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cnn_lstm.py
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import tensorflow as tf
import numpy as np
from IPython import embed
class CNN_LSTM(object):
def __init__(self, sequence_length, num_classes, vocab_size, embedding_size, filter_sizes, num_filters, l2_reg_lambda=0.0,num_hidden=100):
# PLACEHOLDERS
self.input_x = tf.placeholder(tf.int32, [None, sequence_length], name="input_x") # X - The Data
self.input_y = tf.placeholder(tf.float32, [None, num_classes], name="input_y") # Y - The Lables
self.dropout_keep_prob = tf.placeholder(tf.float32, name="dropout_keep_prob") # Dropout
l2_loss = tf.constant(0.0) # Keeping track of l2 regularization loss
#1. EMBEDDING LAYER ################################################################
with tf.device('/cpu:0'), tf.name_scope("embedding"):
self.W = tf.Variable(tf.random_uniform([vocab_size, embedding_size], -1.0, 1.0),name="W")
self.embedded_chars = tf.nn.embedding_lookup(self.W, self.input_x)
self.embedded_chars_expanded = tf.expand_dims(self.embedded_chars, -1)
#2. CONVOLUTION LAYER + MAXPOOLING LAYER (per filter) ###############################
pooled_outputs = []
for i, filter_size in enumerate(filter_sizes):
with tf.name_scope("conv-maxpool-%s" % filter_size):
# CONVOLUTION LAYER
filter_shape = [filter_size, embedding_size, 1, num_filters]
W = tf.Variable(tf.truncated_normal(filter_shape, stddev=0.1), name="W")
b = tf.Variable(tf.constant(0.1, shape=[num_filters]), name="b")
conv = tf.nn.conv2d(self.embedded_chars_expanded, W,strides=[1, 1, 1, 1],padding="VALID",name="conv")
# NON-LINEARITY
h = tf.nn.relu(tf.nn.bias_add(conv, b), name="relu")
# MAXPOOLING
pooled = tf.nn.max_pool(h, ksize=[1, sequence_length - filter_size + 1, 1, 1], strides=[1, 1, 1, 1], padding='VALID', name="pool")
pooled_outputs.append(pooled)
# COMBINING POOLED FEATURES
num_filters_total = num_filters * len(filter_sizes)
self.h_pool = tf.concat(pooled_outputs, 3)
self.h_pool_flat = tf.reshape(self.h_pool, [-1, num_filters_total])
#3. DROPOUT LAYER ###################################################################
with tf.name_scope("dropout"):
self.h_drop = tf.nn.dropout(self.h_pool_flat, self.dropout_keep_prob)
#4. LSTM LAYER ######################################################################
cell = tf.contrib.rnn.LSTMCell(num_hidden,state_is_tuple=True)
self.h_drop_exp = tf.expand_dims(self.h_drop,-1)
val,state = tf.nn.dynamic_rnn(cell,self.h_drop_exp,dtype=tf.float32)
#embed()
val2 = tf.transpose(val, [1, 0, 2])
last = tf.gather(val2, int(val2.get_shape()[0]) - 1)
out_weight = tf.Variable(tf.random_normal([num_hidden, num_classes]))
out_bias = tf.Variable(tf.random_normal([num_classes]))
with tf.name_scope("output"):
#lstm_final_output = val[-1]
#embed()
self.scores = tf.nn.xw_plus_b(last, out_weight,out_bias, name="scores")
self.predictions = tf.nn.softmax(self.scores, name="predictions")
with tf.name_scope("loss"):
self.losses = tf.nn.softmax_cross_entropy_with_logits(logits=self.scores,labels=self.input_y)
self.loss = tf.reduce_mean(self.losses, name="loss")
with tf.name_scope("accuracy"):
self.correct_pred = tf.equal(tf.argmax(self.predictions, 1),tf.argmax(self.input_y, 1))
self.accuracy = tf.reduce_mean(tf.cast(self.correct_pred, "float"),name="accuracy")
print "(!) LOADED CNN-LSTM! :)"
#embed()