[抄题]:
给出 n 个节点,标号分别从 0 到 n - 1 并且给出一个 无向边的列表 (给出每条边的两个顶点), 写一个函数去判断这张`无向`图是否是一棵树。
给出n = 5 并且 edges = [[0, 1], [0, 2], [0, 3], [1, 4]], 返回 true.
给出n = 5 并且 edges = [[0, 1], [1, 2], [2, 3], [1, 3], [1, 4]], 返回 false.
[暴力解法]:
时间分析:
空间分析:
[思维问题]:
[一句话思路]:
树中不能有环,两点+老大哥三角成环。遍历所有边并且缩点,一旦出现公共祖先就退出。
[输入量]:空: 正常情况:特大:特小:程序里处理到的特殊情况:异常情况(不合法不合理的输入):
[画图]:
[一刷]:
- 树的基本性质是: 边= 点数 - 1,若不符合则退出
[二刷]:
[三刷]:
[四刷]:
[五刷]:
[五分钟肉眼debug的结果]:
[总结]:
树中不能有环。
[复杂度]:Time complexity: O(n) Space complexity: O(n)
[英文数据结构或算法,为什么不用别的数据结构或算法]:
两点+老大哥三角成环,union find可以找老大哥。
[关键模板化代码]:
class UnionFind { HashMap<Integer, Integer> father = new HashMap<>(); UnionFind(int n) { for (int i = 0; i < n; i++) { father.put(i,i); } } int compressed_find(int x) { //find ultimate parent int parent = x; while (parent != father.get(parent)) { parent = father.get(parent); } //change 2 ultimate parent int temp = -1; int fa = x; while (fa != father.get(fa)) { temp = father.get(fa); father.put(fa,parent); fa = temp; } return parent; } void union (int x, int y) { int fa_x = compressed_find(x); int fa_y = compressed_find(y); if (fa_x != fa_y) { father.put(fa_x,fa_y); } } }
[其他解法]:
[Follow Up]:
[LC给出的题目变变变]:
[代码风格] :
public class Solution { /* * @param n: An integer * @param edges: a list of undirected edges * @return: true if it's a valid tree, or false */ //class class UnionFind { HashMap<Integer, Integer> father = new HashMap<>(); UnionFind(int n) { for (int i = 0; i < n; i++) { father.put(i,i); } } int compressed_find(int x) { //find ultimate parent int parent = x; while (parent != father.get(parent)) { parent = father.get(parent); } //change 2 ultimate parent int temp = -1; int fa = x; while (fa != father.get(fa)) { temp = father.get(fa); father.put(fa,parent); fa = temp; } return parent; } void union (int x, int y) { int fa_x = compressed_find(x); int fa_y = compressed_find(y); if (fa_x != fa_y) { father.put(fa_x,fa_y); } } } public boolean validTree(int n, int[][] edges) { //corner case is special if (edges.length != n - 1) { return false; } UnionFind uf = new UnionFind(n); for (int i = 0; i < edges.length; i++) { if (uf.compressed_find(edges[i][0]) == uf.compressed_find(edges[i][1])) { return false; } uf.union(edges[i][0], edges[i][1]); } return true; } }
解法2:
323进化而来
添加每一条边 root1 == root0代表有环,不行
count > 1代表分块,不行
class Solution { public boolean validTree(int n, int[][] edges) { //use union find //ini int count = n; int[] roots = new int[n]; //cc if (n == 0 || edges == null) return true; //initialization the roots as themselves for (int i = 0; i < n; i++) roots[i] = i; //add every edge for (int[] edge : edges) { int root0 = find(edge[0], roots); int root1 = find(edge[1], roots); if (root0 == root1) return false; //connect but is not merge roots[root0] = root1; count--; } //return return count == 1; } public int find(int id, int[] roots) { while (id != roots[id]) id = roots[roots[id]]; return id; } }