有空再来写解析 ?
import random
def create_answer(numbers_set,n):
result=[]
for i in range(n):
result.append(random.sample(numbers_set,10))
return result
def error_level(new_answer,numbers_set):
error=[]
right_answer=sum(numbers_set)/10
for item in new_answer:
value=abs(right_answer-sum(item))
if value==0:
error.append(10)
else:
error.append(1/value)
return error
def choice_selected(old_answer,numbers_set):
result=[]
error=error_level(old_answer,numbers_set)
error_one=[item/sum(error) for item in error]
for i in range(1,len(error_one)):
error_one[i]+=error_one[i-1]
for i in range(len(old_answer)//2):
temp=[]
for j in range(2):
rand=random.uniform(0,1)
for k in range(len(error_one)):
if k==0:
if rand<error_one[k]:
temp.append(old_answer[k])
else:
if rand>=error_one[k-1] and rand<error_one[k]:
temp.append(old_answer[k])
rand=random.randint(0,6)
temp_1=temp[0][:rand]+temp[1][rand:rand+3]+temp[0][rand+3:]
temp_2=temp[1][:rand]+temp[0][rand:rand+3]+temp[1][rand+3:]
result.append(temp_1)
result.append(temp_2)
return result
def variation(old_answer,numbers_set,pro):
for i in range(len(old_answer)):
rand=random.uniform(0,1)
if rand<pro:
rand_num=random.randint(0,9)
old_answer[i]=old_answer[i][:rand_num]+random.sample(numbers_set,1)+old_answer[i][rand_num+1:]
return old_answer
numbers_set=random.sample(range(0,1000),50)
middle_answer=create_answer(numbers_set,100)
first_answer=middle_answer[0]
great_answer=[]
for i in range(1000):
middle_answer=choice_selected(middle_answer,numbers_set)
middle_answer=variation(middle_answer,numbers_set,0.1)
error=error_level(middle_answer,numbers_set)
index=error.index(max(error))
great_answer.append([middle_answer[index],error[index]])
great_answer.sort(key=lambda x:x[1],reverse=True)
print("正确答案为",sum(numbers_set)/10)
print("给出的最优解为",great_answer[0][0])
print("该和为",sum(great_answer[0][0]))
print("选择系数为",great_answer[0][1])
print("最初解的和为",sum(first_answer))
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