Design your implementation of the circular double-ended queue (deque).
Your implementation should support following operations:
MyCircularDeque(k): Constructor, set the size of the deque to be k.insertFront(): Adds an item at the front of Deque. Return true if the operation is successful.insertLast(): Adds an item at the rear of Deque. Return true if the operation is successful.deleteFront(): Deletes an item from the front of Deque. Return true if the operation is successful.deleteLast(): Deletes an item from the rear of Deque. Return true if the operation is successful.getFront(): Gets the front item from the Deque. If the deque is empty, return -1.getRear(): Gets the last item from Deque. If the deque is empty, return -1.isEmpty(): Checks whether Deque is empty or not.isFull(): Checks whether Deque is full or not.
Example:
MyCircularDeque circularDeque = new MycircularDeque(3); // set the size to be 3 circularDeque.insertLast(1); // return true circularDeque.insertLast(2); // return true circularDeque.insertFront(3); // return true circularDeque.insertFront(4); // return false, the queue is full circularDeque.getRear(); // return 2 circularDeque.isFull(); // return true circularDeque.deleteLast(); // return true circularDeque.insertFront(4); // return true circularDeque.getFront(); // return 4
Note:
- All values will be in the range of [0, 1000].
- The number of operations will be in the range of [1, 1000].
- Please do not use the built-in Deque library.
Runtime: 112 ms, faster than 32.91% of Java online submissions for Design Circular Deque.
class MyCircularDeque { private Deque<Integer> dq = new LinkedList<>(); private int cap; /** Initialize your data structure here. Set the size of the deque to be k. */ public MyCircularDeque(int k) { cap = k; } /** Adds an item at the front of Deque. Return true if the operation is successful. */ public boolean insertFront(int value) { if(dq.size() == cap) return false; dq.offerFirst(value); return true; } /** Adds an item at the rear of Deque. Return true if the operation is successful. */ public boolean insertLast(int value) { if(dq.size() == cap) return false; dq.offerLast(value); return true; } /** Deletes an item from the front of Deque. Return true if the operation is successful. */ public boolean deleteFront() { if(dq.size() == 0) return false; dq.removeFirst(); return true; } /** Deletes an item from the rear of Deque. Return true if the operation is successful. */ public boolean deleteLast() { if(dq.size() == 0) return false; dq.removeLast(); return true; } /** Get the front item from the deque. */ public int getFront() { if(dq.size() == 0) return -1; return dq.peekFirst(); } /** Get the last item from the deque. */ public int getRear() { if(dq.size() == 0) return -1; return dq.peekLast(); } /** Checks whether the circular deque is empty or not. */ public boolean isEmpty() { return dq.size() == 0; } /** Checks whether the circular deque is full or not. */ public boolean isFull() { return dq.size() == cap; } }