I have downloaded pretrained glove vector file from the internet. It is a .txt file. I am unable to load and access it. It is easy to load and access a word vector binary file using gensim but I don't know how to do it when it is a text file format.

Thanks in advance

10 Answers 10


glove model files are in a word - vector format. You can open the textfile to verify this. Here is a small snippet of code you can use to load a pretrained glove file:

import numpy as np

def loadGloveModel(File):
    print("Loading Glove Model")
    f = open(File,'r')
    gloveModel = {}
    for line in f:
        splitLines = line.split()
        word = splitLines[0]
        wordEmbedding = np.array([float(value) for value in splitLines[1:]])
        gloveModel[word] = wordEmbedding
    print(len(gloveModel)," words loaded!")
    return gloveModel

You can then access the word vectors by simply using the gloveModel variable.

print gloveModel['hello']

  • 7
    I'm wondering if there is a faster way of doing this. I'm using code similar to that above, but it would take around 27 hours to process the whole 6billion token embeddings. Any ideas of how to do this faster? – Edward Burgin Aug 15 '17 at 12:31
  • @EdwardBurgin, it is taking me 1 minute to complete the whole file. please share the "similar code" that u are referring to in your comment. – TheRajVJain Oct 30 '17 at 9:33
  • $ python test_glove.py Loading Glove Model Done. 400000 words loaded! Traceback (most recent call last): File "test_glove.py", line 16, in <module> print(model['hello']) NameError: name 'model' is not defined – Mona Jalal Apr 23 '18 at 3:56
  • @MonaJalal Do model = loadGloveModel("filename.txt") then print statement will work fine. – Ritwik Mar 9 '19 at 16:45
  • 3
    @jchook add f = open(gloveFile,'r', encoding='utf-8') to read the glove file and it will work – Naveen Dennis Jan 31 '20 at 14:01

You can do it much faster with pandas:

import pandas as pd
import csv

words = pd.read_table(glove_data_file, sep=" ", index_col=0, header=None, quoting=csv.QUOTE_NONE)

Then to get the vector for a word:

def vec(w):
  return words.loc[w].as_matrix()

And to find the closest word to a vector:

words_matrix = words.as_matrix()

def find_closest_word(v):
  diff = words_matrix - v
  delta = np.sum(diff * diff, axis=1)
  i = np.argmin(delta)
  return words.iloc[i].name
  • 4
    Although, the time to load the model reduces by almost half but the access time increases by 1000x. loc against dict access. I think, personally i would prefer lower access time, coz that will be affecting the training time. since the model making is single time effort, its better to invest the time there and save it once and for all. do correct me if i m wrong. – TheRajVJain Oct 30 '17 at 9:31
  • 3
    You should use a couple more arguments in read_table: na_values=None, keep_default_na=False. Otherwise it will consider many valid strings (e.g. 'null', 'NA', etc) as nan floating point values. – Eli Korvigo Feb 16 '18 at 23:19
  • 4
    read_table is deprecated. Use read_csv with the same parameters instead. – Artur Pschybysz Apr 12 '19 at 11:43

I suggest using gensim to do everything. You can read the file, and also benefit from having a lot of methods already implemented on this great package.

Suppose you generated GloVe vectors using the C++ program and that your "-save-file" parameter is "vectors". Glove executable will generate you two files, "vectors.bin" and "vectors.txt".

Use glove2word2vec to convert GloVe vectors in text format into the word2vec text format:

from gensim.scripts.glove2word2vec import glove2word2vec
glove2word2vec(glove_input_file="vectors.txt", word2vec_output_file="gensim_glove_vectors.txt")

Finally, read the word2vec txt to a gensim model using KeyedVectors:

from gensim.models.keyedvectors import KeyedVectors
glove_model = KeyedVectors.load_word2vec_format("gensim_glove_vectors.txt", binary=False)

Now you can use gensim word2vec methods (for example, similarity) as you'd like.

  • It looks like glove2word2vec give warning This function is deprecated, use smart_open.open instead. See the migration notes for details: https://github.com/RaRe-Technologies/smart_open/blob/master/README.rst#migrating-to-the-new-open-function. I guess gensim function needs to be updated – user1700890 Sep 16 '19 at 16:20
  • This warning is gone in version 3.8.3 of gensim. glove2word2vec() is 1000% the way to go. – dmn Feb 23 at 15:02

I found this approach faster.

import pandas as pd

df = pd.read_csv('glove.840B.300d.txt', sep=" ", quoting=3, header=None, index_col=0)
glove = {key: val.values for key, val in df.T.items()}

Save the dictionary:

import pickle
with open('glove.840B.300d.pkl', 'wb') as fp:
    pickle.dump(glove, fp)

Here's a one liner if all you want is the embedding matrix

np.loadtxt(path, usecols=range(1, dim+1), comments=None)

where path is path to your downloaded GloVe file and dim is the dimension of the word embedding.

If you want both the words and corresponding vectors you can do

glove = np.loadtxt(path, dtype='str', comments=None)

and seperate the words and vectors as follows

words = glove[:, 0]
vectors = glove[:, 1:].astype('float')

Loading word embedding from a text file (in my case the glove.42B.300d embeddings) takes a bit long (147.2s on my machine).

