#include #define SIZE 5 int items[SIZE]; int front = -1, rear =-1; int isFull() { if( (front == rear + 1) || (front == 0 && rear == SIZE-1)) return 1; return 0; } int isEmpty() { if(front == -1) return 1; return 0; } void enQueue(int element) { if(isFull()) printf("\n Queue is full!! \n"); else { if(front == -1) front = 0; rear = (rear + 1) % SIZE; items[rear] = element; printf("\n Inserted -> %d", element); } } int deQueue() { int element; if(isEmpty()) { printf("\n Queue is empty !! \n"); return(-1); } else { element = items[front]; if (front == rear){ front = -1; rear = -1; } /* Q has only one element, so we reset the queue after dequeing it. ? */ else { front = (front + 1) % SIZE; } printf("\n Deleted element -> %d \n", element); return(element); } } void display() { int i; if(isEmpty()) printf(" \n Empty Queue\n"); else { printf("\n Front -> %d ",front); printf("\n Items -> "); for( i = front; i!=rear; i=(i+1)%SIZE) { printf("%d ",items[i]); } printf("%d ",items[i]); printf("\n Rear -> %d \n",rear); } } int main() { // Fails because front = -1 deQueue(); enQueue(1); enQueue(2); enQueue(3); enQueue(4); enQueue(5); // Fails to enqueue because front == 0 && rear == SIZE - 1 enQueue(6); display(); deQueue(); display(); enQueue(7); display(); // Fails to enqueue because front == rear + 1 enQueue(8); return 0; }