def draw_a_graph(self): helper.draw_graph(args.ip,args.endpoint,args.workbook) return None
def draw_a_graph(self): global BR if BR == "NULL": BR = raw_input("Enter BR Ip Address >>\t") helper.draw_graph(BR,ENDPOINT)
i = 0 for partition in partitions: for node in partition: G_all.add_node(node, group = names[i]) i += 1 i = 0 for partition in partitions: # Subgraph FF = G_all.subgraph(partition) #Name it and Draw it FF.name = "FF_%s " % names[i] hp.draw_graph(FF) for node in partition: FF.add_node(node) ################# Group Bonding measures ################ FF_bin = hp.to_binary(FF) # Density # Density is computed on binarized matrix FF_bin_density = nx.density(FF) # Transitivity FF_bin_transitivity = nx.transitivity(FF) # Reciprocity FF_reciprocity = hp.reciprocity(FF) # Weakly connected components
def draw_a_graph(self): global BR if BR == "NULL": BR = raw_input("Enter BR Ip Address >>\t") helper.draw_graph(BR, ENDPOINT)