LRU Cache

Question

Problem Statement

Design and implement a data structure for Least Recently Used (LRU) cache. It should support the following operations: get and set.

get(key) - Get the value (will always be positive) of the key if the key exists in the cache, otherwise return -1.

set(key, value) - Set or insert the value if the key is not already present. When the cache reached its capacity, it should invalidate the least recently used item before inserting a new item.

题解

Java

  1. public class Solution {
  2. private int capacity;
  3.     private HashMap<Integer, Node> map = new HashMap<>();
  4.     private Node head = new Node(-1, -1), tail = new Node(-1, -1);
  6.     private class Node {
  7.         Node prev, next;
  8.         int val, key;
  10.         public Node(int key, int val) {
  11.             this.val = val;
  12.             this.key = key;
  13.             prev = null;
  14.             next = null;
  15.         }
  17. //         @Override
  18. //         public String toString() {
  19. //             return "(" + key + ", " + val + ") " + "last:"
  20. //                     + (prev == null ? "null" : "node");
  21. //         }
  22.     }
  24.     public Solution(int capacity) {
  25.         this.capacity = capacity;
  26.         tail.prev = head;
  27.         head.next = tail;
  28.     }
  30.     public int get(int key) {
  31.         if (!map.containsKey(key)) {
  32.             return -1;
  33.         }
  34.         // remove current
  35.         Node currentNode = map.get(key);
  36.         currentNode.prev.next = currentNode.next;
  37.         currentNode.next.prev = currentNode.prev;
  39.         // move current to tail;
  40.         moveToTail(currentNode);
  42.         return map.get(key).val;
  43.     }
  45.     public void set(int key, int value) {
  46.         if (get(key) != -1) {
  47.             map.get(key).val = value;
  48.             return;
  49.         }
  50.         if (map.size() == capacity) {
  51.             map.remove(head.next.key);
  52.             head.next = head.next.next;
  53.             head.next.prev = head;
  54.         }
  55.         Node insert = new Node(key, value);
  56.         map.put(key, insert);
  57.         moveToTail(insert);
  58.     }
  60.     private void moveToTail(Node current) {
  61.         current.prev = tail.prev;
  62.         tail.prev = current;
  63.         current.prev.next = current;
  64.         current.next = tail;
  65.     }
  66. }