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Do you know any java implementation of the Porter2 stemmer(or any better stemmer written in java)? I know that there is a java version of Porter(not Porter2) here :

but on the author mentions that the Porter is bit outdated and recommends to use Porter2, available at

However, the problem with me is that this Porter2 is written in snowball(I never heard of it before, so don't know anything about it). What I am exactly looking for is a java version of it.

Thanks. Your help will he highly appreciated.

share|improve this question
up vote 15 down vote accepted

The Snowball algo is available as a Java download

And from

Feb 2002 - Java support Richard has modified the snowball code generator to produce Java output as well as ANSI C output. This means that pure Java systems can now use the snowball stemmers.

This is what you want, right?

You can create an instance of it like so:

  Class stemClass = Class.forName("org.tartarus.snowball.ext." + lang + "Stemmer");
  stemmer = (SnowballProgram) stemClass.newInstance();
  String your_stemmed_word = stemmer.getCurrent();  
share|improve this answer
Yes that's exactly what I needed. Exactly! Thanks for that. However, would you mind editing the code. It should be : SnowballStemmer stemmer = (SnowballStemmer) stemClass.newInstance(); in the second line. Thanks. – bikashg Dec 9 '10 at 22:26
And I have one more query. My input to the stemmer is an array containing english as well as other language words. Since I just want to pass the english words to the English stemmer, and prevent other words being passed to the English Stemmer, how can I check for that. Can you refer me to any link ? – bikashg Dec 9 '10 at 22:35
Hi Bikash, with regards to filtering out non-English words my only suggestion would to filter using a dictionary map. There are plenty of text file dictionaries you can download, for example - - although you will probably want to combine with a US English list too. I'd also recommend checking out the WordNet dictionary I would note that it's much harder to identify individual English words, rather than identify a whole block of text, because with a whole block of text. – Joel Dec 10 '10 at 8:24
(..continued) like a sentence or paragraph you don't need to identify every word, just the majority. If you only have individual words, out of context, it becomes much harder. Either way, I would actually recommend filtering for English words AFTER stemming - and comparing them against stemmed dictionary words, this way you maximise the likely hood of matching on multiple variations of the same word (e.g. computer, computing, computers -> compute) – Joel Dec 10 '10 at 8:33

   Porter stemmer in Java. The original paper is in

       Porter, 1980, An algorithm for suffix stripping, Program, Vol. 14,
       no. 3, pp 130-137,

   See also


   Release 1

   Bug 1 (reported by Gonzalo Parra 16/10/99) fixed as marked below.
   The words 'aed', 'eed', 'oed' leave k at 'a' for step 3, and b[k-1]
   is then out outside the bounds of b.

   Release 2


   Bug 2 (reported by Steve Dyrdahl 22/2/00) fixed as marked below.
   'ion' by itself leaves j = -1 in the test for 'ion' in step 5, and
   b[j] is then outside the bounds of b.

   Release 3

   Considerably revised 4/9/00 in the light of many helpful suggestions
   from Brian Goetz of Quiotix Corporation (

   Release 4



  * Stemmer, implementing the Porter Stemming Algorithm
  * The Stemmer class transforms a word into its root form.  The input
  * word can be provided a character at time (by calling add()), or at once
  * by calling one of the various stem(something) methods.

class Stemmer
{  private char[] b;
   private int i,     /* offset into b */
               i_end, /* offset to end of stemmed word */
               j, k;
   private static final int INC = 50;
                     /* unit of size whereby b is increased */
   public Stemmer()
   {  b = new char[INC];
      i = 0;
      i_end = 0;

    * Add a character to the word being stemmed.  When you are finished
    * adding characters, you can call stem(void) to stem the word.

   public void add(char ch)
   {  if (i == b.length)
      {  char[] new_b = new char[i+INC];
         for (int c = 0; c < i; c++) new_b[c] = b[c];
         b = new_b;
      b[i++] = ch;

   /** Adds wLen characters to the word being stemmed contained in a portion
    * of a char[] array. This is like repeated calls of add(char ch), but
    * faster.

   public void add(char[] w, int wLen)
   {  if (i+wLen >= b.length)
      {  char[] new_b = new char[i+wLen+INC];
         for (int c = 0; c < i; c++) new_b[c] = b[c];
         b = new_b;
      for (int c = 0; c < wLen; c++) b[i++] = w[c];

    * After a word has been stemmed, it can be retrieved by toString(),
    * or a reference to the internal buffer can be retrieved by getResultBuffer
    * and getResultLength (which is generally more efficient.)
   public String toString() { return new String(b,0,i_end); }

    * Returns the length of the word resulting from the stemming process.
   public int getResultLength() { return i_end; }

    * Returns a reference to a character buffer containing the results of
    * the stemming process.  You also need to consult getResultLength()
    * to determine the length of the result.
   public char[] getResultBuffer() { return b; }

   /* cons(i) is true <=> b[i] is a consonant. */

   private final boolean cons(int i)
   {  switch (b[i])
      {  case 'a': case 'e': case 'i': case 'o': case 'u': return false;
         case 'y': return (i==0) ? true : !cons(i-1);
         default: return true;

