# coding: utf-8 from google.colab import drive drive.mount('/content/drive',force_remount=True) bd = 'drive/My Drive/Colab Notebooks/mymodules' import sys, os import numpy as np sys.path.append(bd) import numpy as np from layers import * from gradient import numerical_gradient from collections import OrderedDict class TwoLayerNet: def __init__(self, input_size, hidden_size, output_size, weight_init_std = 0.01): # 重みの初期化 self.params = {} self.params['W1'] = weight_init_std * np.random.randn(input_size, hidden_size) self.params['b1'] = np.zeros(hidden_size) self.params['W2'] = weight_init_std * np.random.randn(hidden_size, output_size) self.params['b2'] = np.zeros(output_size) # レイヤの生成 self.layers = OrderedDict() self.layers['Affine1'] = Affine(self.params['W1'], self.params['b1']) self.layers['Relu1'] = Relu() self.layers['Affine2'] = Affine(self.params['W2'], self.params['b2']) self.lastLayer = SoftmaxWithLoss() def predict(self, x): for layer in self.layers.values(): x = layer.forward(x) return x # x:入力データ, t:教師データ def loss(self, x, t): y = self.predict(x) return self.lastLayer.forward(y, t) def accuracy(self, x, t): y = self.predict(x) y = np.argmax(y, axis=1) if t.ndim != 1 : t = np.argmax(t, axis=1) accuracy = np.sum(y == t) / float(x.shape[0]) return accuracy # x:入力データ, t:教師データ def numerical_gradient(self, x, t): loss_W = lambda W: self.loss(x, t) grads = {} grads['W1'] = numerical_gradient(loss_W, self.params['W1']) grads['b1'] = numerical_gradient(loss_W, self.params['b1']) grads['W2'] = numerical_gradient(loss_W, self.params['W2']) grads['b2'] = numerical_gradient(loss_W, self.params['b2']) return grads def gradient(self, x, t): # forward self.loss(x, t) # backward dout = 1 dout = self.lastLayer.backward(dout) layers = list(self.layers.values()) layers.reverse() for layer in layers: dout = layer.backward(dout) # 設定 grads = {} grads['W1'], grads['b1'] = self.layers['Affine1'].dW, self.layers['Affine1'].db grads['W2'], grads['b2'] = self.layers['Affine2'].dW, self.layers['Affine2'].db return grads