For example, Suppose the word "happy" is given, I want to generate other forms of happy such as happiness, happily... etc.

I have read some other previous questions on Stackoverflow and NLTK references. However, there are only POS tagging, morph just like identifying the grammatical form of certain words within sentences, not generating a list of different words. Is there anyone who bumped into similar issues? Thank you.

  • This is the inverse of what stemming does. In your case, you could apply stemming to a large corpus, keeping track of which words are stemmed to the same form – eg., using the Lancaster stemmer, "happiness", "happily" and "happy" are all mapped to "happy". Then use these clusters for the generation task. – lenz Jul 17 '17 at 21:05

This type of information is included in the Lemma class of NLTK's WordNet implementation. Specifically, it's found in Lemma.derivationally_related_forms().

Here's an example script for finding all possible derivation forms of "happy":

from nltk.corpus import wordnet as wn

forms = set() #We'll store the derivational forms in a set to eliminate duplicates
for happy_lemma in wn.lemmas("happy"): #for each "happy" lemma in WordNet
    forms.add(happy_lemma.name()) #add the lemma itself
    for related_lemma in happy_lemma.derivationally_related_forms(): #for each related lemma
        forms.add(related_lemma.name()) #add the related lemma

Unfortunately, the information in WordNet is not complete. The above script finds "happy" and "happiness" but it fails to find "happily", even though there are multiple "happily" lemmas.

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