基于RNN生成古诗词
1、generate_poetry.py
古诗清洗、过滤较长或较短古诗、过滤即非五言也非七言的古诗。为每个字生成唯一的数字ID、每首古诗用数字ID表示。
#-*- coding:utf-8 -*-
import numpy as np
from io import open
import sys
import collections
class Poetry:
def __init__(self):
self.filename = "poetry"
self.poetrys = self.get_poetrys()
self.poetry_vectors,self.word_to_id,self.id_to_word = self.gen_poetry_vectors()
self.poetry_vectors_size = len(self.poetry_vectors)
self._index_in_epoch = 0
#打开数据集对里面古诗进行处理
def get_poetrys(self):
poetrys = list()
f = open(self.filename,"r", encoding='utf-8')
#获取古诗内容
for line in f.readlines():
#返回古诗的标题和内容,由于不需要使用标题,所以这里用_代替
_,content = line.strip('\n').strip().split(':')
#去掉古诗中的空格
content = content.replace(' ','')
#过滤含有特殊符号的唐诗
if(not content or '_' in content or '(' in content or '(' in content or "□" in content
or '《' in content or '[' in content or ':' in content or ':'in content or '_' in content):
continue
#过滤较长或较短的唐诗
if len(content) < 5 or len(content) > 79:
continue
#用|代替古诗中的标点符号
content_list = content.replace(',', '|').replace('。', '|').split('|')
flag = True
#过滤既非五言也非七言的唐诗
for sentence in content_list:
slen = len(sentence)
if 0 == slen:
continue
if 5 != slen and 7 != slen:
flag = False
break
if flag:
#每首古诗以'['开头、']'结尾
poetrys.append('[' + content + ']')
return poetrys
def gen_poetry_vectors(self):
words = sorted(set(''.join(self.poetrys) + ' '))
#数字ID到每个字的映射
id_to_word = {i: word for i, word in enumerate(words)}
#每个字到数字ID的映射
word_to_id = {v: k for k, v in id_to_word.items()}
to_id = lambda word: word_to_id.get(word)
#唐诗向量化
poetry_vectors = [list(map(to_id, poetry)) for poetry in self.poetrys]
return poetry_vectors,word_to_id,id_to_word
def next_batch(self,batch_size):
#取数据,断言在出现错误的时候返回
assert batch_size < self.poetry_vectors_size
start = self._index_in_epoch
self._index_in_epoch += batch_size
#取完一轮数据,打乱唐诗集合,重新取数据
if self._index_in_epoch > self.poetry_vectors_size:
np.random.shuffle(self.poetry_vectors)
start = 0
self._index_in_epoch = batch_size
end = self._index_in_epoch
#一个batch的长度
batches = self.poetry_vectors[start:end]
x_batch = np.full((batch_size, max(map(len, batches))), self.word_to_id[' '], np.int32)
for row in range(batch_size):
x_batch[row,:len(batches[row])] = batches[row]
y_batch = np.copy(x_batch)
y_batch[:,:-1] = x_batch[:,1:]
y_batch[:,-1] = x_batch[:, 0]
return x_batch,y_batch2、poetry_model.py
两层RNN网络模型,采用LSTM模型
#-*- coding:utf-8 -*-
import tensorflow as tf
class poetryModel:
#定义权重和偏置项
def rnn_variable(self,rnn_size,words_size):
with tf.variable_scope('variable'):
w = tf.get_variable("w", [rnn_size, words_size])
b = tf.get_variable("b", [words_size])
return w,b
#损失函数
def loss_model(self,words_size,targets,logits):
targets = tf.reshape(targets,[-1])
loss = tf.contrib.legacy_seq2seq.sequence_loss_by_example([logits], [targets], [tf.ones_like(targets, dtype=tf.float32)],words_size)
loss = tf.reduce_mean(loss)
return loss
#优化算子
def optimizer_model(self,loss,learning_rate):
tvars = tf.trainable_variables()
grads, _ = tf.clip_by_global_norm(tf.gradients(loss, tvars), 5)
train_op = tf.train.AdamOptimizer(learning_rate)
optimizer = train_op.apply_gradients(zip(grads, tvars))
return optimizer
#每个字向量化
def embedding_variable(self,inputs,rnn_size,words_size):
with tf.variable_scope('embedding'):
with tf.device("cpu:0"):
embedding = tf.get_variable('embedding', [words_size, rnn_size])
input_data = tf.nn.embedding_lookup(embedding,inputs)
return input_data
#构建LSTM模型
def create_model(self,inputs,batch_size,rnn_size,words_size,num_layers,is_training,keep_prob):
lstm = tf.contrib.rnn.BasicLSTMCell(num_units=rnn_size,state_is_tuple=True)
input_data = self.embedding_variable(inputs,rnn_size,words_size)
if is_training:
