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算法(4)—— 队列的链表实现

时间:2017-08-25 09:33:35      阅读:192      评论:0      收藏:0      [点我收藏+]

标签:err   empty   sem   sizeof   next   oid   type   while   let   

1. 队列的链表实现EnQueue 在尾节点,DeQueue 在首节点。

  1 #include  "fatal.h"
  2 
  3 typedef int ElementType ;
  4 typedef struct QueueNode * Queue;
  5 typedef struct QueueNode * Position;
  6 
  7 #define MAXSIZE (6)
  8 
  9 
 10 struct QueueNode  {
 11   ElementType data;
 12   Position Next;
 13   Position Rear;
 14   Position Front;
 15   int size;
 16 };
 17 
 18 void DeleteQueue  (Queue Q);
 19 Queue MakeEmpty(Queue Q);
 20 int  IsEmpty  (Queue Q);
 21 int  IsFull (Queue Q);
 22 void EnQueue  (ElementType X, Queue Q);
 23 void DeQueue  (Queue Q);
 24 ElementType FrontAndDequeue (Queue);
 25 
 26 
 27 
 28 int main(int argc, char *argv[])  {
 29   Queue Q;
 30   Q = MakeEmpty (NULL);
 31 
 32   EnQueue (1,Q);
 33   EnQueue (2,Q);
 34   
 35   ElementType X = 12 ;
 36   
 37   while ( !IsEmpty(Q))  {
 38     printf ("%d ", Q->Front->data);
 39     DeQueue (Q);
 40   }
 41   printf("\n");  
 42   printf("Empty = %c\n",IsEmpty(Q)?Y:N );
 43 
 44   Q = MakeEmpty (NULL);
 45   EnQueue (X,Q);
 46   EnQueue (21,Q);
 47   EnQueue (X,Q);
 48   printf("Queue is: ");
 49   
 50   Position P = Q -> Front;
 51   while (P)  {
 52     printf ("%d ",P->data);
 53     P = P->Next;
 54   }
 55   printf("\n");
 56   
 57   printf ("Front and Rear:%d %d  ",Q->Front->data,Q->Rear->data);
 58   printf("\n");
 59   
 60   ElementType Y = FrontAndDequeue (Q);
 61   printf ("Del and Front:%d %d ", Y,Q->Front->data);
 62   
 63   printf("\n");
 64   Y = FrontAndDequeue (Q);
 65   printf ("Del and Front:%d %d ", Y,Q->Front->data);
 66   printf("\n");
 67   
 68   Y = FrontAndDequeue (Q);
 69   printf ("Del and Front:%d %d\n", Y,(Q->Front == Q?0:Q->Front->data));
 70 
 71   DeQueue (Q);    //do not Del any node
 72   DeQueue (Q);
 73 
 74   printf("size = %d\n",Q->size);
 75 
 76   return 0;
 77 
 78 }
 79 
 80 
 81 void Delete (Queue Q)  {
 82   if ( Q = NULL)
 83     Error ("Out of space.");
 84   Position P, tmp;
 85   P = Q->Next;
 86   Q -> Next = NULL;
 87 
 88   while ( P != NULL)  {
 89     tmp = P -> Next;
 90     free (P);
 91     P = tmp;
 92   }
 93 }
 94 
 95 Queue MakeEmpty (Queue Q)  {
 96   if ( Q != NULL)
 97     Delete (Q);
 98 
 99   Q = malloc (sizeof (struct QueueNode));
100   if ( Q == NULL)  Error ("Out of memory.");
101   Q -> Next = NULL;
102   Q -> Rear = Q;
103   Q -> Front = Q->Next;
104   Q-> size = 0;
105   return Q;
106 }
107 
108 int IsFull (Queue Q)  {
109   return Q->size == MAXSIZE; 
110 }
111 
112 int IsEmpty (Queue Q)  {
113   return Q->size == 0;
114 }
115 
116 void EnQueue  (ElementType X, Queue Q)  {
117   if ( Q == NULL ) Error ("Out of space.");
118 
119   Position tmp;
120   tmp = malloc (sizeof (struct QueueNode));
121   if (tmp == NULL)  Error ("Out of space,");
122 
123   tmp -> data = X;
124   Q -> Rear -> Next = tmp;
125   Q -> Rear = tmp;
126   Q -> Rear -> Next = NULL;
127   Q -> Front = Q -> Next;
128   Q->size++;
129 
130   if (Q -> size > MAXSIZE)  Error ("Too large.");
131   
132 }
133   
134 void DeQueue  (Queue Q)  {
135   if (IsEmpty(Q))  Error ("Empty Queue.");
136   
137   Position tmp = Q -> Front;
138   Q -> Next = tmp -> Next;
139    free(tmp);
140   if (Q -> Front == Q->Rear)  { Q->Front = Q;}
141   else {   Q -> Front = Q->Next;  }
142   Q->size--;
143 }
144   
145 ElementType FrontAndDequeue ( Queue Q)  {
146   ElementType X;
147   if (IsEmpty (Q))  Error ("Empty Queue.");
148   
149   X = Q ->Front->data;
150   Position t = Q->Front;
151   Q -> Next = t-> Next;
152   if (Q -> Front == Q->Rear)  { Q->Front = Q;}
153   else {   Q -> Front = Q->Next;  }
154   free (t);
155   Q -> size--;
156     
157   return X;
158 }

 

算法(4)—— 队列的链表实现

标签:err   empty   sem   sizeof   next   oid   type   while   let   

原文地址:http://www.cnblogs.com/hanxinle/p/7426370.html

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