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0261-graph-valid-tree.js
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0261-graph-valid-tree.js
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/**
* https://leetcode.com/problems/graph-valid-tree/
* Time O(E * a(N)) | Space O(V)
* @param {number} n
* @param {number[][]} edges
* @return {boolean}
*/
var validTree = function(n, edges, root = 0) {
const isEqual = edges.length === (n - 1)
if (!isEqual) return false;
const { graph, visited } = buildGraph(n, edges)
dfs(root, graph, visited);
return visited.size === n;
}
var initGraph = (n) => ({
graph: new Array(n).fill().map(() => []),
visited: new Set()
})
var buildGraph = (n, edges) => {
const { graph, visited } = initGraph(n)
for (const [ src, dst ] of edges) {
graph[src].push(dst);
graph[dst].push(src);
}
return { graph, visited }
}
const dfs = (node, graph, visited) => {
if (visited.has(node)) return;
visited.add(node);
for (const neighbor of graph[node]) {
dfs(neighbor, graph, visited);
}
}
/**
* https://leetcode.com/problems/graph-valid-tree/
* Time O(E * a(N)) | Space O(V)
* @param {number} n
* @param {number[][]} edges
* @return {boolean}
*/
var validTree = function(n, edges) {
const isEqual = edges.length === (n - 1)
if (!isEqual) return false;
const { graph, visited, queue } = buildGraph(n, edges)
bfs(graph, visited, queue)
return visited.size === n;
}
var initGraph = (n) => ({
graph: new Array(n).fill().map(() => []),
visited: new Set(),
queue: new Queue(),
root: 0
})
var buildGraph = (n, edges) => {
const { graph, visited, queue, root } = initGraph(n)
for (const [ src, dst ] of edges) {
graph[src].push(dst);
graph[dst].push(src);
}
queue.enqueue(root);
visited.add(root);
return { graph, visited, queue }
}
const bfs = (graph, visited, queue) => {
while (!queue.isEmpty()) {
for (let i = (queue.size() - 1); 0 <= i; i--) {
checkNeighbor(graph, visited, queue)
}
}
}
const checkNeighbor = (graph, visited, queue) => {
const node = queue.dequeue();
for (const neighbor of graph[node]) {
if (visited.has(neighbor)) continue;
visited.add(neighbor);
queue.enqueue(neighbor);
}
}
/**
* https://leetcode.com/problems/graph-valid-tree/
* Time O(E * a(N)) | Space O(V)
* @param {number} n
* @param {number[][]} edges
* @return {boolean}
*/
var validTree = function(n, edges) {
const union = new Array(n).fill(-1)
for (const [ src, dst ] of edges) {
const [ x, y ] = [ find(union, src), find(union, dst) ]
const hasCycle = x === y
if (hasCycle) return false
compress(union, x, y)
}
const isValid = edges.length === (n - 1)
return isValid
};
const compress = (union, i, head) => union[i] = head
const find = (union, i, num = union[i]) => {
const isEmpty = num === -1
if (isEmpty) return i
const head = find(union, num)
compress(union, i, head)
return union[i]
}