使用Python实现二终端网络可靠度

 import itertools def min_path_sets(init_matrix,index_start,index_end): import re num_point = init_matrix.shape[0] min_path_list = [] for i in range(num_point-1): temp = init_matrix**(i+1) item = expand(temp[index_start-1,index_end-1]) list_given = re.sub('[ *123456789]',"",str(item)).split("+") #删除指定阶数下，路径长度不等于阶数的路 index_to_delete = [] for j in range(len(list_given)): if len(list_given[j])!=(i+1) or list_given[j]=='0': index_to_delete.append(j) for counter, index in enumerate(index_to_delete): index = index - counter list_given.pop(index) min_path_list.extend(list_given) return min_path_list def str_de_duplication(pstr): a = '' for i in range(len(pstr)): if pstr[i] not in a: a+=pstr[i] return a def product_symbol(pstr,my_dict): import numpy as np value_list = [] for i in pstr: value_list.append(my_dict[i]) return np.prod(value_list) def generate_label(path_sets,my_dict): import numpy as np all_result = [] for exp_num in range(len(path_sets)): item_Combination = list(itertools.combinations(path_sets, exp_num+1)) item_list = list(map(lambda x: str_de_duplication("".join(x)),item_Combination)) value_list = list(map(lambda x: product_symbol(x,my_dict),item_list)) all_result.append(np.sum(value_list)*(-1)**(exp_num)) return np.sum(all_result) def Matrix_label(init_matrix,my_dict,index_start,index_end): path_sets = min_path_sets(init_matrix,index_start,index_end) pro_value = generate_label(path_sets,my_dict) return pro_value from sympy import * from sympy.abc import A,B,C,D,E,F index_start = 2 index_end = 1 data = Matrix([[0,A,B], [A,0,C], [B,C,0]]) my_dict = {'A':0.8, 'B':0.9, 'C':0.9} Matrix_label(data,my_dict,index_start,index_end)