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model.py
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model.py
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import numpy as np
import os, time, sys
import tensorflow as tf
from tensorflow.contrib.rnn import LSTMCell
from tensorflow.contrib.crf import crf_log_likelihood
from tensorflow.contrib.crf import viterbi_decode
from data import pad_sequences, batch_yield
from utils import get_logger
from eval import conlleval
class BiLSTM_CRF(object):
def __init__(self, args, embeddings, tag2label, vocab, paths, config):
self.batch_size = args.batch_size
self.epoch_num = args.epoch
self.hidden_dim = args.hidden_dim
self.embeddings = embeddings
self.CRF = args.CRF
self.update_embedding = args.update_embedding
self.dropout_keep_prob = args.dropout
self.optimizer = args.optimizer
self.lr = args.lr
self.clip_grad = args.clip
self.tag2label = tag2label
self.num_tags = len(tag2label)
self.vocab = vocab
self.shuffle = args.shuffle
self.model_path = paths['model_path']
self.summary_path = paths['summary_path']
self.logger = get_logger(paths['log_path'])
self.result_path = paths['result_path']
self.config = config
def build_graph(self):
self.add_placeholders()
self.lookup_layer_op()
self.biLSTM_layer_op()
self.softmax_pred_op()
self.loss_op()
self.trainstep_op()
self.init_op()
def add_placeholders(self):
self.word_ids = tf.placeholder(tf.int32, shape=[None, None], name="word_ids")
self.labels = tf.placeholder(tf.int32, shape=[None, None], name="labels")
self.sequence_lengths = tf.placeholder(tf.int32, shape=[None], name="sequence_lengths")
self.dropout_pl = tf.placeholder(dtype=tf.float32, shape=[], name="dropout")
self.lr_pl = tf.placeholder(dtype=tf.float32, shape=[], name="lr")
def lookup_layer_op(self):
with tf.variable_scope("words"):
_word_embeddings = tf.Variable(self.embeddings,
dtype=tf.float32,
trainable=self.update_embedding,
name="_word_embeddings")
word_embeddings = tf.nn.embedding_lookup(params=_word_embeddings,
ids=self.word_ids,
name="word_embeddings")
self.word_embeddings = tf.nn.dropout(word_embeddings, self.dropout_pl)
def biLSTM_layer_op(self):
with tf.variable_scope("bi-lstm"):
cell_fw = LSTMCell(self.hidden_dim)
cell_bw = LSTMCell(self.hidden_dim)
(output_fw_seq, output_bw_seq), _ = tf.nn.bidirectional_dynamic_rnn(
cell_fw=cell_fw,
cell_bw=cell_bw,
inputs=self.word_embeddings,
sequence_length=self.sequence_lengths,
dtype=tf.float32)
output = tf.concat([output_fw_seq, output_bw_seq], axis=-1)
output = tf.nn.dropout(output, self.dropout_pl)
with tf.variable_scope("proj"):
W = tf.get_variable(name="W",
shape=[2 * self.hidden_dim, self.num_tags],
initializer=tf.contrib.layers.xavier_initializer(),
dtype=tf.float32)
b = tf.get_variable(name="b",
shape=[self.num_tags],
initializer=tf.zeros_initializer(),
dtype=tf.float32)
s = tf.shape(output)
output = tf.reshape(output, [-1, 2*self.hidden_dim])
pred = tf.matmul(output, W) + b
self.logits = tf.reshape(pred, [-1, s[1], self.num_tags])
def loss_op(self):
if self.CRF:
log_likelihood, self.transition_params = crf_log_likelihood(inputs=self.logits,
tag_indices=self.labels,
sequence_lengths=self.sequence_lengths)
self.loss = -tf.reduce_mean(log_likelihood)
else:
losses = tf.nn.sparse_softmax_cross_entropy_with_logits(logits=self.logits,
labels=self.labels)
mask = tf.sequence_mask(self.sequence_lengths)
losses = tf.boolean_mask(losses, mask)
self.loss = tf.reduce_mean(losses)
tf.summary.scalar("loss", self.loss)
def softmax_pred_op(self):
if not self.CRF:
self.labels_softmax_ = tf.argmax(self.logits, axis=-1)
self.labels_softmax_ = tf.cast(self.labels_softmax_, tf.int32)
def trainstep_op(self):
with tf.variable_scope("train_step"):
self.global_step = tf.Variable(0, name="global_step", trainable=False)
if self.optimizer == 'Adam':
optim = tf.train.AdamOptimizer(learning_rate=self.lr_pl)
elif self.optimizer == 'Adadelta':
optim = tf.train.AdadeltaOptimizer(learning_rate=self.lr_pl)
elif self.optimizer == 'Adagrad':
optim = tf.train.AdagradOptimizer(learning_rate=self.lr_pl)
elif self.optimizer == 'RMSProp':
optim = tf.train.RMSPropOptimizer(learning_rate=self.lr_pl)
elif self.optimizer == 'Momentum':
optim = tf.train.MomentumOptimizer(learning_rate=self.lr_pl, momentum=0.9)
elif self.optimizer == 'SGD':
optim = tf.train.GradientDescentOptimizer(learning_rate=self.lr_pl)
else:
optim = tf.train.GradientDescentOptimizer(learning_rate=self.lr_pl)
grads_and_vars = optim.compute_gradients(self.loss)
grads_and_vars_clip = [[tf.clip_by_value(g, -self.clip_grad, self.clip_grad), v] for g, v in grads_and_vars]
self.train_op = optim.apply_gradients(grads_and_vars_clip, global_step=self.global_step)
def init_op(self):
self.init_op = tf.global_variables_initializer()
def add_summary(self, sess):
"""
