Насколько программа верная и как её можно улучшить?
import random
import itertools
example = [[1.4,2.74,2.35,1.05],[2.42,1.5,0.7,1.5],[1.63,2.14,1.28,0.39],[1.37,2.87,0.92,0.62],[1.85,1.85,1.18,0.98],[2.09,1.66,0.95,0.42],[1.66,2.09,1.21,1.375],[2.0,1.72,0.57,1.02],[1.42,2.67,1.05,1.46],[2.11,1.65,0.61,0.79],[1.87,1.83,1.21,0.68],[1.38,2.81,1.02,0.42],[2.93,1.35,1.22,0.54],[1.85,1.85,1.41,1.14],[1.81,1.81,1.18,1.025],[1.88,1.83,0.73,0.66],[2.0,1.72,0.73,0.82],[1.44,2.61,0.97,1.73],[1.42,2.66,1.35,1.36],[1.41,2.71,1.85,0.82],[1.86,1.84,1.46,0.825],[1.85,1.85,1.03,1.35],]
answer = [1,1,0,0,1,0,0,0,1,0,1,0,1,1,1,1,1,0,0,0,1,1,]
list_0 = []
list_1 = []
list_0_copy = []
list_1_copy = []
index = [0, 1, 2, 3]
index_every = []
sign = [0, 1, 2, 3]
a = 0
b = []
c = []
x = []
w1 = 0
w2 = 0
w3 = 0
s1 = 0
s2 = 0
s3 = 0
evaluation_0 = []
evaluation_1 = []
evaluation_0_middle = []
evaluation_1_middle = []
fault_0 = []
fault_1 = []
fault_union = 0
best_evaluation = [0]
fault_every = 0
for i in range(len(answer)): #Распределения в списки 0 и 1
every = answer[a]
if every == 0:
list_0.append( example[a] )
elif every == 1:
list_1.append( example[a] )
a += 1
index_every = list( itertools.permutations(index)) #Все возможные перестоновки 4 входных чисел
sign_stage = list( itertools.combinations_with_replacement(sign,3)) #Считает и заносит в список все варианты знаков
print((sign_stage))
for i in index_every:
for j in list_0:
x = [j[k] for k in i]
list_0_copy.append( x ) #Одно из расположений 0 по индексу из index_every
for l in list_1:
x = [l[k] for k in i] #Одно из расположений 1 по индексу из index_every
list_1_copy.append( x )
for q in sign_stage: #Перебирает все возможные знаки
n1 = q[0]
n2 = q[1]
n3 = q[2]
for w in list_0_copy: # 0_+ 1_- 2_* 3_/
if n1 == 0: #n1
w1 = w[0] + w[1]
elif n1 == 1:
w1 = w[0] - w[1]
elif n1 == 2:
w1 = w[0] * w[1]
elif n1 == 3:
w1 = w[0] / w[1]
if n2 == 0: #n2
w2 = w1 + w[2]
elif n2 == 1:
w2 = w1 - w[2]
elif n2 == 2:
w2 = w1 * w[2]
elif n2 == 3:
w2 = w1 / w[2]
if n3 == 0: #3
w3 = w2 + w[3]
elif n3 == 1:
w3 = w2 - w[3]
elif n3 == 2:
w3 = w2 * w[3]
elif n3 == 3:
w3 = w2 / w[3]
evaluation_0.append( w3 )
for s in list_1_copy: # 0_+ 1_- 2_* 3_/
if n1 == 0: #n1
s1 = s[0] + s[1]
elif n1 == 1:
s1 = s[0] - s[1]
elif n1 == 2:
s1 = s[0] * s[1]
elif n1 == 3:
s1 = s[0] / s[1]
if n2 == 0: #n2
s2 = s1 + s[2]
elif n2 == 1:
s2 = s1 - s[2]
elif n2 == 2:
s2 = s1 * s[2]
elif n2 == 3:
s2 = s1 / s[2]
if n3 == 0: #3
s3 = s2 + s[3]
elif n3 == 1:
s3 = s2 - s[3]
elif n3 == 2:
s3 = s2 * s[3]
elif n3 == 3:
s3 = s2 / s[3]
evaluation_1.append( s3 )
evaluation_0_middle = sum( evaluation_0 ) / len( evaluation_0 ) #Среднее значение получаймых чисел для 0
evaluation_1_middle = sum( evaluation_1 ) / len( evaluation_1 ) #Среднее значение получаймых чисел для 1
if evaluation_0_middle > evaluation_1_middle: # 0 > 1
for t in evaluation_0: #Погрешность для 0
if t < evaluation_0_middle:
fault_0.append( evaluation_0_middle - t )
for p in evaluation_1: #Погрешность для 1
if p > evaluation_1_middle:
fault_1.append( p - evaluation_1_middle )
elif evaluation_0_middle < evaluation_1_middle: # 0 < 1
for m in evaluation_0: #Погрешность для 0
if m > evaluation_0_middle:
fault_0.append( m - evaluation_0_middle )
for f in evaluation_1: #Погрешность для 1
if f < evaluation_1_middle:
fault_1.append( evaluation_1_middle - f )
evaluation_0 = []
evaluation_1 = []
fault_0 = sum( fault_0) / len(fault_0) #считает среднию погрешность
fault_1 = sum( fault_1) / len(fault_1)
fault_union = fault_0 + fault_1
fault_every = fault_union
fault_union = abs( evaluation_0_middle - evaluation_1_middle ) / fault_union #среднем значение / Погрешность
print(fault_union)
if fault_union > best_evaluation[0]: #Наименьшая погрешность и заносятся данные для расчета
del best_evaluation[:]
best_evaluation.append(fault_union)
best_evaluation.append(i)
best_evaluation.append(n1)
best_evaluation.append(n2)
best_evaluation.append(n3)
best_evaluation.append(evaluation_0_middle)
best_evaluation.append(evaluation_1_middle)
best_evaluation.append(fault_every)
print(best_evaluation)
a, b, c = 0, 0, 0
и повторяющиеся операции лучше делать через цикл по списку.