training/rnn_dump.py - chromium/deps/opus - Git at Google

 #!/usr/bin/python

 from __future__ import print_function

 from keras.models import Sequential
 from keras.models import Model
 from keras.layers import Input
 from keras.layers import Dense
 from keras.layers import LSTM
 from keras.layers import GRU
 from keras.models import load_model
 from keras import backend as K
 import sys

 import numpy as np

 def printVector(f, vector, name):
     v = np.reshape(vector, (-1));
     #print('static const float ', name, '[', len(v), '] = \n', file=f)
     f.write('static const opus_int8 {}[{}] = {{\n   '.format(name, len(v)))
     for i in range(0, len(v)):
         f.write('{}'.format(max(-128,min(127,int(round(128*v[i]))))))
         if (i!=len(v)-1):
             f.write(',')
         else:
             break;
         if (i%8==7):
             f.write("\n   ")
         else:
             f.write(" ")
     #print(v, file=f)
     f.write('\n};\n\n')
     return;

 def binary_crossentrop2(y_true, y_pred):
         return K.mean(2*K.abs(y_true-0.5) * K.binary_crossentropy(y_pred, y_true), axis=-1)


 #model = load_model(sys.argv[1], custom_objects={'binary_crossentrop2': binary_crossentrop2})
 main_input = Input(shape=(None, 25), name='main_input')
 x = Dense(32, activation='tanh')(main_input)
 x = GRU(24, activation='tanh', recurrent_activation='sigmoid', return_sequences=True)(x)
 x = Dense(2, activation='sigmoid')(x)
 model = Model(inputs=main_input, outputs=x)
 model.load_weights(sys.argv[1])

 weights = model.get_weights()

 f = open(sys.argv[2], 'w')

 f.write('/*This file is automatically generated from a Keras model*/\n\n')
 f.write('#ifdef HAVE_CONFIG_H\n#include "config.h"\n#endif\n\n#include "mlp.h"\n\n')

 printVector(f, weights[0], 'layer0_weights')
 printVector(f, weights[1], 'layer0_bias')
 printVector(f, weights[2], 'layer1_weights')
 printVector(f, weights[3], 'layer1_recur_weights')
 printVector(f, weights[4], 'layer1_bias')
 printVector(f, weights[5], 'layer2_weights')
 printVector(f, weights[6], 'layer2_bias')

 f.write('const DenseLayer layer0 = {\n   layer0_bias,\n   layer0_weights,\n   25, 32, 0\n};\n\n')
 f.write('const GRULayer layer1 = {\n   layer1_bias,\n   layer1_weights,\n   layer1_recur_weights,\n   32, 24\n};\n\n')
 f.write('const DenseLayer layer2 = {\n   layer2_bias,\n   layer2_weights,\n   24, 2, 1\n};\n\n')

 f.close()
	#!/usr/bin/python

	from __future__ import print_function

	from keras.models import Sequential
	from keras.models import Model
	from keras.layers import Input
	from keras.layers import Dense
	from keras.layers import LSTM
	from keras.layers import GRU
	from keras.models import load_model
	from keras import backend as K
	import sys

	import numpy as np

	def printVector(f, vector, name):
	v = np.reshape(vector, (-1));
	#print('static const float ', name, '[', len(v), '] = \n', file=f)
	f.write('static const opus_int8 {}[{}] = {{\n '.format(name, len(v)))
	for i in range(0, len(v)):
	f.write('{}'.format(max(-128,min(127,int(round(128*v[i]))))))
	if (i!=len(v)-1):
	f.write(',')
	else:
	break;
	if (i%8==7):
	f.write("\n ")
	else:
	f.write(" ")
	#print(v, file=f)
	f.write('\n};\n\n')
	return;

	def binary_crossentrop2(y_true, y_pred):
	return K.mean(2K.abs(y_true-0.5) K.binary_crossentropy(y_pred, y_true), axis=-1)


	#model = load_model(sys.argv[1], custom_objects={'binary_crossentrop2': binary_crossentrop2})
	main_input = Input(shape=(None, 25), name='main_input')
	x = Dense(32, activation='tanh')(main_input)
	x = GRU(24, activation='tanh', recurrent_activation='sigmoid', return_sequences=True)(x)
	x = Dense(2, activation='sigmoid')(x)
	model = Model(inputs=main_input, outputs=x)
	model.load_weights(sys.argv[1])

	weights = model.get_weights()

	f = open(sys.argv[2], 'w')

	f.write('/This file is automatically generated from a Keras model/\n\n')
	f.write('#ifdef HAVE_CONFIG_H\n#include "config.h"\n#endif\n\n#include "mlp.h"\n\n')

	printVector(f, weights[0], 'layer0_weights')
	printVector(f, weights[1], 'layer0_bias')
	printVector(f, weights[2], 'layer1_weights')
	printVector(f, weights[3], 'layer1_recur_weights')
	printVector(f, weights[4], 'layer1_bias')
	printVector(f, weights[5], 'layer2_weights')
	printVector(f, weights[6], 'layer2_bias')

	f.write('const DenseLayer layer0 = {\n layer0_bias,\n layer0_weights,\n 25, 32, 0\n};\n\n')
	f.write('const GRULayer layer1 = {\n layer1_bias,\n layer1_weights,\n layer1_recur_weights,\n 32, 24\n};\n\n')
	f.write('const DenseLayer layer2 = {\n layer2_bias,\n layer2_weights,\n 24, 2, 1\n};\n\n')

	f.close()