#coding=utf-8

 import seaborn as sbn

 import pylab as plt

 import theano

 from keras.models import Sequential

 from keras.layers import Dense,Activation

 from keras.models import Model

 model = Sequential()

 model.add(Dense(32, activation='relu', input_dim=100))

 model.add(Dense(16, activation='relu',name="Dense_1"))

 model.add(Dense(1, activation='sigmoid',name="Dense_2"))

 model.compile(optimizer='rmsprop',

 loss='binary_crossentropy',

 metrics=['accuracy'])

 # Generate dummy data

 import numpy as np

 #假设训练和测试使用同一组数据

 data = np.random.random((1000, 100))

 labels = np.random.randint(2, size=(1000, 1))

 # Train the model, iterating on the data in batches of 32 samples

 model.fit(data, labels, epochs=10, batch_size=32)

 #已有的model在load权重过后

 #取某一层的输出为输出新建为model，采用函数模型

 dense1_layer_model = Model(inputs=model.input,

 outputs=model.get_layer('Dense_1').output)

 #以这个model的预测值作为输出

 dense1_output = dense1_layer_model.predict(data)

 print dense1_output.shape

 print dense1_output[0]

 2.因为我的后端是使用的theano，所以还可以考虑使用theano的函数：

 #这是一个theano的函数

 dense1 = theano.function([model.layers[0].input],model.layers[1].output,allow_input_downcast=True)

 dense1_output = dense1(data) #visualize these images's FC-layer feature

 print dense1_output[0]