There are so many guides on how to tokenize a sentence, but i didn't find any on how to do the opposite.

 import nltk
 words = nltk.word_tokenize("I've found a medicine for my disease.")
 result I get is: ['I', "'ve", 'found', 'a', 'medicine', 'for', 'my', 'disease', '.']

Is there any function than reverts the tokenized sentence to the original state. The function tokenize.untokenize() for some reason doesn't work.


I know that I can do for example this and this probably solves the problem but I am curious is there an integrated function for this:

result = ' '.join(sentence).replace(' , ',',').replace(' .','.').replace(' !','!')
result = result.replace(' ?','?').replace(' : ',': ').replace(' \'', '\'')   
  • How did you get 've from a sentence that used have? Is that what nltk actually does, or a transcription error? Feb 22, 2014 at 0:46
  • I have modified the tokenised result. Anyway it is for a general case so you can put I've in the original sentence.
    – Brana
    Feb 22, 2014 at 0:55
  • I am pretty sure that what you are requesting isn't possible. If you just have the bare strings "I" and "'ve" it is easy for a human to look at them and say "Oh, those two should go together without a space" but no simple program could figure that out. If the original parts-of-speech information that NLTK figured out from the original sentence was available, that could be used to untokenize, but tokenize.untokenize() was designed to work with tokenize.tokenize() and not nltk.tokenize(). You might want to read the free online book for NLTK: nltk.org/book
    – steveha
    Feb 25, 2014 at 5:38
  • I edited the question so the source text has 've to match the answer text.
    – steveha
    Feb 25, 2014 at 5:39

10 Answers 10


You can use "treebank detokenizer" - TreebankWordDetokenizer:

from nltk.tokenize.treebank import TreebankWordDetokenizer
TreebankWordDetokenizer().detokenize(['the', 'quick', 'brown'])
# 'The quick brown'

There is also MosesDetokenizer which was in nltk but got removed because of the licensing issues, but it is available as a Sacremoses standalone package.

  • 1
    It's installable using pip install nltk now (v3.2.2). Feb 7, 2017 at 14:57
  • 1
    @KirillBulygin thanks for the update! I've put this information into the answer.
    – alecxe
    Feb 7, 2017 at 15:00
  • 4
    As of April 10, 2018, moses is not available in NLTK due to a licensing issue github.com/nltk/nltk/issues/2000
    – gss
    Jun 21, 2018 at 16:09
  • 2
    But it seems to have moved here github.com/alvations/sacremoses
    – gss
    Jun 21, 2018 at 16:34
  • 2
    When I use detokenize, sometimes I get a space before punctuation (before a period or comma) which I don't want. Anyone else have this problem or know what might be the issue?
    – Ken
    Mar 14, 2021 at 21:27

To reverse word_tokenize from nltk, i suggest looking in http://www.nltk.org/_modules/nltk/tokenize/punkt.html#PunktLanguageVars.word_tokenize and do some reverse engineering.

Short of doing crazy hacks on nltk, you can try this:

>>> import nltk
>>> import string
>>> nltk.word_tokenize("I've found a medicine for my disease.")
['I', "'ve", 'found', 'a', 'medicine', 'for', 'my', 'disease', '.']
>>> tokens = nltk.word_tokenize("I've found a medicine for my disease.")
>>> "".join([" "+i if not i.startswith("'") and i not in string.punctuation else i for i in tokens]).strip()
"I've found a medicine for my disease."
  • Thanks. There are probable more cases but never mind.
    – Brana
    Feb 26, 2014 at 12:51
  • 1
    BTW, there's a detokenizer in that was contributed but has yet been merged in NLTK, do take a look at github.com/nltk/nltk/pull/1282
    – alvas
    Jun 19, 2016 at 14:42
  • 1
    Update (Jan'17): it has been merged but not released
    – julien_c
    Jan 30, 2017 at 19:26
  • It should be released in the latest NLTK 3.2.2 , pip install -U nltk.
    – alvas
    Jan 30, 2017 at 22:35

use token_utils.untokenize from here

import re
def untokenize(words):
    Untokenizing a text undoes the tokenizing operation, restoring
    punctuation and spaces to the places that people expect them to be.
    Ideally, `untokenize(tokenize(text))` should be identical to `text`,
    except for line breaks.
    text = ' '.join(words)
    step1 = text.replace("`` ", '"').replace(" ''", '"').replace('. . .',  '...')
    step2 = step1.replace(" ( ", " (").replace(" ) ", ") ")
    step3 = re.sub(r' ([.,:;?!%]+)([ \'"`])', r"\1\2", step2)
    step4 = re.sub(r' ([.,:;?!%]+)$', r"\1", step3)
    step5 = step4.replace(" '", "'").replace(" n't", "n't").replace(
         "can not", "cannot")
    step6 = step5.replace(" ` ", " '")
    return step6.strip()

 tokenized = ['I', "'ve", 'found', 'a', 'medicine', 'for', 'my','disease', '.']
 "I've found a medicine for my disease."
  • While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. - From Review Jan 8, 2016 at 22:06
  • @Rogalski Suggested changes made.
    – Renklauf
    Jan 11, 2016 at 2:29
from nltk.tokenize.treebank import TreebankWordDetokenizer
TreebankWordDetokenizer().detokenize(['the', 'quick', 'brown'])
# 'The quick brown'
  • 2
    While this code may answer the question, it is better to explain how to solve the problem and provide the code as an example or reference. Code-only answers can be confusing and lack context. Jun 24, 2018 at 11:34
  • 2
    There is no not-redundant sentence to add.
    – Uri
    Jun 24, 2018 at 14:01

I propose to keep offsets in tokenization: (token, offset). I think, this information is useful for processing over the original sentence.

import re
from nltk.tokenize import word_tokenize

def offset_tokenize(text):
    tail = text
    accum = 0
    tokens = self.tokenize(text)
    info_tokens = []
    for tok in tokens:
        scaped_tok = re.escape(tok)
        m = re.search(scaped_tok, tail)
        start, end = m.span()
        # global offsets
        gs = accum + start
        ge = accum + end
        accum += end
        # keep searching in the rest
        tail = tail[end:]
        info_tokens.append((tok, (gs, ge)))
    return info_token

sent = '''I've found a medicine for my disease.

