# Python3 program to print DFS traversal from collections import defaultdict # This class represents a directed graph using # adjacency list representation class Graph: # Constructor def __init__(self): # default dictionary to store graph self.graph = defaultdict(list) # function to add an edge to graph def addEdge(self, u, v): self.graph[u].append(v) # A function used by DFS def DFSUtil(self, v, visited): # Mark the current node as visited # and print it visited[v] = True print(v, end = ' ') # Recur for all the vertices # adjacent to this vertex for i in self.graph[v]: if visited[i] == False: self.DFSUtil(i, visited) # The function to do DFS traversal. It uses # recursive DFSUtil() def DFS(self, v): # Mark all the vertices as not visited visited = [False] * (len(self.graph)) # Call the recursive helper function # to print DFS traversal self.DFSUtil(v, visited) # Driver code # Create a graph given # in the above diagram g = Graph() g.addEdge(0, 1) g.addEdge(0, 2) g.addEdge(1, 2) g.addEdge(2, 0) g.addEdge(2, 3) g.addEdge(3, 3) print("Following is DFS from (starting from vertex 2)") g.DFS(2)