#!/usr/bin/python # encoding=utf8 """ Author: OMKAR PATHAK """ class Graph(): def __init__(self): self.vertex = {} # for printing the Graph vertexes def printGraph(self): for i in self.vertex.keys(): print(i,' -> ', ' -> '.join([str(j) for j in self.vertex[i]])) # for adding the edge beween two vertexes def addEdge(self, fromVertex, toVertex): # check if vertex is already present, if fromVertex in self.vertex.keys(): self.vertex[fromVertex].append(toVertex) else: # else make a new vertex self.vertex[fromVertex] = [toVertex] def BFS(self, startVertex): # Take a list for stoting already visited vertexes visited = [False] * len(self.vertex) # create a list to store all the vertexes for BFS queue = [] # mark the source node as visited and enqueue it visited[startVertex] = True queue.append(startVertex) while queue: startVertex = queue.pop(0) print(startVertex, end = ' ') # mark all adjacent nodes as visited and print them for i in self.vertex[startVertex]: if visited[i] == False: queue.append(i) visited[i] = True if __name__ == '__main__': 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) g.printGraph() print('BFS:') g.BFS(2) # OUTPUT: # 0  ->  1 -> 2 # 1  ->  2 # 2  ->  0 -> 3 # 3  ->  3 # BFS: # 2 0 3 1