基于之前的C++版本的Python版本代码
import numpy as np
import random
def read_data(file='data.txt'):
with open(file, 'r') as f:
N = int(f.readline().replace('\n', ''))
Mat = [0] * 10
for i in range(N):
Mat = list(map(int, f.readline().replace('\n', '').split(' ')))
return N, Mat
def calpathValue(path):
global Mat
temp = Mat[0][path[0]]
for i in range(len(path) - 1):
temp += Mat[path][path[i + 1]]
temp += Mat[path[-1]][0]
return temp
def initial():
global N
init = list(range(1, N, 1))
pack = [0] * LEN
packValue = [0] * LEN
for i in range(LEN):
random.shuffle(init)
data = init
pack = data.copy()
packValue = calpathValue(pack)
indexes = np.argsort(packValue)
pack = np.array(pack)[indexes]
packValue = np.sort(packValue)
return packValue, pack
# i: pack
def preserve(i):
global tempPack, tempPackValue, pack, packValue, tempIndex
tempPackValue[tempIndex] = packValue
tempPack[tempIndex] = pack.copy()
tempIndex += 1
def select():
global N, pack, tempPack, tempPackValue, tempIndex, LEN, packValue
tpk = tempPack[:tempIndex]
tpkv = tempPackValue[:tempIndex]
indexes = np.argsort(tpkv)
tpk = np.array(tpk)[indexes]
tpkv = np.sort(tpkv)
pack = tpk[:LEN]
packValue = tpkv[:LEN]
def crossover(i, j):
global N, pack, tempPack, tempPackValue, tempIndex
times = random.randint(1, N - 2)
indexes = [0] * times
for t in range(times):
if t == 0:
indexes[t] = random.randint(0, N - times - 1)
else:
indexes[t] = random.randint(indexes[t - 1] + 1, N - times + t - 1)
tempPack[tempIndex] = pack.copy()
pack_j_reindex = pack[j].copy()[indexes]
count = 0
for v in range(N - 1):
if count >= times: break
if tempPack[tempIndex][v] in pack_j_reindex:
tempPack[tempIndex][v] = pack_j_reindex[count]
count += 1
tempPackValue[tempIndex] = calpathValue(tempPack[tempIndex])
tempIndex += 1
tempPack[tempIndex] = pack[j].copy()
pack_i_reindex = pack.copy()[indexes]
count = 0
for v in range(N - 1):
if count >= times: break
if tempPack[tempIndex][v] in pack_i_reindex:
tempPack[tempIndex][v] = pack_i_reindex[count]
count += 1
tempPackValue[tempIndex] = calpathValue(tempPack[tempIndex])
tempIndex += 1
def mutation(i):
global N, pack, tempPack, tempPackValue, tempIndex
times = random.randint(1, N - 2)
indexes = [0] * times
for t in range(times):
if t == 0:
indexes[t] = random.randint(0, N - times - 1)
else:
indexes[t] = random.randint(indexes[t - 1] + 1, N - times + t - 1)
origin_indexes = indexes.copy()
random.shuffle(indexes)
tempPack[tempIndex] = pack.copy()
for t in range(times):
tempPack[tempIndex][indexes[t]] = pack[origin_indexes[t]]
tempPackValue[tempIndex] = calpathValue(tempPack[tempIndex])
tempIndex += 1
if __name__ == '__main__':
N, Mat = read_data()
LEN = 25
pc, pm = 0.7, 0.97
NOTMORETHANstayINGV = 10
packValue, pack = initial()
tempLEN = LEN * LEN
tempPack = [[0] * N] * tempLEN
tempPackValue = [0] * tempLEN
tempIndex = 0
global_Value = packValue[0]
stayinGV = 0
while True:
tempIndex = 0
for i in range(LEN):
preserve(i)
if random.random() < pm:
mutation(i)
if i == LEN - 1: break
for j in range(i + 1, LEN):
if tempIndex >= tempLEN: break
if random.random() < pc:
crossover(i, j)
select()
if packValue[0] < global_Value:
global_Value = packValue[0]
stayinGV = 0
elif packValue[0] == global_Value:
stayinGV += 1
else:
print("Something wrong")
break
if stayinGV == NOTMORETHANstayINGV:
break
print(global_Value)
print(0, end='-->')
for i in pack[0]:
print(i, end='-->')
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
所用的数据:
表示是的10个点之间的距离矩阵
10
0 58 82 89 17 50 26 48 70 19
58 0 74 46 70 2 70 49 87 60
82 74 0 58 76 98 37 97 34 67
89 46 58 0 15 17 28 69 46 79
17 70 76 15 0 98 60 69 97 89
50 2 98 17 98 0 81 14 43 47
26 70 37 28 60 81 0 43 73 56
48 49 97 69 69 14 43 0 39 0
70 87 34 46 97 43 73 39 0 53
19 60 67 79 89 47 56 0 53 0
1
2
3
4
5
6
7
8
9
10
11
随机生成数据并展示动图
黑色的点是起点。
我在知乎上看到类似的图,就试着改了下自己的代码也实现了这个效果。生成gif是基于我之前写的代码
import numpy as np
import random
import matplotlib.pyplot as plt
import os
import shutil
import imageio
def create_data(N, xu=10, yu=10, xd=-10, yd=-10):
fx = lambda: random.random() * (xu - xd) + xd
fy = lambda: random.random() * (yu - yd) + yd
calDistance = lambda x, y: np.sqrt((x[0] - y[0]) ** 2 + (x[1] - y[1]) ** 2)
points = [(0, 0)] * N
for i in range(N):
points = (fx(), fy())
Mat = np.zeros((N, N))
for i in range(N):
for j in range(i + 1, N):
dv = calDistance(points, points[j])
Mat[j], Mat[j] = dv, dv
