def addEdge(graph,u,v): if u in graph.keys(): if v not in graph[u]: graph(u].append (v) else : graph[u]-[v] Fv in graph. keys (): if u not in graph[v]: graph[v].append (u) else: graph[v]-[u] print(u," and ",v," are now connected") def renove_Edge(graph, u,v): if u not in graph.keys(): print(u, "not present in graph") return if v not in graph.keys(): print(v, "not present in graph") return if v not in graph[u]: print(u," andv, "is not connected") return graph(u).remove(v) graph[v].remove(u) print (u," and ",v," are now not connected") def renove_node(graph, u): if u not in graph.keys(): print(u, "not present in graph") return for i in graph. keys(): if u in graph[i]: graph(i].renove(u) del graph[u] print(u," deleted from the graph") def display(graph): if graph: print("Adjacency 1ist representaion of graph") print( for i in graph.keys(): print (1," - ".graph[i]) elset print('graph not exists') def check(graph,u,v): if u not in graph.keys(): print(u, "not present in graph") return if v not in graph.keys(): print(v. "not present in graph") return i4 (u in graph[v]) and (v in graph[u]): print(u,' and v,' has edge ) else: print (u, and ,v. is not connected') return #Driver code graph-{} t-1 while t: | print("Select your option:") print("1. Add Node") print("2. Add Edge") print("3. Renove Node") print("4. Renove Edge") print("5. Check presence of a Node") print("6. Check realtion between two node") print("7. Display Graph") print ("8. Exit") opt= input() opt- int (opt) print("Opted Optione ",opt) if opt1: print("Enter Node") n= int (input()) if n in graph.keys(): print("Node already exist") else: Braph(n]-[) print (n," added in graph") elif opt 2: print("Enter Node to be connect seprated by space") x,y input ().split( ) addEdge (graph, int (x), nt (y)) elif opt 3: print("Enter Node to be remove ") n int(input()) remove_node(graph, n) elif opt==4: print("Enter Nlode to be disconnect seprated by space") x,y input (). split( ") remove_Edge(graph, int (x), int (y)) elif opts: print("Enter node") n- int (input ()) If n in greph.keys(): print("Node Present") else: print("Node not present") elif opt-6: print ("Enter node whose connective is to check") x,y input (). split( ") X int (x) y in (y) check(graph, x,y) elif opt-7: display(graph) elif opt8: print(".--..- Terminating-.--") else: print("Incorrect Choice") print( printt

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print("Adjacency list representaion of graph") I RunO Dubus Skop e Share H Save Beaully Langunge Python 3 e 0 man py def addEdge(graph, u,v): if u in graph.keys(): if v not in graph(u]: graph(u].append (v) 2 3- 4 5- else : graph[u)-[v] if v in graph.keys(): if u not in graph[v]: graph[v].append (u) 7- else : graph[v]-[u] print (u," and ",v," are now connected") 10 11 12 13 14- def renove_Edge(graph, u,v): 15 if u not in graph.keys(): print(u, "not present in graph") 16 17 return if v not in graph.keys(): print(v, "not present in graph") 18 19 20 return if v not in graph[u]: print(u," return 21 2 and "v,"is not connected") 23 graph(u).remove(v) graph[v].remove(u) print(u," and ",v." are now not connected") 24 25 26 27 28- def renove_node(graph, u): 29 if u not in graph.keys(): print(u, "not present in graph") return for i in graph.keys(): if u in graph[i]: graph(i].renove(u) 30 31 32 33- 34 35 del graph(u) print(u," deleted from the graph") 36 37 38- def display(graph): if graph: print("Adjacency 1ist representaion of graph") print(" for i in graph.keys(): 39 40 41 _") 42 43 print(i,"-- ".graph[i]) 44 45 46 else: 47 print('graph not exists') 49- def check(graph,u,v): sa if u not in graph.keys(): print(u, "not present in graph") 51 52 return 53 54 if v not in graph.keys(): print(v, "not present in graph") return 55 56 if (u in graph[v]) and (v in graph[u]): print(u,' and ,v,' has a edge ) else: print(u,' and ',v,' is not connected') 57 58 59 61 return 62 63 #Driver code 64 graph-() 65 t-1 66 - while t:I 67 print("Select your option:") 68 print("1. Add Node") print("2. Add Edge") print("3. Renove Node") print("4. Renove Edge") print ("5. Check presence of a Node") print("6. Check realtion between two node") print ("7. Display Graph") print ("8. Exit") opt= input() opt= int (opt) print("Opted Optione ",opt) if opt1: print("Enter Node") n int (input(0) if n in graph.keys(): 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 print("Node already exist") asto graph[n]-[) print(n," added in graph") 85 86 87 elif opt== 2: print("Enter Node to be connect seprated by space") x,y- input (). split(" ") addEdge (graph,int (x), nt (y)) elif opt 3: print("Enter Node to be remove "). n= int(input ()) remove_node(graph, n) elif opt4: print("Enter Nlode to be disconnect seprated by space") X.y input ().split(" ") remove_Edge(graph, int (x), int (y)) elif opt5: print("Enter node") n- int (input ()) if n in graph.keys(): print("Node Present ") else: print("Node not present") 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 elif opt==6: print("Enter node whose connective is to check") X,y input ().split( ") X int (x) y int (y) check(graph, x,y) 107 108 109 110 111 112 113 114 elif opt71 display(graph) elif opt==8: print("---..-Terminating-..----") 115 116 117 118 t=0 119 else: print("Incorrect Choice") print(" print( 120 121 122 input 3lienowe Node