lstm = tf.nn.rnn_cell.DropoutWrapper(lstm, output_keep_prob=keep_prob)
input_data = tf.nn.dropout(input_data,keep_prob)
cell = tf.contrib.rnn.MultiRNNCell([lstm] * num_layers,state_is_tuple=True)
initial_state = cell.zero_state(batch_size, tf.float32)
outputs,last_state = tf.nn.dynamic_rnn(cell,input_data,initial_state=initial_state)
outputs = tf.reshape(outputs,[-1, rnn_size])
w,b = self.rnn_variable(rnn_size,words_size)
logits = tf.matmul(outputs,w) + b
probs = tf.nn.softmax(logits)
return logits,probs,initial_state,last_state3、train_poetry.py
训练LSTM模型
#-*- coding:utf-8 -*-
from generate_poetry import Poetry
from poetry_model import poetryModel
import tensorflow as tf
import numpy as np
if __name__ == '__main__':
batch_size = 50
epoch = 20
rnn_size = 128
num_layers = 2
poetrys = Poetry()
words_size = len(poetrys.word_to_id)
inputs = tf.placeholder(tf.int32, [batch_size, None])
targets = tf.placeholder(tf.int32, [batch_size, None])
keep_prob = tf.placeholder(tf.float32, name='keep_prob')
model = poetryModel()
logits,probs,initial_state,last_state = model.create_model(inputs,batch_size,
rnn_size,words_size,num_layers,True,keep_prob)
loss = model.loss_model(words_size,targets,logits)
learning_rate = tf.Variable(0.0, trainable=False)
optimizer = model.optimizer_model(loss,learning_rate)
saver = tf.train.Saver()
with tf.Session() as sess:
sess.run(tf.global_variables_initializer())
sess.run(tf.assign(learning_rate, 0.002 * 0.97 ))
next_state = sess.run(initial_state)
step = 0
while True:
x_batch,y_batch = poetrys.next_batch(batch_size)
feed = {inputs:x_batch,targets:y_batch,initial_state:next_state,keep_prob:0.5}
train_loss, _ ,next_state = sess.run([loss,optimizer,last_state], feed_dict=feed)
print("step:%d loss:%f" % (step,train_loss))
if step > 40000:
break
if step%1000 == 0:
n = step/1000
sess.run(tf.assign(learning_rate, 0.002 * (0.97 ** n)))
step += 1
saver.save(sess,"poetry_model.ckpt")4、predict_poetry.py
生成古诗,随机取一个汉字,根据该汉字生成一首古诗
#-*- coding:utf-8 -*-
from generate_poetry import Poetry
from poetry_model import poetryModel
from operator import itemgetter
import tensorflow as tf
import numpy as np
import random
if __name__ == '__main__':
batch_size = 1
rnn_size = 128
num_layers = 2
poetrys = Poetry()
words_size = len(poetrys.word_to_id)
def to_word(prob):
prob = prob[0]
indexs, _ = zip(*sorted(enumerate(prob), key=itemgetter(1)))
rand_num = int(np.random.rand(1)*10);
index_sum = len(indexs)
max_rate = prob[indexs[(index_sum-1)]]
if max_rate > 0.9 :
sample = indexs[(index_sum-1)]
else:
sample = indexs[(index_sum-1-rand_num)]
return poetrys.id_to_word[sample]
inputs = tf.placeholder(tf.int32, [batch_size, None])
keep_prob = tf.placeholder(tf.float32, name='keep_prob')
model = poetryModel()
logits,probs,initial_state,last_state = model.create_model(inputs,batch_size,
rnn_size,words_size,num_layers,False,keep_prob)
saver = tf.train.Saver()
with tf.Session() as sess:
sess.run(tf.global_variables_initializer())
saver.restore(sess,"poetry_model.ckpt")
next_state = sess.run(initial_state)
x = np.zeros((1, 1))
x[0,0] = poetrys.word_to_id['[']
feed = {inputs: x, initial_state: next_state, keep_prob: 1}
predict, next_state = sess.run([probs, last_state], feed_dict=feed)
word = to_word(predict)
poem = ''
while word != ']':
poem += word
x = np.zeros((1, 1))
x[0, 0] = poetrys.word_to_id[word]
feed = {inputs: x, initial_state: next_state, keep_prob: 1}
predict, next_state = sess.run([probs, last_state], feed_dict=feed)
word = to_word(predict)
print (poem)运行结果如下:
代码来自于腾讯云的TensorFlow系列实验,古诗数据上面也有,我这里也贴一下连接:
http://tensorflow-1253902462.cosgz.myqcloud.com/rnn_poetry/poetry
为了节省时间,也可以直接下载训练好的模型
http://tensorflow-1253902462.cosgz.myqcloud.com/rnn_poetry/poetry_model.zip