quit()
print()
G6 = graph6.Graph()
visited_counter = 0
print('The nodes of G6 are visited by depth-first-search in this order:')
dfs(G6, 1)
print()
G7 = graph7.Graph()
visited_counter = 0
print('The nodes of G7 are visited by depth-first-search in this order:')
dfs(G7, 1)
print()
G8 = graph8.Graph()
visited_counter = 0
print('The nodes of G8 are visited by depth-first-search in this order:')
dfs(G8, 1)
print()
G9 = graph9.Graph()
visited_counter = 0
print('The nodes of G9 are visited by depth-first-search in this order:')
dfs(G9, 1)
print()
G10 = graph10.Graph()
visited_counter = 0
print('The nodes of G10 are visited by depth-first-search in this order:')
dfs(G10, 1)
max_distance(G6))
G6 = graph6.Graph() # we initialize again the attributes of the graph G6
print('I found the distance between two random vertices in G6 to be:',
random_distance(G6))
print()
G7 = graph7.Graph()
print(
'The diameter of G7 (i.e. the maximum distance between two vertices) is:',
max_distance(G7))
G7 = graph7.Graph() # we initialize again the attributes of the graph G7
print('I found the distance between two random vertices in G7 to be:',
random_distance(G7))
print()
G8 = graph8.Graph()
print(
'The diameter of G8 (i.e. the maximum distance between two vertices) is:',
max_distance(G8))
G8 = graph8.Graph() # we initialize again the attributes of the graph G8
print('I found the distance between two random vertices in G8 to be:',
random_distance(G8))
print()
G9 = graph9.Graph()
print(
'The diameter of G9 (i.e. the maximum distance between two vertices) is:',
max_distance(G9))
G9 = graph9.Graph() # we initialize again the attributes of the graph G9
print('I found the distance between two random vertices in G9 to be:',
random_distance(G9))