   /* m() measures the number of consonant sequences between 0 and j. if c is
      a consonant sequence and v a vowel sequence, and <..> indicates arbitrary

         <c><v>       gives 0
         <c>vc<v>     gives 1
         <c>vcvc<v>   gives 2
         <c>vcvcvc<v> gives 3

   private final int m()
   {  int n = 0;
      int i = 0;
      {  if (i > j) return n;
         if (! cons(i)) break; i++;
      {  while(true)
         {  if (i > j) return n;
               if (cons(i)) break;
         {  if (i > j) return n;
            if (! cons(i)) break;

   /* vowelinstem() is true <=> 0,...j contains a vowel */

   private final boolean vowelinstem()
   {  int i; for (i = 0; i <= j; i++) if (! cons(i)) return true;
      return false;

   /* doublec(j) is true <=> j,(j-1) contain a double consonant. */

   private final boolean doublec(int j)
   {  if (j < 1) return false;
      if (b[j] != b[j-1]) return false;
      return cons(j);

   /* cvc(i) is true <=> i-2,i-1,i has the form consonant - vowel - consonant
      and also if the second c is not w,x or y. this is used when trying to
      restore an e at the end of a short word. e.g.

         cav(e), lov(e), hop(e), crim(e), but
         snow, box, tray.


   private final boolean cvc(int i)
   {  if (i < 2 || !cons(i) || cons(i-1) || !cons(i-2)) return false;
      {  int ch = b[i];
         if (ch == 'w' || ch == 'x' || ch == 'y') return false;
      return true;

   private final boolean ends(String s)
   {  int l = s.length();
      int o = k-l+1;
      if (o < 0) return false;
      for (int i = 0; i < l; i++) if (b[o+i] != s.charAt(i)) return false;
      j = k-l;
      return true;

   /* setto(s) sets (j+1),...k to the characters in the string s, readjusting
      k. */

   private final void setto(String s)
   {  int l = s.length();
      int o = j+1;
      for (int i = 0; i < l; i++) b[o+i] = s.charAt(i);
      k = j+l;

   /* r(s) is used further down. */

   private final void r(String s) { if (m() > 0) setto(s); }

   /* step1() gets rid of plurals and -ed or -ing. e.g.

          caresses  ->  caress
          ponies    ->  poni
          ties      ->  ti
          caress    ->  caress
          cats      ->  cat

          feed      ->  feed
          agreed    ->  agree
          disabled  ->  disable

          matting   ->  mat
          mating    ->  mate
          meeting   ->  meet
          milling   ->  mill
          messing   ->  mess

          meetings  ->  meet


   private final void step1()
   {  if (b[k] == 's')
      {  if (ends("sses")) k -= 2; else
         if (ends("ies")) setto("i"); else
         if (b[k-1] != 's') k--;
      if (ends("eed")) { if (m() > 0) k--; } else
      if ((ends("ed") || ends("ing")) && vowelinstem())
      {  k = j;
         if (ends("at")) setto("ate"); else
         if (ends("bl")) setto("ble"); else
         if (ends("iz")) setto("ize"); else
         if (doublec(k))
         {  k--;
            {  int ch = b[k];
               if (ch == 'l' || ch == 's' || ch == 'z') k++;
         else if (m() == 1 && cvc(k)) setto("e");

   /* step2() turns terminal y to i when there is another vowel in the stem. */

   private final void step2() { if (ends("y") && vowelinstem()) b[k] = 'i'; }

   /* step3() maps double suffices to single ones. so -ization ( = -ize plus
      -ation) maps to -ize etc. note that the string before the suffix must give
      m() > 0. */

   private final void step3() { if (k == 0) return; /* For Bug 1 */ switch (b[k-1])
       case 'a': if (ends("ational")) { r("ate"); break; }
                 if (ends("tional")) { r("tion"); break; }
       case 'c': if (ends("enci")) { r("ence"); break; }
                 if (ends("anci")) { r("ance"); break; }
       case 'e': if (ends("izer")) { r("ize"); break; }
       case 'l': if (ends("bli")) { r("ble"); break; }
                 if (ends("alli")) { r("al"); break; }
                 if (ends("entli")) { r("ent"); break; }
                 if (ends("eli")) { r("e"); break; }
                 if (ends("ousli")) { r("ous"); break; }
       case 'o': if (ends("ization")) { r("ize"); break; }
                 if (ends("ation")) { r("ate"); break; }
                 if (ends("ator")) { r("ate"); break; }
       case 's': if (ends("alism")) { r("al"); break; }
                 if (ends("iveness")) { r("ive"); break; }
                 if (ends("fulness")) { r("ful"); break; }
                 if (ends("ousness")) { r("ous"); break; }
       case 't': if (ends("aliti")) { r("al"); break; }
                 if (ends("iviti")) { r("ive"); break; }
                 if (ends("biliti")) { r("ble"); break; }
       case 'g': if (ends("logi")) { r("log"); break; }
   } }