return points, Mat
def calpathValue(path):
global Mat
temp = Mat[0][path[0]]
for i in range(len(path) - 1):
temp += Mat[path][path[i + 1]]
temp += Mat[path[-1]][0]
return temp
def initial():
global N
init = list(range(1, N, 1))
pack = [0] * LEN
packValue = [0] * LEN
for i in range(LEN):
random.shuffle(init)
data = init
pack = data.copy()
packValue = calpathValue(pack)
indexes = np.argsort(packValue)
pack = np.array(pack)[indexes]
packValue = np.sort(packValue)
return packValue, pack
# i: pack
def preserve(i):
global tempPack, tempPackValue, pack, packValue, tempIndex
tempPackValue[tempIndex] = packValue
tempPack[tempIndex] = pack.copy()
tempIndex += 1
def select():
global N, pack, tempPack, tempPackValue, tempIndex, LEN, packValue
tpk = tempPack[:tempIndex]
tpkv = tempPackValue[:tempIndex]
indexes = np.argsort(tpkv)
tpk = np.array(tpk)[indexes]
tpkv = np.sort(tpkv)
pack = tpk[:LEN]
packValue = tpkv[:LEN]
def crossover(i, j):
global N, pack, tempPack, tempPackValue, tempIndex
times = random.randint(1, N - 2)
indexes = [0] * times
for t in range(times):
if t == 0:
indexes[t] = random.randint(0, N - times - 1)
else:
indexes[t] = random.randint(indexes[t - 1] + 1, N - times + t - 1)
tempPack[tempIndex] = pack.copy()
pack_j_reindex = pack[j].copy()[indexes]
count = 0
for v in range(N - 1):
if count >= times: break
if tempPack[tempIndex][v] in pack_j_reindex:
tempPack[tempIndex][v] = pack_j_reindex[count]
count += 1
tempPackValue[tempIndex] = calpathValue(tempPack[tempIndex])
tempIndex += 1
tempPack[tempIndex] = pack[j].copy()
pack_i_reindex = pack.copy()[indexes]
count = 0
for v in range(N - 1):
if count >= times: break
if tempPack[tempIndex][v] in pack_i_reindex:
tempPack[tempIndex][v] = pack_i_reindex[count]
count += 1
tempPackValue[tempIndex] = calpathValue(tempPack[tempIndex])
tempIndex += 1
def mutation(i):
global N, pack, tempPack, tempPackValue, tempIndex
times = random.randint(1, N - 2)
indexes = [0] * times
for t in range(times):
if t == 0:
indexes[t] = random.randint(0, N - times - 1)
else:
indexes[t] = random.randint(indexes[t - 1] + 1, N - times + t - 1)
origin_indexes = indexes.copy()
random.shuffle(indexes)
tempPack[tempIndex] = pack.copy()
for t in range(times):
tempPack[tempIndex][indexes[t]] = pack[origin_indexes[t]]
tempPackValue[tempIndex] = calpathValue(tempPack[tempIndex])
tempIndex += 1
def draw(path, pv):
global points, N, TIMESIT, PNGFILE, PNGLIST
plt.cla()
plt.title('cross=%.4f' % pv)
xs = [p[0] for p in points]
ys = [p[1] for p in points]
plt.scatter(xs, ys, color='b')
xs = np.array(xs)
ys = np.array(ys)
plt.plot(xs[[0, path[0]]], ys[[0, path[0]]], color='r')
for i in range(N - 2):
plt.plot(xs[[path, path[i + 1]]], ys[[path, path[i + 1]]], color='r')
plt.plot(xs[[path[N - 2], 0]], ys[[path[N - 2], 0]], color='r')
plt.scatter(xs[0], ys[0], color='k', linewidth=10)
plt.savefig('%s/%d.png' % (PNGFILE, TIMESIT))
PNGLIST.append('%s/%d.png' % (PNGFILE, TIMESIT))
TIMESIT += 1
if __name__ == '__main__':
# N, Mat = read_data()
TIMESIT = 0
PNGFILE = './png/'
PNGLIST = []
if not os.path.exists(PNGFILE):
os.mkdir(PNGFILE)
else:
shutil.rmtree(PNGFILE)
os.mkdir(PNGFILE)
N = 20
points, Mat = create_data(N)
LEN = 40
pc, pm = 0.7, 0.97
NOTMORETHANstayINGV = 30
packValue, pack = initial()
tempLEN = LEN * LEN
tempPack = [[0] * N] * tempLEN
tempPackValue = [0] * tempLEN
tempIndex = 0
global_Value = packValue[0]
draw(pack[0], global_Value)
stayinGV = 0
while True:
tempIndex = 0
for i in range(LEN):
preserve(i)
if random.random() < pm:
mutation(i)
if i == LEN - 1: break
for j in range(i + 1, LEN):
if tempIndex >= tempLEN: break
if random.random() < pc:
crossover(i, j)
select()
if packValue[0] < global_Value:
global_Value = packValue[0]
draw(pack[0], global_Value)
stayinGV = 0
elif packValue[0] == global_Value:
stayinGV += 1
else:
print("Something wrong")
break
if stayinGV == NOTMORETHANstayINGV:
break
print(global_Value)
print(0, end='-->')
for i in pack[0]:
print(i, end='-->')
generated_images = []
for png_path in PNGLIST:
generated_images.append(imageio.imread(png_path))
shutil.rmtree(PNGFILE) # 可删掉
generated_images = generated_images + [generated_images[-1]] * 5
imageio.mimsave('TSP-GA.gif', generated_images, 'GIF', duration=0.5)
---------------------
【转载】仅作分享,侵删
作者:肥宅_Sean
原文:https://blog.csdn.net/a19990412/article/details/84978612
|
|