王道408用数组,链表以及双向链表实现栈、队列
我在电脑上敲了一遍,又在纸上模拟了一遍
下面记录在电脑上敲的:
一、用数组实现栈
#include <stdio.h> #include <string.h> #define MaxSize 50 typedef struct{ int data[MaxSize]; int top; }stack; void InitStack(stack & S){ S.top = -1; S.data[0] = 5; memset(S.data,0,sizeof(S.data)); // printf("%x\n%x\n\n\n",S.data,&S.data); // 这俩地址指向了同一个位置a } bool IsEmpty(stack S){ if(S.top == -1) return 1; return 0; } bool IsFull(stack S){ if(S.top == MaxSize-1) return 1; return 0; } bool Push(stack &S,int x){ if(IsFull(S)) return 0; S.data[++S.top] = x; return 1; } bool Pop(stack &S,int &x){ if(IsEmpty(S)) return 0; x = S.data[S.top--]; return 1; } int main(){ stack sk; InitStack(sk); Push(sk,1); Push(sk,2); Push(sk,3); Push(sk,4); Push(sk,5); int ans; for(int i=0;i<=7;i++){ if(Pop(sk,ans)){ printf("%d\n",ans); } else{ puts("Empty Stack!!!"); } } return 0; }
二、用单链表实现栈
#include <stdio.h> #include <malloc.h> #include <typeinfo> typedef struct SNode{ int data; struct SNode *next; } SNode,*Listack; void InitStack(Listack &S){ // 定义头节点 S = (Listack )malloc(sizeof(SNode)); S->next = NULL; return ; } bool IsStackEmpty(Listack S){ if(S->next == NULL){ return 1; } return 0; } bool StackPush(Listack &S,int x){ SNode * p = (SNode *)malloc(sizeof(SNode)); p->data = x; p->next = S->next; S->next = p; return 1; } bool StackPop(Listack &S,int &x){ if(IsStackEmpty(S)){ return 0; } SNode * p = S->next; x = p->data; S->next = p->next; free(p); return 1; } int main(){ SNode * sn; InitStack(sn); StackPush(sn,1); StackPush(sn,2); StackPush(sn,3); StackPush(sn,4); StackPush(sn,5); int ans; for(int i = 0;i<=7;i++){ if(StackPop(sn,ans)){ printf("%d\n",ans); } else{ printf("EmptyStack!!!\n"); } } return 0; }
三、用双链表实现栈
#include <stdio.h> #include <malloc.h> typedef struct _DbNode{ int data; struct _DbNode * next; struct _DbNode * last; }DbNode,*PDNode; typedef struct _LiDbNode{ // 定义这个结构体只是为了管理收尾两个节点,中间的节点还是全部由DbNode构成的 DbNode * head; DbNode * rear; }LiDbNode,*PDbStack; void InitDbNode(PDbStack &S){ DbNode * p = (DbNode *)malloc(sizeof(DbNode)); S = (LiDbNode *)malloc(sizeof(LiDbNode)); p->last = p->next = NULL; S->head = S->rear = p; } bool DbStackPush(PDbStack &S,int x){ DbNode * p = (DbNode *)malloc(sizeof(DbNode)); p->data = x; p->next = NULL; p->last = S->rear; S->rear->next = p; S->rear = p; return 1; } bool IsDbStackEmpty(PDbStack S){ if(S->head == S->rear){ return 1; } return 0; } bool DbStackPop(PDbStack &S,int &x){ if(IsDbStackEmpty(S)){ return 0; } DbNode * p = S->rear; // 注意这里 S->rear指向的就是尾节点,而在后续用单链表实现Queue的时候,S-front指向的是头节点,也就是说S->front->next才是指向的节点,这是一个小坑,注意!! p->last->next = NULL; S->rear = p->last; x = p->data; free(p); return 1; } int main(){ PDbStack sn; InitDbNode(sn); DbStackPush(sn,1); DbStackPush(sn,2); DbStackPush(sn,3); DbStackPush(sn,4); DbStackPush(sn,5); int ans; for(int i = 0;i<=7;i++){ if(DbStackPop(sn,ans)){ printf("%d\n",ans); } else{ printf("EmptyStack!!!\n"); } } return 0; }
四、用数组实现队列
#include <stdio.h> #include <string.h> #define MaxSize 50 typedef struct{ int data[MaxSize]; int head,rear; }queue; void InitQueue(queue &q){ memset(q.data,0,sizeof(q.data)); q.head = q.rear = 0; } bool IsEmpty(queue q){ if(q.rear == q.head) return 1; return 0; } bool IsFull(queue q){ if((q.rear + 1) % MaxSize == q.head) return 1; return 0; } bool EnPush(queue &q,int x){ if(IsFull(q)) return 0; q.data[q.rear] = x; // 这里为了区分队列是否满/空,我们牺牲了一个存储单元,使rear永远指向最后一个数据的下一位置,这也是不用++q.rear的原因,小坑... q.rear = (q.rear+1) % MaxSize; return 1; } bool DePop(queue &q,int &x){ if(IsEmpty(q)) return 0; x = q.data[q.head]; // head 一直指向最开始的数据单元 q.head = (q.head + 1) % MaxSize; return 1; } int main(){ queue qe; InitQueue(qe); for(int i = 0;i<=70;i++){ if(!EnPush(qe,i)) printf("%d -- ",i); puts("Full Queue!!!"); } int ans; for(int i=0;i<=70;i++){ if(DePop(qe,ans)){ printf("%d\n",ans); } else{ printf("%d -- ",i); puts("Empty Queue!!!"); } } return 0; }
五、用单链表实现队列
#include <stdio.h> #include <malloc.h> typedef struct _QNode{ int data; struct _QNode * next; }QNode,*pQNode; typedef struct _LinkQueue{ QNode* rear; QNode* front; }LinkQueue,*pLinkQueue; void InitQueue(pLinkQueue &Q){ // 初始化队列,创建头节点,使队头指向头节点,队尾指向头节点// Q = (LinkQueue *)malloc(sizeof(LinkQueue)); QNode *q = (QNode *)malloc(sizeof(QNode)); q->next = NULL; Q->rear = Q->front = q; } bool IsEmpty(pLinkQueue Q){ if(Q->front == Q->rear) return 1; return 0; } bool EnPush(pLinkQueue &Q,int x){ QNode *q = (QNode *)malloc(sizeof(QNode)); q->next = NULL; q->data = x; Q->rear->next = q; Q->rear = q; return 1; } bool DePop(pLinkQueue &Q,int &x){ if(IsEmpty(Q)) return 0; QNode *q = Q->front->next; //要注意这里和前面用双向链表实现栈的时候不太一样,当时S->rear指的是最后一个节点,而这里的S->front指的是头节点,而不是第一个节点,我们需要用S->front->next来获得第一个节点,切记切记!!! x = q->data; Q->front->next = q->next; if(Q->rear == q) //当原队列中只有一个节点时,删除后,让尾指针重新指向头结点!!// Q->rear = Q->front; free(q); return 1; } int main(){ pLinkQueue qe; InitQueue(qe); EnPush(qe,1); EnPush(qe,2); EnPush(qe,3); EnPush(qe,4); EnPush(qe,5); int ans; for(int i=0;i<=7;i++){ if(DePop(qe,ans)){ printf("%d\n",ans); } else{ puts("Empty Queue!!!"); } } return 0; }
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