This is line:3.'''

toks_offsets = offset_tokenize(sent)

for t in toks_offsets:
(tok, offset) = t
print (tok == sent[offset[0]:offset[1]]), tok, sent[offset[0]:offset[1]]


True I I
True 've 've
True found found
True a a
True medicine medicine
True for for
True my my
True disease disease
True . .
True This This
True is is
True line:3 line:3
True . .

For me, it worked when I installed python nltk 3.2.5,

pip install -U nltk


import nltk

from nltk.tokenize.moses import MosesDetokenizer

If you are using insides pandas dataframe, then

df['detoken']=df['token_column'].apply(lambda x: detokenizer.detokenize(x, return_str=True))
  • '''import nltk; nltk.download('perluniprops'); nltk.download('nonbreaking_prefixes')'''; from nltk.tokenize.moses import MosesTokenizer; from nltk.tokenize.moses import MosesDetokenizer; text = 'Pete ate a large cake. Sam has a big mouth.'; text_ = MosesTokenizer().tokenize(text); text1 = ' '.join(MosesDetokenizer().detokenize(text_)) # works for multiple sentences as well while the other methods (except Renklauf's) don't.
    – mikey
    Sep 12, 2019 at 7:36

The reason there is no simple answer is you actually need the span locations of the original tokens in the string. If you don't have that, and you aren't reverse engineering your original tokenization, your reassembled string is based on guesses about the tokenization rules that were used. If your tokenizer didn't give you spans, you can still do this if you have three things:

1) The original string

2) The original tokens

3) The modified tokens (I'm assuming you have changed the tokens in some way, because that is the only application for this I can think of if you already have #1)

Use the original token set to identify spans (wouldn't it be nice if the tokenizer did that?) and modify the string from back to front so the spans don't change as you go.

Here I'm using TweetTokenizer but it shouldn't matter as long as the tokenizer you use doesn't change the values of your tokens so that they aren't actually in the original string.

string="One morning, when Gregor Samsa woke from troubled dreams, he found himself transformed in his bed into a horrible vermin."

def detokenize(string,tokens,replacement_tokens):
    for token in tokens:
        while not string[cursor:cursor+len(token)]==token and cursor<len(string):
        if cursor==len(string):break
    for start,end in spans[::-1]:
    return string

>>> detokenize(string,tokens,replacement_tokens)
'One morning, when Gregor Samsa woke from troubled dreams, he found himself transformed in his bed into a cute vermin.'

The reason tokenize.untokenize does not work is because it needs more information than just the words. Here is an example program using tokenize.untokenize:

from StringIO import StringIO
import tokenize

sentence = "I've found a medicine for my disease.\n"
tokens = tokenize.generate_tokens(StringIO(sentence).readline)
print tokenize.untokenize(tokens)

Additional Help: Tokenize - Python Docs | Potential Problem

  • thanks, but I have to convert specifically the output back to sentence. Is there any way to add the necessary info to the tokenizes output - ['I', "'ve", 'found', 'a', 'medicine', 'for', 'my', 'disease', '.']
    – Brana
    Feb 22, 2014 at 2:57
  • I would do this in the way in the update but i found it really strange that nltk doesn't have such a method.
    – Brana
    Feb 22, 2014 at 2:59
  • @Brana Sorry, I am not too familiar with nltk. I tried looking through the docs, but couldn't find untokenize.
    – dparpyani
    Feb 22, 2014 at 3:02
  • thanks. I didn't eaither so i thought it was just me,
    – Brana
    Feb 22, 2014 at 22:00

I am using following code without any major library function for detokeization purpose. I am using detokenization for some specific tokens

_SPLITTER_ = r"([-.,/:!?\";)(])"

def basic_detokenizer(sentence):
""" This is the basic detokenizer helps us to resolves the issues we created by  our tokenizer"""
detokenize_sentence =[]
words = sentence.split(' ')
pos = 0
while( pos < len(words)):
    if words[pos] in '-/.' and pos > 0 and pos < len(words) - 1:
        left = detokenize_sentence.pop()
        detokenize_sentence.append(left +''.join(words[pos:pos + 2]))
        pos +=1
    elif  words[pos] in '[(' and pos < len(words) - 1:
        detokenize_sentence.append(''.join(words[pos:pos + 2]))   
        pos +=1        
    elif  words[pos] in ']).,:!?;' and pos > 0:
        left  = detokenize_sentence.pop()
        detokenize_sentence.append(left + ''.join(words[pos:pos + 1]))            
    pos +=1
return ' '.join(detokenize_sentence)

Use the join function:

You could just do a ' '.join(words) to get back the original string.

  • Not really, since there shouldn't be a space between I and 've. Feb 22, 2014 at 0:45
  • Ah okay! I went by the original string. May be a nltk specific I am unaware about.
    – shaktimaan
    Feb 22, 2014 at 0:46
  • Nltk keeps the punctuation, but it has got some additional spaces.
    – Brana
    Feb 22, 2014 at 0:53

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