   /* step4() deals with -ic-, -full, -ness etc. similar strategy to step3. */

   private final void step4() { switch (b[k])
       case 'e': if (ends("icate")) { r("ic"); break; }
                 if (ends("ative")) { r(""); break; }
                 if (ends("alize")) { r("al"); break; }
       case 'i': if (ends("iciti")) { r("ic"); break; }
       case 'l': if (ends("ical")) { r("ic"); break; }
                 if (ends("ful")) { r(""); break; }
       case 's': if (ends("ness")) { r(""); break; }
   } }

   /* step5() takes off -ant, -ence etc., in context <c>vcvc<v>. */

   private final void step5()
   {   if (k == 0) return; /* for Bug 1 */ switch (b[k-1])
       {  case 'a': if (ends("al")) break; return;
          case 'c': if (ends("ance")) break;
                    if (ends("ence")) break; return;
          case 'e': if (ends("er")) break; return;
          case 'i': if (ends("ic")) break; return;
          case 'l': if (ends("able")) break;
                    if (ends("ible")) break; return;
          case 'n': if (ends("ant")) break;
                    if (ends("ement")) break;
                    if (ends("ment")) break;
                    /* element etc. not stripped before the m */
                    if (ends("ent")) break; return;
          case 'o': if (ends("ion") && j >= 0 && (b[j] == 's' || b[j] == 't')) break;
                                    /* j >= 0 fixes Bug 2 */
                    if (ends("ou")) break; return;
                    /* takes care of -ous */
          case 's': if (ends("ism")) break; return;
          case 't': if (ends("ate")) break;
                    if (ends("iti")) break; return;
          case 'u': if (ends("ous")) break; return;
          case 'v': if (ends("ive")) break; return;
          case 'z': if (ends("ize")) break; return;
          default: return;
       if (m() > 1) k = j;

   /* step6() removes a final -e if m() > 1. */

   private final void step6()
   {  j = k;
      if (b[k] == 'e')
      {  int a = m();
         if (a > 1 || a == 1 && !cvc(k-1)) k--;
      if (b[k] == 'l' && doublec(k) && m() > 1) k--;

   /** Stem the word placed into the Stemmer buffer through calls to add().
    * Returns true if the stemming process resulted in a word different
    * from the input.  You can retrieve the result with
    * getResultLength()/getResultBuffer() or toString().
   public void stem()
   {  k = i - 1;
      if (k > 1) { step1(); step2(); step3(); step4(); step5(); step6(); }
      i_end = k+1; i = 0;

   /** Test program for demonstrating the Stemmer.  It reads text from a
    * a list of files, stems each word, and writes the result to standard
    * output. Note that the word stemmed is expected to be in lower case:
    * forcing lower case must be done outside the Stemmer class.
    * Usage: Stemmer file-name file-name ...
   public static void main(String[] args)
      char[] w = new char[501];
      Stemmer s = new Stemmer();
      for (int i = 0; i < args.length; i++)
         FileInputStream in = new FileInputStream(args[i]);

         { while(true)

           {  int ch =;
              if (Character.isLetter((char) ch))
                 int j = 0;
                 {  ch = Character.toLowerCase((char) ch);
                    w[j] = (char) ch;
                    if (j < 500) j++;
                    ch =;
                    if (!Character.isLetter((char) ch))
                       /* to test add(char ch) */
                       for (int c = 0; c < j; c++) s.add(w[c]);

                       /* or, to test add(char[] w, int j) */
                       /* s.add(w, j); */

                       {  String u;

                          /* and now, to test toString() : */
                          u = s.toString();

                          /* to test getResultBuffer(), getResultLength() : */
                          /* u = new String(s.getResultBuffer(), 0, s.getResultLength()); */

              if (ch < 0) break;
         catch (IOException e)
         {  System.out.println("error reading " + args[i]);
      catch (FileNotFoundException e)
      {  System.out.println("file " + args[i] + " not found");
share|improve this answer

It is available as a part of MG4J.

See the documentation for EnglishStemmer, i.e. Porter2. Use method processTerm(MutableString ms)

MG4J also gives you java versions of other stemmers. See the snowball package. All these stemmers can be used independently.

share|improve this answer
@Valentin What down vote? – athena Dec 10 '10 at 17:18
there was a downvote to your answer when I last checked, now it seems to have disappeared :) – Valentin Rocher Dec 13 '10 at 8:20

Maybe not a direct answer, but there are stemmers in many NLP toolkits - see There's a related question here Tokenizer, Stop Word Removal, Stemming in Java with several answers that might be useful.

We use OpenNLP which is written in Java and may provide the functionality. I wouldn't expect the variation between stemmers to be critical if you are working in English.

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Seems like Lucene integrates, in one form or another, some stemming algorithms. You may find what you're looking for starting at package org.apache.lucene.analysis. I however fear the stemming code to be deeply integrated into analysis components, making as a consequence quite hard its extraction ...

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Last time I used lucene i think it was porter1. Is the newer version offers proter2? – Favonius Dec 9 '10 at 10:41

The following link contains snowball stemmer api.It has the porter stemmer2 implementation.

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Here is a lightweight wrapper I made that is easy to re-use and available on Maven Central.

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