Мне нужно сохранить веса или саму модель для использования её в одном мини-проекте
Я пытался сохранять с помощью модулей shelve,pickle и joblib, но веса сохранялись не точно, а попытки сохранения самой модели вызывали ошибку
Can't pickle <function NeuralNetwork.__init__.<locals>.<lambda> at 0x00000206B645C310>: it's not found as __main__.NeuralNetwork.__init__.<locals>.<lambda>
Вот код класса нейронной сети
import numpy
# scipy.special for the sigmoid function expit()
import scipy.special
# scipy.ndimage for rotating image arrays
import scipy.ndimage
# os.path for сheck file
from os import path
# joblib for save weights
import joblib
who_file = r"who.txt"
wih_file = r"wih.txt"
class NeuralNetwork:
# initialise the neural network
def __init__(self, inputnodes = 784, hiddennodes = 200, outputnodes = 10, learningrate = 0.01):
# set number of nodes in each input, hidden, output layer
self.inodes = inputnodes
self.hnodes = hiddennodes
self.onodes = outputnodes
# link weight matrices, wih and who
# weights inside the arrays are w_i_j, where link is from node i to node j in the next layer
# w11 w21
# w12 w22 etc
self.dowl_weights()
# learning rate
self.lr = learningrate
# activation function is the sigmoid function
self.activation_function = lambda x: scipy.special.expit(x)
pass
# train the neural network
def train(self, inputs_list, targets_list):
# convert inputs list to 2d array
inputs = numpy.array(inputs_list, ndmin=2).T
targets = numpy.array(targets_list, ndmin=2).T
# calculate signals into hidden layer
hidden_inputs = numpy.dot(self.wih, inputs)
# calculate the signals emerging from hidden layer
hidden_outputs = self.activation_function(hidden_inputs)
# calculate signals into final output layer
final_inputs = numpy.dot(self.who, hidden_outputs)
# calculate the signals emerging from final output layer
final_outputs = self.activation_function(final_inputs)
#print ("guess "+str(numpy.argmax(final_outputs)))
#print ('true '+str(numpy.argmax(targets)))
# output layer error is the (target - actual)
output_errors = targets - final_outputs
print (numpy.sum(abs(output_errors)))
# hidden layer error is the output_errors, split by weights, recombined at hidden nodes
hidden_errors = numpy.dot(self.who.T, output_errors)
# update the weights for the links between the hidden and output layers
self.who += self.lr * numpy.dot((output_errors * final_outputs * (1.0 - final_outputs)), numpy.transpose(hidden_outputs))
# update the weights for the links between the input and hidden layers
self.wih += self.lr * numpy.dot((hidden_errors * hidden_outputs * (1.0 - hidden_outputs)), numpy.transpose(inputs))
self.save_weights()
pass
# dowl weights
def dowl_weights(self):
if path.exists(who_file):
if path.getsize(who_file) > 0:
self.who_file = joblib.load(who_file)
else:self.who = numpy.random.normal(0.0, pow(self.hnodes, -0.5), (self.onodes, self.hnodes))
else:self.who = numpy.random.normal(0.0, pow(self.hnodes, -0.5), (self.onodes, self.hnodes))
if path.exists(wih_file):
if path.getsize(wih_file) > 0:
self.wih = joblib.load(wih_file)
else:self.wih = numpy.random.normal(0.0, pow(self.inodes, -0.5), (self.hnodes, self.inodes))
else:self.wih = numpy.random.normal(0.0, pow(self.inodes, -0.5), (self.hnodes, self.inodes))
def save_weights (self):
joblib.dump(self.who,who_file)
joblib.dump(self.wih,wih_file)
# query the neural network
def query(self, inputs_list):
# convert inputs list to 2d array
inputs = numpy.array(inputs_list, ndmin=2).T
# calculate signals into hidden layer
hidden_inputs = numpy.dot(self.wih, inputs)
# calculate the signals emerging from hidden layer
hidden_outputs = self.activation_function(hidden_inputs)
# calculate signals into final output layer
final_inputs = numpy.dot(self.who, hidden_outputs)
# calculate the signals emerging from final output layer
final_outputs = self.activation_function(final_inputs)
return final_outputs
A так же фрагмент, где можно увидеть потери весов
print (n.who,end = '\n' * 10)
a = NeuralNetwork()
print (a.who)
