Project name is a module that collects different sentence embedding methods in a database to make a large text corpus searchable and accessable.
We provide our pre-trained English sentence encoder from our paper and our SentEval evaluation toolkit.
Recent changes: TODO
This code is written in Python. Dependencies include:
- Python 2/3
- Pytorch (recent version)
- NLTK >= 3
- Look at requirements.txt
Create a environment (TODO)
mkdir GloVe
curl -Lo GloVe/glove.840B.300d.zip http://nlp.stanford.edu/data/glove.840B.300d.zip
unzip GloVe/glove.840B.300d.zip -d GloVe/
mkdir fastText
curl -Lo fastText/crawl-300d-2M.vec.zip https://dl.fbaipublicfiles.com/fasttext/vectors-english/crawl-300d-2M.vec.zip
unzip fastText/crawl-300d-2M.vec.zip -d fastText/Get started with the following steps: (TODO)
0.0) Download our InferSent models (V1 trained with GloVe, V2 trained with fastText)[147MB]:
mkdir encoder
curl -Lo encoder/infersent1.pkl https://dl.fbaipublicfiles.com/infersent/infersent1.pkl
curl -Lo encoder/infersent2.pkl https://dl.fbaipublicfiles.com/infersent/infersent2.pklNote that infersent1 is trained with GloVe (which have been trained on text preprocessed with the PTB tokenizer) and infersent2 is trained with fastText (which have been trained on text preprocessed with the MOSES tokenizer). The latter also removes the padding of zeros with max-pooling which was inconvenient when embedding sentences outside of their batches.
0.1) Make sure you have the NLTK tokenizer by running the following once:
import nltk
nltk.download('punkt')1) Load our pre-trained model (in encoder/):
from models import InferSent
V = 2
MODEL_PATH = 'encoder/infersent%s.pkl' % V
params_model = {'bsize': 64, 'word_emb_dim': 300, 'enc_lstm_dim': 2048,
'pool_type': 'max', 'dpout_model': 0.0, 'version': V}
infersent = InferSent(params_model)
infersent.load_state_dict(torch.load(MODEL_PATH))2) Set word vector path for the model:
W2V_PATH = 'fastText/crawl-300d-2M.vec'
infersent.set_w2v_path(W2V_PATH)3) Build the vocabulary of word vectors (i.e keep only those needed):
infersent.build_vocab(sentences, tokenize=True)where sentences is your list of n sentences. You can update your vocabulary using infersent.update_vocab(sentences), or directly load the K most common English words with infersent.build_vocab_k_words(K=100000). If tokenize is True (by default), sentences will be tokenized using NTLK.
4) Encode your sentences (list of n sentences):
embeddings = infersent.encode(sentences, tokenize=True)This outputs a numpy array with n vectors of dimension 4096. Speed is around 1000 sentences per second with batch size 128 on a single GPU.
5) Visualize the importance that our model attributes to each word:
We provide a function to visualize the importance of each word in the encoding of a sentence:
infersent.visualize('A man plays an instrument.', tokenize=True)
TODO Please consider citing [1] if you found this code useful.
Supervised Learning of Universal Sentence Representations from Natural Language Inference Data (EMNLP 2017)
[1] A. Conneau, D. Kiela, H. Schwenk, L. Barrault, A. Bordes, Supervised Learning of Universal Sentence Representations from Natural Language Inference Data
@InProceedings{conneau-EtAl:2017:EMNLP2017,
author = {Conneau, Alexis and Kiela, Douwe and Schwenk, Holger and Barrault, Lo\"{i}c and Bordes, Antoine},
title = {Supervised Learning of Universal Sentence Representations from Natural Language Inference Data},
booktitle = {Proceedings of the 2017 Conference on Empirical Methods in Natural Language Processing},
month = {September},
year = {2017},
address = {Copenhagen, Denmark},
publisher = {Association for Computational Linguistics},
pages = {670--680},
url = {https://www.aclweb.org/anthology/D17-1070}
}
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