Link: https://leetcode.cn/problems/all-paths-from-source-to-target/
Question
difficulty: mid
adj diff: 3
Given a directed acyclic graph (DAG) of n nodes labeled from 0 to n - 1, find all possible paths from node 0 to node n - 1 and return them in any order.
The graph is given as follows: graph[i] is a list of all nodes you can visit from node i (i.e., there is a directed edge from node i to node graph[i][j]).
Example 1:
Input: graph = [[1,2],[3],[3],[]]
Output: [[0,1,3],[0,2,3]]
Explanation: There are two paths: 0 -> 1 -> 3 and 0 -> 2 -> 3.
Example 2:
Input: graph = [[4,3,1],[3,2,4],[3],[4],[]]
Output: [[0,4],[0,3,4],[0,1,3,4],[0,1,2,3,4],[0,1,4]]
Constraints:
n == graph.length
2 <= n <= 15
0 <= graph[i][j] < n
graph[i][j] != i (i.e., there will be no self-loops).
All the elements of graph[i] are unique.
The input graph is guaranteed to be a DAG.
Code
public List<List<Integer>> allPathsSourceTarget(int[][] graph) {
List<List<Integer>> ans = new LinkedList<List<Integer>>();
int n = graph.length;
boolean[] visited = new boolean[n];
List<Integer> path = new LinkedList<Integer>();
path.add(0);
visited[0] = true;
helper(ans, path, visited, graph, n - 1);
return ans;
}
private void helper(List<List<Integer>> ans, List<Integer> path,
boolean[] visited, int[][] graph, int target) {
int lastNode = path.get(path.size() - 1);
if (lastNode == target) {
ans.add(new LinkedList<Integer>(path));
return;
}
for (Integer i: graph[lastNode]) {
if (visited[i] == false) {
visited[i] = true;
path.add(i);
helper(ans, path, visited, graph, target);
visited[i] = false;
path.remove(path.size() - 1);
}
}
}