- 统计各个字符出现次数,使用Map
- 创建初始堆(大顶堆),定义出现次数大的字符串较大,出现次数相同是自然序较前的串较大
- 依次去K个堆顶元素并调整堆
import java.util.*; public class Solution { /** * return topK string * @param strings string字符串一维数组 strings * @param k int整型 the k * @return string字符串二维数组 */ public String[][] topKstrings (String[] strings, int k) { if(null == strings || strings.length == 0) { return new String[0][]; } String[][] result = new String[k][]; // 统计各个字符串出现次数 Map<String,Integer> cntMap = new HashMap(); for(String s : strings) { cntMap.put(s, cntMap.getOrDefault(s, 0)+1); } // 创建初始堆 大顶堆 Node[] heapArr = new Node[cntMap.size()+1]; int idx = 0; for(Map.Entry<String,Integer> entry : cntMap.entrySet()) { Node node = this.new Node(entry.getKey(), entry.getValue()); heapArr[++idx] = node; } // 调整初始堆 for(int i = idx/2; i > 0; --i) { shift(heapArr, i, heapArr.length); } // 取前K个 int limit = heapArr.length-1; for(int i = 1; i <= k && i <= limit; ++i) { String[] r = new String[]{heapArr[1].val, String.valueOf(heapArr[1].cnt)}; result[i-1] = r; Node temp = heapArr[1]; heapArr[1] = heapArr[limit]; heapArr[limit] = temp; --limit; // 调整堆 shift(heapArr, 1, limit+1); } return result; } // 堆调整方法 private void shift(Node[] heapArr, int startIdx, int endIdx) { int childIdx = 2 * startIdx; if(childIdx+1 < endIdx && heapArr[childIdx+1].compareTo(heapArr[childIdx]) > 0) { childIdx = childIdx + 1; } if(childIdx < endIdx && heapArr[childIdx].compareTo(heapArr[startIdx]) > 0) { Node temp = heapArr[childIdx]; heapArr[childIdx] = heapArr[startIdx]; heapArr[startIdx] = temp; shift(heapArr, childIdx, endIdx); } } // 堆结点定义 class Node implements Comparable<Node> { String val; int cnt; Node() {} Node(String val, int cnt) { this.val = val; this.cnt = cnt; } //定义比较方法: cnt 大的大, cnt相同时,val自然序小的大 public int compareTo(Node node) { if(this.cnt != node.cnt) { return this.cnt - node.cnt; } else { return -this.val.compareTo(node.val); } } } }