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"""
This example shows how to use an LSTM sentiment classification model trained using Keras in spaCy . spaCy splits the document into sentences , and each sentence is classified using the LSTM . The scores for the sentences are then aggregated to give the document score . This kind of hierarchical model is quite difficult in " pure " Keras or Tensorflow , but it ' s very effective. The Keras example on this dataset performs quite poorly, because it cuts off the documents so that they ' re a fixed size . This hurts review accuracy a lot , because people often summarise their rating in the final sentence
Prerequisites :
spacy download en_vectors_web_lg
pip install keras == 2.0 .9
Compatible with : spaCy v2 .0 .0 +
"""
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import plac
import random
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import pathlib
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import cytoolz
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import numpy
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from keras . models import Sequential , model_from_json
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from keras . layers import LSTM , Dense , Embedding , Bidirectional
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from keras . layers import TimeDistributed
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from keras . optimizers import Adam
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import thinc . extra . datasets
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from spacy . compat import pickle
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import spacy
class SentimentAnalyser ( object ) :
@classmethod
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def load ( cls , path , nlp , max_length = 100 ) :
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with ( path / ' config.json ' ) . open ( ) as file_ :
model = model_from_json ( file_ . read ( ) )
with ( path / ' model ' ) . open ( ' rb ' ) as file_ :
lstm_weights = pickle . load ( file_ )
embeddings = get_embeddings ( nlp . vocab )
model . set_weights ( [ embeddings ] + lstm_weights )
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return cls ( model , max_length = max_length )
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def __init__ ( self , model , max_length = 100 ) :
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self . _model = model
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self . max_length = max_length
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def __call__ ( self , doc ) :
X = get_features ( [ doc ] , self . max_length )
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y = self . _model . predict ( X )
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self . set_sentiment ( doc , y )
def pipe ( self , docs , batch_size = 1000 , n_threads = 2 ) :
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for minibatch in cytoolz . partition_all ( batch_size , docs ) :
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minibatch = list ( minibatch )
sentences = [ ]
for doc in minibatch :
sentences . extend ( doc . sents )
Xs = get_features ( sentences , self . max_length )
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ys = self . _model . predict ( Xs )
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for sent , label in zip ( sentences , ys ) :
sent . doc . sentiment + = label - 0.5
for doc in minibatch :
yield doc
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def set_sentiment ( self , doc , y ) :
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doc . sentiment = float ( y [ 0 ] )
# Sentiment has a native slot for a single float.
# For arbitrary data storage, there's:
# doc.user_data['my_data'] = y
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def get_labelled_sentences ( docs , doc_labels ) :
labels = [ ]
sentences = [ ]
for doc , y in zip ( docs , doc_labels ) :
for sent in doc . sents :
sentences . append ( sent )
labels . append ( y )
return sentences , numpy . asarray ( labels , dtype = ' int32 ' )
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def get_features ( docs , max_length ) :
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docs = list ( docs )
Xs = numpy . zeros ( ( len ( docs ) , max_length ) , dtype = ' int32 ' )
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for i , doc in enumerate ( docs ) :
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j = 0
for token in doc :
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vector_id = token . vocab . vectors . find ( key = token . orth )
if vector_id > = 0 :
Xs [ i , j ] = vector_id
else :
Xs [ i , j ] = 0
j + = 1
if j > = max_length :
break
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return Xs
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def train ( train_texts , train_labels , dev_texts , dev_labels ,
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lstm_shape , lstm_settings , lstm_optimizer , batch_size = 100 ,
nb_epoch = 5 , by_sentence = True ) :
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print ( " Loading spaCy " )
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nlp = spacy . load ( ' en_vectors_web_lg ' )
nlp . add_pipe ( nlp . create_pipe ( ' sentencizer ' ) )
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embeddings = get_embeddings ( nlp . vocab )
model = compile_lstm ( embeddings , lstm_shape , lstm_settings )
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print ( " Parsing texts... " )
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train_docs = list ( nlp . pipe ( train_texts ) )
dev_docs = list ( nlp . pipe ( dev_texts ) )
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if by_sentence :
train_docs , train_labels = get_labelled_sentences ( train_docs , train_labels )
dev_docs , dev_labels = get_labelled_sentences ( dev_docs , dev_labels )
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train_X = get_features ( train_docs , lstm_shape [ ' max_length ' ] )
dev_X = get_features ( dev_docs , lstm_shape [ ' max_length ' ] )
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model . fit ( train_X , train_labels , validation_data = ( dev_X , dev_labels ) ,
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epochs = nb_epoch , batch_size = batch_size )
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return model
