Examples of words:

  1. ball
  2. encyclopedia
  3. tableau

Examples of random strings:

  1. qxbogsac
  2. jgaynj
  3. rnnfdwpm

Of course it may happen that a random string will actually be a word in some language or look like one. But basically a human being is able to say it something looks 'random' or not, basically just by checking if you are able to pronounce it or not.

I was trying to calculate entropy to distinguish those two but it's far from perfect. Do you have any other ideas, algorithms that works?

There is one important requirement though, I can't use heavy-weight libraries like nltk or use dictionaries. Basically what I need is some simple and quick heuristic that works in most cases.

  • 5
    your problem is well addressed here it's a book anyway using dictionaries is not the best option and any reason for not using a medium-weight library like ntlk?
    – K DawG
    Sep 10, 2013 at 11:24
  • 1
    To be honest I don't think you will find a simple solution to this relatively complex problem. But I would love to hear about it if you do. My view is that dictionaries would be your best bet for a 'simple' solution that works in at least a lot of scenarios, but this does not address the whole problem as it would only include known words, not other strings that could be pronounced. Sep 10, 2013 at 11:29
  • 4
    Aside from the obvious complexity of trying to build a degree of human intuition into the algorithm there is the added problem that any two humans may give different answers about what is pronounceable and what is not. Sep 10, 2013 at 11:32
  • 2
    Possible duplicate of Is there any way to detect strings like putjbtghguhjjjanika?
    – arturomp
    Nov 23, 2018 at 23:13

6 Answers 6


I developed a Python 3 package called Nostril for a problem closely related to what the OP asked: deciding whether text strings extracted during source-code mining are class/function/variable/etc. identifiers or random gibberish. It does not use a dictionary, but it does incorporate a rather large table of n-gram frequencies to support its probabilistic assessment of text strings. (I'm not sure if that qualifies as a "dictionary".) The approach does not check pronunciation, and its specialization may make it unsuitable for general word/nonword detection; nevertheless, perhaps it will be useful for either the OP or someone else looking to solve a similar problem.

Example: the following code,

from nostril import nonsense
real_test = ['bunchofwords', 'getint', 'xywinlist', 'ioFlXFndrInfo',
             'DMEcalPreshowerDigis', 'httpredaksikatakamiwordpresscom']
junk_test = ['faiwtlwexu', 'asfgtqwafazfyiur', 'zxcvbnmlkjhgfdsaqwerty']
for s in real_test + junk_test:
    print('{}: {}'.format(s, 'nonsense' if nonsense(s) else 'real'))

will produce the following output:

bunchofwords: real
getint: real
xywinlist: real
ioFlXFndrInfo: real
DMEcalPreshowerDigis: real
httpredaksikatakamiwordpresscom: real
faiwtlwexu: nonsense
asfgtqwafazfyiur: nonsense
zxcvbnmlkjhgfdsaqwerty: nonsense

Caveat I am not a Natural Language Expert

Assuming what ever mentioned in the link If You Can Raed Tihs, You Msut Be Raelly Smrat is authentic, a simple approach would be

  1. Have an English (I believe its language antagonistic) dictionary
  2. Create a python dict of the words, with keys as the first and last character of the words in the dictionary

    words = defaultdict()
    with open("your_dict.txt") as fin:
         for word in fin:
  3. Now for any given word, search the dictionary (remember key is the first and last character of the word)

    for matches in words[needle[0] + needle[-1]]:
  4. Compare if the characters in the value of the dictionary and your needle matches

    for match in words[needle[0] + needle[-1]]:
        if sorted(match) == sorted(needle):
             print "Human Readable Word"

A comparably slower approach would be to use difflib.get_close_matches(word, possibilities[, n][, cutoff])

  • The OP explicitly stated "I can't use ... dictionaries"
    – mhucka
    Jan 29, 2018 at 17:57

If you really mean that your metric of randomness is pronounceability, you're getting into the realm of phonotactics: the allowed sequences of sounds in a language. As @ChrisPosser points out in his comment to your question, these allowed sequences of sounds are language-specific.

This question only makes sense within a specific language.

Whichever language you choose, you might have some luck with an n-gram model trained over the letters themselves (as opposed to the words, which is the usual approach). Then you can calculate a score for a particular string and set a threshold under which a string is random and over which a string is something like a word.

EDIT: Someone has done this already and actually implemented it: https://stackoverflow.com/a/6298193/583834


Works quite well for me:

VOWELS = "aeiou"
PHONES = ['sh', 'ch', 'ph', 'sz', 'cz', 'sch', 'rz', 'dz']

def isWord(word):
    if word:
        consecutiveVowels = 0
        consecutiveConsonents = 0
        for idx, letter in enumerate(word.lower()):
            vowel = True if letter in VOWELS else False

            if idx:
                prev = word[idx-1]               
                prevVowel = True if prev in VOWELS else False
                if not vowel and letter == 'y' and not prevVowel:
                    vowel = True

                if prevVowel != vowel:
                    consecutiveVowels = 0
                    consecutiveConsonents = 0

            if vowel:
                consecutiveVowels += 1
                consecutiveConsonents +=1

            if consecutiveVowels >= 3 or consecutiveConsonents > 3:
                return False

            if consecutiveConsonents == 3:
                subStr = word[idx-2:idx+1]
                if any(phone in subStr for phone in PHONES):
                    consecutiveConsonents -= 1
                return False                

    return True

Use PyDictionary. You can install PyDictionary using following command.

easy_install -U PyDictionary

Now in code:

from PyDictionary import PyDictionary

a = ['ball', 'asdfg']

for item in a:
  x = dictionary.meaning(item)
  if x==None:
    print item + ': Not a valid word'
    print item + ': Valid'

As far as I know, you can use PyDictionary for some other languages then english.

  • The OP explicitly stated "I can't use ... dictionaries".
    – mhucka
    Jan 29, 2018 at 17:55

I wrote this logic to detect number of consecutive vowels and consonants in a string. You can choose the threshold based on the language.

def get_num_vowel_bunches(txt,num_consq = 3):
    len_txt = len(txt)
    num_viol = 0
    if len_txt >=num_consq:
        pos_iter = re.finditer('[aeiou]',txt)
        pos_mat = np.zeros((num_consq,len_txt),dtype=int)
        for idx in pos_iter:
            pos_mat[0,idx.span()[0]] = 1
        for i in np.arange(1,num_consq):
            pos_mat[i,0:-1] = pos_mat[i-1,1:]
        sum_vec = np.sum(pos_mat,axis=0)
        num_viol = sum(sum_vec == num_consq)
    return num_viol

def get_num_consonent_bunches(txt,num_consq = 3):
    len_txt = len(txt)
    num_viol = 0
    if len_txt >=num_consq:
        pos_iter = re.finditer('[bcdfghjklmnpqrstvwxz]',txt)
        pos_mat = np.zeros((num_consq,len_txt),dtype=int)
        for idx in pos_iter:
            pos_mat[0,idx.span()[0]] = 1
        for i in np.arange(1,num_consq):
            pos_mat[i,0:-1] = pos_mat[i-1,1:]
        sum_vec = np.sum(pos_mat,axis=0)
        num_viol = sum(sum_vec == num_consq)
    return num_viol

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