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vgg19.py
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vgg19.py
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import tensorflow as tf
import numpy as np
import time
import sys
VGG_MEAN = [103.939, 116.779, 123.68]
class Vgg19:
def __init__(self, vgg19_npy_path='weight/vgg19.npy'):
if vgg19_npy_path is not None:
self.data_dict = np.load(vgg19_npy_path, encoding='latin1', allow_pickle=True).item()
print("npy file loaded ------- ",vgg19_npy_path)
else:
self.data_dict = None
print("npy file load error!")
sys.exit(1)
def build(self, rgb, include_fc=False):
"""
load variable from npy to build the VGG
input format: bgr image with shape [batch_size, h, w, 3]
scale: (-1, 1)
"""
start_time = time.time()
rgb_scaled = ((rgb + 1) / 2) * 255.0 # [-1, 1] ~ [0, 255]
red, green, blue = tf.split(axis=3, num_or_size_splits=3, value=rgb_scaled)
bgr = tf.concat(axis=3, values=[blue - VGG_MEAN[0],
green - VGG_MEAN[1],
red - VGG_MEAN[2]])
self.conv1_1 = self.conv_layer(bgr, "conv1_1")
self.conv1_2 = self.conv_layer(self.conv1_1, "conv1_2")
self.pool1 = self.max_pool(self.conv1_2, 'pool1')
self.conv2_1 = self.conv_layer(self.pool1, "conv2_1")
self.conv2_2 = self.conv_layer(self.conv2_1, "conv2_2")
self.pool2 = self.max_pool(self.conv2_2, 'pool2')
self.conv3_1 = self.conv_layer(self.pool2, "conv3_1")
self.conv3_2 = self.conv_layer(self.conv3_1, "conv3_2")
self.conv3_3 = self.conv_layer(self.conv3_2, "conv3_3")
self.conv3_4 = self.conv_layer(self.conv3_3, "conv3_4")
self.pool3 = self.max_pool(self.conv3_4, 'pool3')
self.conv4_1 = self.conv_layer(self.pool3, "conv4_1")
self.conv4_2 = self.conv_layer(self.conv4_1, "conv4_2")
self.conv4_3 = self.conv_layer(self.conv4_2, "conv4_3")
self.conv4_4 = self.conv_layer(self.conv4_3, "conv4_4")
self.pool4 = self.max_pool(self.conv4_4, 'pool4')
self.conv5_1 = self.conv_layer(self.pool4, "conv5_1")
self.conv5_2 = self.conv_layer(self.conv5_1, "conv5_2")
self.conv5_3 = self.conv_layer(self.conv5_2, "conv5_3")
self.conv5_4 = self.conv_layer(self.conv5_3, "conv5_4")
self.pool5 = self.max_pool(self.conv5_4, 'pool5')
if include_fc:
self.fc6 = self.fc_layer(self.pool5, "fc6")
assert self.fc6.get_shape().as_list()[1:] == [4096]
self.relu6 = tf.nn.relu(self.fc6)
self.fc7 = self.fc_layer(self.relu6, "fc7")
self.relu7 = tf.nn.relu(self.fc7)
self.fc8 = self.fc_layer(self.relu7, "fc8")
self.prob = tf.nn.softmax(self.fc8, name="prob")
self.data_dict = None
print(("build model finished: %fs" % (time.time() - start_time)))
def avg_pool(self, bottom, name):
return tf.nn.avg_pool(bottom, ksize=[1, 2, 2, 1], strides=[1, 2, 2, 1], padding='SAME', name=name)
def max_pool(self, bottom, name):
return tf.nn.max_pool(bottom, ksize=[1, 2, 2, 1], strides=[1, 2, 2, 1], padding='SAME', name=name)
def conv_layer(self, bottom, name):
with tf.variable_scope(name):
filt = self.get_conv_filter(name)
conv = tf.nn.conv2d(bottom, filt, [1, 1, 1, 1], padding='SAME')
conv_biases = self.get_bias(name)
bias = tf.nn.bias_add(conv, conv_biases)
relu = tf.nn.relu(bias)
return relu
def fc_layer(self, bottom, name):
with tf.variable_scope(name):
shape = bottom.get_shape().as_list()
dim = 1
for d in shape[1:]:
dim *= d
x = tf.reshape(bottom, [-1, dim])
weights = self.get_fc_weight(name)
biases = self.get_bias(name)
# Fully connected layer. Note that the '+' operation automatically
# broadcasts the biases.
fc = tf.nn.bias_add(tf.matmul(x, weights), biases)
return fc
def get_conv_filter(self, name):
return tf.constant(self.data_dict[name][0], name="filter")
def get_bias(self, name):
return tf.constant(self.data_dict[name][1], name="biases")
def get_fc_weight(self, name):
return tf.constant(self.data_dict[name][0], name="weights")