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Keras 使用 Lambda层详解

来源:互联网 收集:自由互联 发布时间:2021-04-09
我就废话不多说了,大家还是直接看代码吧! from tensorflow.python.keras.models import Sequential, Modelfrom tensorflow.python.keras.layers import Dense, Flatten, Conv2D, MaxPool2D, Dropout, Conv2DTranspose, Lambda, Input,

我就废话不多说了,大家还是直接看代码吧!

from tensorflow.python.keras.models import Sequential, Model
from tensorflow.python.keras.layers import Dense, Flatten, Conv2D, MaxPool2D, Dropout, Conv2DTranspose, Lambda, Input, Reshape, Add, Multiply
from tensorflow.python.keras.optimizers import Adam
 
def deconv(x):
  height = x.get_shape()[1].value
  width = x.get_shape()[2].value
  
  new_height = height*2
  new_width = width*2
  
  x_resized = tf.image.resize_images(x, [new_height, new_width], tf.image.ResizeMethod.NEAREST_NEIGHBOR)
  
  return x_resized
 
def Generator(scope='generator'):
  imgs_noise = Input(shape=inputs_shape)
  x = Conv2D(filters=32, kernel_size=(9,9), strides=(1,1), padding='same', activation='relu')(imgs_noise)
  x = Conv2D(filters=64, kernel_size=(3,3), strides=(2,2), padding='same', activation='relu')(x)
  x = Conv2D(filters=128, kernel_size=(3,3), strides=(2,2), padding='same', activation='relu')(x)
 
  x1 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x)
  x1 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x1)
  x2 = Add()([x1, x])
 
  x3 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x2)
  x3 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x3)
  x4 = Add()([x3, x2])
 
  x5 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x4)
  x5 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x5)
  x6 = Add()([x5, x4])
 
  x = MaxPool2D(pool_size=(2,2))(x6)
 
  x = Lambda(deconv)(x)
  x = Conv2D(filters=64, kernel_size=(3, 3), strides=(1,1), padding='same',activation='relu')(x)
  x = Lambda(deconv)(x)
  x = Conv2D(filters=32, kernel_size=(3, 3), strides=(1,1), padding='same',activation='relu')(x)
  x = Lambda(deconv)(x)
  x = Conv2D(filters=3, kernel_size=(3, 3), strides=(1, 1), padding='same',activation='tanh')(x)
 
  x = Lambda(lambda x: x+1)(x)
  y = Lambda(lambda x: x*127.5)(x)
  
  model = Model(inputs=imgs_noise, outputs=y)
  model.summary()
  
  return model
 
my_generator = Generator()
my_generator.compile(loss='binary_crossentropy', optimizer=Adam(0.7, decay=1e-3), metrics=['accuracy'])

补充知识:含有Lambda自定义层keras模型,保存遇到的问题及解决方案

一,许多应用,keras含有的层已经不能满足要求,需要透过Lambda自定义层来实现一些layer,这个情况下,只能保存模型的权重,无法使用model.save来保存模型。保存时会报

TypeError: can't pickle _thread.RLock objects

二,解决方案,为了便于后续的部署,可以转成tensorflow的PB进行部署。

from keras.models import load_model
import tensorflow as tf
import os, sys
from keras import backend as K
from tensorflow.python.framework import graph_util, graph_io

def h5_to_pb(h5_weight_path, output_dir, out_prefix="output_", log_tensorboard=True):
  if not os.path.exists(output_dir):
    os.mkdir(output_dir)
  h5_model = build_model()
  h5_model.load_weights(h5_weight_path)
  out_nodes = []
  for i in range(len(h5_model.outputs)):
    out_nodes.append(out_prefix + str(i + 1))
    tf.identity(h5_model.output[i], out_prefix + str(i + 1))
  model_name = os.path.splitext(os.path.split(h5_weight_path)[-1])[0] + '.pb'
  sess = K.get_session()
  init_graph = sess.graph.as_graph_def()
  main_graph = graph_util.convert_variables_to_constants(sess, init_graph, out_nodes)
  graph_io.write_graph(main_graph, output_dir, name=model_name, as_text=False)
  if log_tensorboard:
    from tensorflow.python.tools import import_pb_to_tensorboard
    import_pb_to_tensorboard.import_to_tensorboard(os.path.join(output_dir, model_name), output_dir)

def build_model():
  inputs = Input(shape=(784,), name='input_img')
  x = Dense(64, activation='relu')(inputs)
  x = Dense(64, activation='relu')(x)
  y = Dense(10, activation='softmax')(x)
  h5_model = Model(inputs=inputs, outputs=y)
  return h5_model

if __name__ == '__main__':
  if len(sys.argv) == 3:
    # usage: python3 h5_to_pb.py h5_weight_path output_dir
    h5_to_pb(h5_weight_path=sys.argv[1], output_dir=sys.argv[2])

以上这篇Keras 使用 Lambda层详解就是小编分享给大家的全部内容了,希望能给大家一个参考,也希望大家多多支持易盾网络。

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