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Design_Circular_Queue.cpp
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Design_Circular_Queue.cpp
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class MyCircularQueue {
int frontIndx;
int rearIndx;
int maxSize;
vector<int> container;
int getSize() {
return rearIndx - frontIndx + 1;
}
public:
/** Initialize your data structure here. Set the size of the queue to be k. */
MyCircularQueue(int k) {
container = vector<int>(k);
this->frontIndx = 0;
this->rearIndx = -1;
this->maxSize = k;
}
/** Insert an element into the circular queue. Return true if the operation is successful. */
bool enQueue(int value) {
if(isFull()) {
return false;
}
container[++rearIndx % maxSize] = value;
return true;
}
/** Delete an element from the circular queue. Return true if the operation is successful. */
bool deQueue() {
if(isEmpty()) {
return false;
}
frontIndx++;
return true;
}
/** Get the front item from the queue. */
int Front() {
if(isEmpty()) {
return -1;
}
return container[frontIndx % maxSize];
}
/** Get the last item from the queue. */
int Rear() {
if(isEmpty()) {
return -1;
}
return container[rearIndx % maxSize];
}
/** Checks whether the circular queue is empty or not. */
bool isEmpty() {
return getSize() == 0;
}
/** Checks whether the circular queue is full or not. */
bool isFull() {
return getSize() == maxSize;
}
};
/**
* Your MyCircularQueue object will be instantiated and called as such:
* MyCircularQueue obj = new MyCircularQueue(k);
* bool param_1 = obj.enQueue(value);
* bool param_2 = obj.deQueue();
* int param_3 = obj.Front();
* int param_4 = obj.Rear();
* bool param_5 = obj.isEmpty();
* bool param_6 = obj.isFull();
*/