:param sess:
:return:
"""
self.merged = tf.summary.merge_all()
self.file_writer = tf.summary.FileWriter(self.summary_path, sess.graph)
def train(self, train, dev):
"""
:param train:
:param dev:
:return:
"""
saver = tf.train.Saver(tf.global_variables())
with tf.Session(config=self.config) as sess:
sess.run(self.init_op)
self.add_summary(sess)
for epoch in range(self.epoch_num):
self.run_one_epoch(sess, train, dev, self.tag2label, epoch, saver)
def test(self, test):
saver = tf.train.Saver()
with tf.Session(config=self.config) as sess:
self.logger.info('=========== testing ===========')
saver.restore(sess, self.model_path)
label_list, seq_len_list = self.dev_one_epoch(sess, test)
self.evaluate(label_list, seq_len_list, test)
def demo_one(self, sess, sent):
"""
:param sess:
:param sent:
:return:
"""
label_list = []
for seqs, labels in batch_yield(sent, self.batch_size, self.vocab, self.tag2label, shuffle=False):
label_list_, _ = self.predict_one_batch(sess, seqs)
label_list.extend(label_list_)
label2tag = {}
for tag, label in self.tag2label.items():
label2tag[label] = tag if label != 0 else label
tag = [label2tag[label] for label in label_list[0]]
return tag
def run_one_epoch(self, sess, train, dev, tag2label, epoch, saver):
"""
:param sess:
:param train:
:param dev:
:param tag2label:
:param epoch:
:param saver:
:return:
"""
num_batches = (len(train) + self.batch_size - 1) // self.batch_size
start_time = time.strftime("%Y-%m-%d %H:%M:%S", time.localtime())
batches = batch_yield(train, self.batch_size, self.vocab, self.tag2label, shuffle=self.shuffle)
for step, (seqs, labels) in enumerate(batches):
sys.stdout.write(' processing: {} batch / {} batches.'.format(step + 1, num_batches) + '\r')
step_num = epoch * num_batches + step + 1
feed_dict, _ = self.get_feed_dict(seqs, labels, self.lr, self.dropout_keep_prob)
_, loss_train, summary, step_num_ = sess.run([self.train_op, self.loss, self.merged, self.global_step],
feed_dict=feed_dict)
if step + 1 == 1 or (step + 1) % 300 == 0 or step + 1 == num_batches:
self.logger.info(
'{} epoch {}, step {}, loss: {:.4}, global_step: {}'.format(start_time, epoch + 1, step + 1,
loss_train, step_num))
self.file_writer.add_summary(summary, step_num)
if step + 1 == num_batches:
saver.save(sess, self.model_path, global_step=step_num)
self.logger.info('===========validation / test===========')
label_list_dev, seq_len_list_dev = self.dev_one_epoch(sess, dev)
self.evaluate(label_list_dev, seq_len_list_dev, dev, epoch)
def get_feed_dict(self, seqs, labels=None, lr=None, dropout=None):
"""
:param seqs:
:param labels:
:param lr:
:param dropout:
:return: feed_dict
"""
word_ids, seq_len_list = pad_sequences(seqs, pad_mark=0)
feed_dict = {self.word_ids: word_ids,
self.sequence_lengths: seq_len_list}
if labels is not None:
labels_, _ = pad_sequences(labels, pad_mark=0)
feed_dict[self.labels] = labels_
if lr is not None:
feed_dict[self.lr_pl] = lr
if dropout is not None:
feed_dict[self.dropout_pl] = dropout
return feed_dict, seq_len_list
def dev_one_epoch(self, sess, dev):
"""
:param sess:
:param dev:
:return:
"""
label_list, seq_len_list = [], []
for seqs, labels in batch_yield(dev, self.batch_size, self.vocab, self.tag2label, shuffle=False):
label_list_, seq_len_list_ = self.predict_one_batch(sess, seqs)
label_list.extend(label_list_)
seq_len_list.extend(seq_len_list_)
return label_list, seq_len_list
def predict_one_batch(self, sess, seqs):
"""
:param sess:
:param seqs:
:return: label_list
seq_len_list
"""
feed_dict, seq_len_list = self.get_feed_dict(seqs, dropout=1.0)
if self.CRF:
logits, transition_params = sess.run([self.logits, self.transition_params],
feed_dict=feed_dict)
label_list = []
for logit, seq_len in zip(logits, seq_len_list):
viterbi_seq, _ = viterbi_decode(logit[:seq_len], transition_params)
label_list.append(viterbi_seq)
return label_list, seq_len_list
else:
label_list = sess.run(self.labels_softmax_, feed_dict=feed_dict)
return label_list, seq_len_list
def evaluate(self, label_list, seq_len_list, data, epoch=None):
"""
:param label_list:
:param seq_len_list:
:param data:
:param epoch:
:return:
"""
label2tag = {}
for tag, label in self.tag2label.items():
label2tag[label] = tag if label != 0 else label
model_predict = []
for label_, (sent, tag) in zip(label_list, data):
tag_ = [label2tag[label__] for label__ in label_]
sent_res = []
if len(label_) != len(sent):
print(sent)
print(len(label_))
print(tag)
for i in range(len(sent)):
sent_res.append([sent[i], tag[i], tag_[i]])
model_predict.append(sent_res)
epoch_num = str(epoch+1) if epoch != None else 'test'
label_path = os.path.join(self.result_path, 'label_' + epoch_num)
metric_path = os.path.join(self.result_path, 'result_metric_' + epoch_num)
for _ in conlleval(model_predict, label_path, metric_path):
self.logger.info(_)