What helps is converting the text file first into two new files: a text file that contains the words only (e.g. embeddings.vocab) and a binary file which contains the embedding vectors as numpy-structure (e.g. embeddings.npy).

Once converted, it takes me only 4.96s to load the same embeddings into the memory. This approach ends a up with exactly the same dictionary as if you load it from the text file. It is as efficient in access time and does not require any additional frameworks, but a lot faster in loading time.

With this code you convert your embedding text file to the two new files:

def convert_to_binary(embedding_path):
    f = codecs.open(embedding_path + ".txt", 'r', encoding='utf-8')
    wv = []

    with codecs.open(embedding_path + ".vocab", "w", encoding='utf-8') as vocab_write:
        count = 0
        for line in f:
            splitlines = line.split()
            wv.append([float(val) for val in splitlines[1:]])
        count += 1

    np.save(embedding_path + ".npy", np.array(wv))

And with this method you load it efficiently into your memory:

def load_word_emb_binary(embedding_file_name_w_o_suffix):
    print("Loading binary word embedding from {0}.vocab and {0}.npy".format(embedding_file_name_w_o_suffix))

    with codecs.open(embedding_file_name_w_o_suffix + '.vocab', 'r', 'utf-8') as f_in:
        index2word = [line.strip() for line in f_in]

    wv = np.load(embedding_file_name_w_o_suffix + '.npy')
    word_embedding_map = {}
    for i, w in enumerate(index2word):
        word_embedding_map[w] = wv[i]

    return word_embedding_map

Disclaimer: This code is shamelessly stolen from https://blog.ekbana.com/loading-glove-pre-trained-word-embedding-model-from-text-file-faster-5d3e8f2b8455. But it might help in this thread.


Python3 version which also handles bigrams and trigrams:

import numpy as np

def load_glove_model(glove_file):
    print("Loading Glove Model")
    f = open(glove_file, 'r')
    model = {}
    vector_size = 300
    for line in f:
        split_line = line.split()
        word = " ".join(split_line[0:len(split_line) - vector_size])
        embedding = np.array([float(val) for val in split_line[-vector_size:]])
        model[word] = embedding
    print("Done.\n" + str(len(model)) + " words loaded!")
    return model
  • 1
    could you add a short description about how it handles the bigrams, please? – Srichakradhar Feb 20 at 0:12
import os
import numpy as np

# store all the pre-trained word vectors
print('Loading word vectors...')
word2vec = {}
with open(os.path.join('glove/glove.6B.%sd.txt' % EMBEDDING_DIM)) as f: #enter the path where you unzipped the glove file
  # is just a space-separated text file in the format:
  # word vec[0] vec[1] vec[2] ...
    for line in f:
        values = line.split()
        word = values[0]
        vec = np.asarray(values[1:], dtype='float32')
        word2vec[word] = vec
print('Found %s word vectors.' % len(word2vec))

This code takes some time to store glove embeddings on shelf, but loading it is quite faster as compared to other approaches.

import os
import numpy as np
from contextlib import closing
import shelve

def store_glove_to_shelf(glove_file_path,shelf):
    print('Loading Glove')
    with open(os.path.join(glove_file_path)) as f:
        for line in f:
            values = line.split()
            word = values[0]
            vec = np.asarray(values[1:], dtype='float32')
            shelf[word] = vec

shelf_file_name = "glove_embeddings"
glove_file_path = "glove/glove.840B.300d.txt"

# Storing glove embeddings to shelf for faster load
with closing(shelve.open(shelf_file_name + '.shelf', 'c')) as shelf:
    print("Stored glove embeddings from {} to {}".format(glove_file_path,shelf_file_name+'.shelf'))

# To reuse the glove embeddings stored in shelf
with closing(shelve.open(shelf_file_name + '.shelf')) as embeddings_index:
    # USE embeddings_index here , which is a dictionary
    print("Loaded glove embeddings from {}".format(shelf_file_name+'.shelf'))
    print("Found glove embeddings with {} words".format(len(embeddings_index)))
EMBEDDING_LIFE = 'path/to/your/glove.txt'

def get_coefs(word,*arr): 
      return word, np.asarray(arr, dtype='float32')

embeddings_index = dict(get_coefs(*o.strip().split()) for o in open(EMBEDDING_FILE))

all_embs = np.stack(embeddings_index.values())
emb_mean,emb_std = all_embs.mean(), all_embs.std()
word_index = tokenizer.word_index
nb_words = min(max_features, len(word_index))

embedding_matrix = np.random.normal(emb_mean, emb_std, (nb_words, embed_size))

for word, i in word_index.items():
if i >= max_features: continue
embedding_vector = embeddings_index.get(word)
if embedding_vector is not None: embedding_matrix[i] = embedding_vector
  • Please provide a comment to your answer. Why is it better than already accepted one ? – NatNgs Feb 6 '18 at 16:50
  • this is coming from kaggle and it blows up on some glove files, e.g. 800B.300d – Andrey Vykhodtsev Feb 28 '18 at 20:09

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