def compile_lstm ( embeddings , shape , settings ) :
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model = Sequential ( )
model . add (
Embedding (
embeddings . shape [ 0 ] ,
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embeddings . shape [ 1 ] ,
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input_length = shape [ ' max_length ' ] ,
trainable = False ,
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weights = [ embeddings ] ,
mask_zero = True
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)
)
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model . add ( TimeDistributed ( Dense ( shape [ ' nr_hidden ' ] , use_bias = False ) ) )
model . add ( Bidirectional ( LSTM ( shape [ ' nr_hidden ' ] ,
recurrent_dropout = settings [ ' dropout ' ] ,
dropout = settings [ ' dropout ' ] ) ) )
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model . add ( Dense ( shape [ ' nr_class ' ] , activation = ' sigmoid ' ) )
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model . compile ( optimizer = Adam ( lr = settings [ ' lr ' ] ) , loss = ' binary_crossentropy ' ,
metrics = [ ' accuracy ' ] )
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return model
def get_embeddings ( vocab ) :
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return vocab . vectors . data
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def evaluate ( model_dir , texts , labels , max_length = 100 ) :
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nlp = spacy . load ( ' en_vectors_web_lg ' )
nlp . add_pipe ( nlp . create_pipe ( ' sentencizer ' ) )
nlp . add_pipe ( SentimentAnalyser . load ( model_dir , nlp , max_length = max_length ) )
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correct = 0
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i = 0
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for doc in nlp . pipe ( texts , batch_size = 1000 , n_threads = 4 ) :
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correct + = bool ( doc . sentiment > = 0.5 ) == bool ( labels [ i ] )
i + = 1
return float ( correct ) / i
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def read_data ( data_dir , limit = 0 ) :
examples = [ ]
for subdir , label in ( ( ' pos ' , 1 ) , ( ' neg ' , 0 ) ) :
for filename in ( data_dir / subdir ) . iterdir ( ) :
with filename . open ( ) as file_ :
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text = file_ . read ( )
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examples . append ( ( text , label ) )
random . shuffle ( examples )
if limit > = 1 :
examples = examples [ : limit ]
return zip ( * examples ) # Unzips into two lists
@plac.annotations (
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train_dir = ( " Location of training file or directory " ) ,
dev_dir = ( " Location of development file or directory " ) ,
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model_dir = ( " Location of output model directory " , ) ,
is_runtime = ( " Demonstrate run-time usage " , " flag " , " r " , bool ) ,
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nr_hidden = ( " Number of hidden units " , " option " , " H " , int ) ,
max_length = ( " Maximum sentence length " , " option " , " L " , int ) ,
dropout = ( " Dropout " , " option " , " d " , float ) ,
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learn_rate = ( " Learn rate " , " option " , " e " , float ) ,
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nb_epoch = ( " Number of training epochs " , " option " , " i " , int ) ,
batch_size = ( " Size of minibatches for training LSTM " , " option " , " b " , int ) ,
nr_examples = ( " Limit to N examples " , " option " , " n " , int )
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)
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def main ( model_dir = None , train_dir = None , dev_dir = None ,
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is_runtime = False ,
nr_hidden = 64 , max_length = 100 , # Shape
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dropout = 0.5 , learn_rate = 0.001 , # General NN config
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nb_epoch = 5 , batch_size = 256 , nr_examples = - 1 ) : # Training params
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if model_dir is not None :
model_dir = pathlib . Path ( model_dir )
if train_dir is None or dev_dir is None :
imdb_data = thinc . extra . datasets . imdb ( )
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if is_runtime :
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if dev_dir is None :
dev_texts , dev_labels = zip ( * imdb_data [ 1 ] )
else :
dev_texts , dev_labels = read_data ( dev_dir )
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acc = evaluate ( model_dir , dev_texts , dev_labels , max_length = max_length )
print ( acc )
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else :
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if train_dir is None :
train_texts , train_labels = zip ( * imdb_data [ 0 ] )
else :
print ( " Read data " )
train_texts , train_labels = read_data ( train_dir , limit = nr_examples )
if dev_dir is None :
dev_texts , dev_labels = zip ( * imdb_data [ 1 ] )
else :
dev_texts , dev_labels = read_data ( dev_dir , imdb_data , limit = nr_examples )
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train_labels = numpy . asarray ( train_labels , dtype = ' int32 ' )
dev_labels = numpy . asarray ( dev_labels , dtype = ' int32 ' )
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lstm = train ( train_texts , train_labels , dev_texts , dev_labels ,
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{ ' nr_hidden ' : nr_hidden , ' max_length ' : max_length , ' nr_class ' : 1 } ,
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{ ' dropout ' : dropout , ' lr ' : learn_rate } ,
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{ } ,
nb_epoch = nb_epoch , batch_size = batch_size )
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weights = lstm . get_weights ( )
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if model_dir is not None :
with ( model_dir / ' model ' ) . open ( ' wb ' ) as file_ :
pickle . dump ( weights [ 1 : ] , file_ )
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with ( model_dir / ' config.json ' ) . open ( ' w ' ) as file_ :
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file_ . write ( lstm . to_json ( ) )
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if __name__ == ' __main__ ' :
plac . call ( main )