简述 之前通过遗传算法(Genetic Algorithm )+C++实现解决TSP问题 写了一些基本的原理。并且给出了C++版本代码。 相比于近300行的C++程序,Python只用了160行就解决了 可以说是非常方便了~ 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[i] = 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[i]][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[i] = data.copy()
packValue[i] = calpathValue(pack[i])
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[i]
tempPack[tempIndex] = pack[i].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[i].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[i].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[i].copy()
for t in range(times):
tempPack[tempIndex][indexes[t]] = pack[i][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() = tempLEN: break
if random.random() = 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[i].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[i].copy()
for t in range(times):
tempPack[tempIndex][indexes[t]] = pack[i][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[i], path[i + 1]]], ys[[path[i], 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() = tempLEN: break
if random.random() |