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ops.py
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ops.py
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import tensorflow as tf
import tensorflow.contrib as tf_contrib
# Xavier : tf_contrib.layers.xavier_initializer()
# He : tf_contrib.layers.variance_scaling_initializer()
# Normal : tf.random_normal_initializer(mean=0.0, stddev=0.02)
# l2_decay : tf_contrib.layers.l2_regularizer(0.0001)
weight_init = tf_contrib.layers.variance_scaling_initializer()
weight_regularizer = tf_contrib.layers.l2_regularizer(0.0001)
##################################################################################
# Layer
##################################################################################
def conv(x, channels, kernel=4, stride=2, padding='SAME', use_bias=True, scope='conv_0'):
with tf.variable_scope(scope):
x = tf.layers.conv2d(inputs=x, filters=channels,
kernel_size=kernel, kernel_initializer=weight_init,
kernel_regularizer=weight_regularizer,
strides=stride, use_bias=use_bias, padding=padding)
return x
def fully_conneted(x, units, use_bias=True, scope='fully_0'):
with tf.variable_scope(scope):
x = flatten(x)
x = tf.layers.dense(x, units=units, kernel_initializer=weight_init, kernel_regularizer=weight_regularizer, use_bias=use_bias)
return x
def transform_dimension(x, num_dimension):
return tf.layers.conv2d(inputs=x, filters=num_dimension, kernel_size=1)
def resblock(x_init, channels, is_training=True, use_bias=True, downsample=False, scope='resblock') :
with tf.variable_scope(scope) :
x = batch_norm(x_init, is_training, scope='batch_norm_0')
x = relu(x)
if downsample :
x = conv(x, channels, kernel=3, stride=2, use_bias=use_bias, scope='conv_0')
x_init = conv(x_init, channels, kernel=1, stride=2, use_bias=use_bias, scope='conv_init')
else :
x = conv(x, channels, kernel=3, stride=1, use_bias=use_bias, scope='conv_0')
x = batch_norm(x, is_training, scope='batch_norm_1')
x = relu(x)
x = conv(x, channels, kernel=3, stride=1, use_bias=use_bias, scope='conv_1')
return x + x_init
def bottle_resblock(x_init, channels, is_training=True, use_bias=True, downsample=False, scope='bottle_resblock') :
with tf.variable_scope(scope) :
x = batch_norm(x_init, is_training, scope='batch_norm_1x1_front')
shortcut = relu(x)
x = conv(shortcut, channels, kernel=1, stride=1, use_bias=use_bias, scope='conv_1x1_front')
x = batch_norm(x, is_training, scope='batch_norm_3x3')
x = relu(x)
if downsample :
x = conv(x, channels, kernel=3, stride=2, use_bias=use_bias, scope='conv_0')
shortcut = conv(shortcut, channels*4, kernel=1, stride=2, use_bias=use_bias, scope='conv_init')
else :
x = conv(x, channels, kernel=3, stride=1, use_bias=use_bias, scope='conv_0')
shortcut = conv(shortcut, channels * 4, kernel=1, stride=1, use_bias=use_bias, scope='conv_init')
x = batch_norm(x, is_training, scope='batch_norm_1x1_back')
x = relu(x)
x = conv(x, channels*4, kernel=1, stride=1, use_bias=use_bias, scope='conv_1x1_back')
return x + shortcut
def get_residual_layer(res_n) :
x = []
if res_n == 18 :
x = [2, 2, 2, 2]
if res_n == 34 :
x = [3, 4, 6, 3]
if res_n == 50 :
x = [3, 4, 6, 3]
if res_n == 101 :
x = [3, 4, 23, 3]
if res_n == 152 :
x = [3, 8, 36, 3]
return x
##################################################################################
# Sampling
##################################################################################
def flatten(x) :
return tf.layers.flatten(x)
def global_avg_pooling(x):
gap = tf.reduce_mean(x, axis=[1, 2], keepdims=True)
return gap
def avg_pooling(x) :
return tf.layers.average_pooling2d(x, pool_size=2, strides=2, padding='SAME')
def max_pooling(x):
return tf.layers.max_pooling2d(x, pool_size=3, strides=2)
##################################################################################
# Activation function
##################################################################################
def relu(x):
return tf.nn.relu(x)
##################################################################################
# Normalization function
##################################################################################
def batch_norm(x, is_training=True, scope='batch_norm'):
return tf_contrib.layers.batch_norm(x,
decay=0.9, epsilon=1e-05,
center=True, scale=True, updates_collections=None,
is_training=is_training, scope=scope)
##################################################################################
# Loss function
##################################################################################
def classification_loss(logit, label) :
loss = tf.reduce_mean(tf.nn.softmax_cross_entropy_with_logits_v2(labels=label, logits=logit))
prediction = tf.equal(tf.argmax(logit, -1), tf.argmax(label, -1))
accuracy = tf.reduce_mean(tf.cast(prediction, tf.float32))
return loss, accuracy