p->before = t;
    }

    p = tmp;
    t = list->first;
  }
}

void resver(NodeList* list){
  if(list->size == 1 || list->size == 0)return;

  //第一个节点
  Node* head = list->first->next;
  //第二个节点
  Node* second = head->next;
  //head就是last,所以要head->next = NULL;
  list->last = head;
  list->last->next = list->first;
  list->first->before = list->last;

  Node* tmp;
  while(second != list->first){
    //必须保存second的next,因为下面的代码,会改变second的next
    tmp = second->next;

    //头插
    second->next = list->first->next;
    list->first->next->before = second;
    list->first->next = second;
    second->before = list->first;
    
    second = tmp;
  }
}

void clear(NodeList* list){
  Node* p = list->first->next;
  while(p != list->last){
    p = p->next;
    free(p);    
  }
  list->last = list->first;
  list->last->next = list->first;
  list->first->before = list->last;
  list->size = 0;
}

void destroy(NodeList* list){
  clear(list);
  free(list->first);
}

whileshuangnodemain.c

#include "whileshuangnode.h"

int main(){
  NodeList list;
  init(&list);
  int select = 1;
  ElemType item;
  Node* node = NULL;
  while(select){
    printf("*****************************************\n");
    printf("*** [1]   push_back   [2]  push_front ***\n");
    printf("*** [3]   show_list   [4]  pop_back   ***\n");
    printf("*** [5]   pop_front   [6]  insert_val ***\n");
    printf("*** [7]   find        [8]  length     ***\n");
    printf("*** [9]   delete_val  [10] sort       ***\n");
    printf("*** [11]  sort        [12] resver     ***\n");
    printf("*** [13]              [14] clear      ***\n");
    printf("*** [0]   quit        [15*]destroy    ***\n");
    printf("*****************************************\n");
    printf("请选择:>");
    scanf("%d", &select);
    if(0 == select)
      break;
    switch(select){
    case 1:
      printf("请输入要插入的数据,以-1结束>\n");
      while(scanf("%d",&item) && item != -1){
    push_back(&list, item);
      }
      show_list(&list);
      break;
    case 2:
      printf("请输入要插入的数据,以-1结束>\n");
      while(scanf("%d", &item) && item != -1){
    push_front(&list, item);
      }
      show_list(&list);
      break;
    case 3:
      show_list(&list);
      break;
    case 4:
      pop_back(&list);
      show_list(&list);
      break;
    case 5:
      pop_front(&list);
      show_list(&list);
      break;
    case 6:
      printf("请输入要插入的数据>\n");
      scanf("%d",&item);
      insert_val(&list, item);
      show_list(&list);
      break;
    case 7:
      printf("please enter what you shoule find out>\n");
      scanf("%d",&item);
      node = find(&list, item);
      if(node == NULL){
    printf("can not find %d\n", item);
      }
      break;
    case 8:
      printf("length is %ld\n", list.size);
      break;
    case 9:
      printf("please enter what you want to delete>\n");
      scanf("%d",&item);      
      delete_val(&list, item);
      show_list(&list);
      break;
    case 10:
      // sort(&list);
      //show_list(&list);
      break;
    case 11:
      sort(&list);
      show_list(&list);
      break;
    case 12:
      resver(&list);
      show_list(&list);
      break;
    case 13:
      resver(&list);
      show_list(&list);
      break;
    case 14:
      clear(&list);
      show_list(&list);
      break;
    case 15:
      destroy(&list);
      break;
    default:
      break;
    }
  }

  //destroy(&list);
}