org.apache.lucene.analysis.de.GermanStemmer Maven / Gradle / Ivy
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package org.apache.lucene.analysis.de;
// This file is encoded in UTF-8
/**
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* A stemmer for German words.
*
* The algorithm is based on the report
* "A Fast and Simple Stemming Algorithm for German Words" by Jörg
* Caumanns (joerg.caumanns at isst.fhg.de).
*
*/
public class GermanStemmer
{
/**
* Buffer for the terms while stemming them.
*/
private StringBuilder sb = new StringBuilder();
/**
* Amount of characters that are removed with substitute() while stemming.
*/
private int substCount = 0;
/**
* Stemms the given term to an unique discriminator.
*
* @param term The term that should be stemmed.
* @return Discriminator for term
*/
protected String stem( String term )
{
// Use lowercase for medium stemming.
term = term.toLowerCase();
if ( !isStemmable( term ) )
return term;
// Reset the StringBuilder.
sb.delete( 0, sb.length() );
sb.insert( 0, term );
// Stemming starts here...
substitute( sb );
strip( sb );
optimize( sb );
resubstitute( sb );
removeParticleDenotion( sb );
return sb.toString();
}
/**
* Checks if a term could be stemmed.
*
* @return true if, and only if, the given term consists in letters.
*/
private boolean isStemmable( String term )
{
for ( int c = 0; c < term.length(); c++ ) {
if ( !Character.isLetter( term.charAt( c ) ) )
return false;
}
return true;
}
/**
* suffix stripping (stemming) on the current term. The stripping is reduced
* to the seven "base" suffixes "e", "s", "n", "t", "em", "er" and * "nd",
* from which all regular suffixes are build of. The simplification causes
* some overstemming, and way more irregular stems, but still provides unique.
* discriminators in the most of those cases.
* The algorithm is context free, except of the length restrictions.
*/
private void strip( StringBuilder buffer )
{
boolean doMore = true;
while ( doMore && buffer.length() > 3 ) {
if ( ( buffer.length() + substCount > 5 ) &&
buffer.substring( buffer.length() - 2, buffer.length() ).equals( "nd" ) )
{
buffer.delete( buffer.length() - 2, buffer.length() );
}
else if ( ( buffer.length() + substCount > 4 ) &&
buffer.substring( buffer.length() - 2, buffer.length() ).equals( "em" ) ) {
buffer.delete( buffer.length() - 2, buffer.length() );
}
else if ( ( buffer.length() + substCount > 4 ) &&
buffer.substring( buffer.length() - 2, buffer.length() ).equals( "er" ) ) {
buffer.delete( buffer.length() - 2, buffer.length() );
}
else if ( buffer.charAt( buffer.length() - 1 ) == 'e' ) {
buffer.deleteCharAt( buffer.length() - 1 );
}
else if ( buffer.charAt( buffer.length() - 1 ) == 's' ) {
buffer.deleteCharAt( buffer.length() - 1 );
}
else if ( buffer.charAt( buffer.length() - 1 ) == 'n' ) {
buffer.deleteCharAt( buffer.length() - 1 );
}
// "t" occurs only as suffix of verbs.
else if ( buffer.charAt( buffer.length() - 1 ) == 't' ) {
buffer.deleteCharAt( buffer.length() - 1 );
}
else {
doMore = false;
}
}
}
/**
* Does some optimizations on the term. This optimisations are
* contextual.
*/
private void optimize( StringBuilder buffer )
{
// Additional step for female plurals of professions and inhabitants.
if ( buffer.length() > 5 && buffer.substring( buffer.length() - 5, buffer.length() ).equals( "erin*" ) ) {
buffer.deleteCharAt( buffer.length() -1 );
strip( buffer );
}
// Additional step for irregular plural nouns like "Matrizen -> Matrix".
// NOTE: this length constraint is probably not a great value, its just to prevent AIOOBE on empty terms
if ( buffer.length() > 0 && buffer.charAt( buffer.length() - 1 ) == ( 'z' ) ) {
buffer.setCharAt( buffer.length() - 1, 'x' );
}
}
/**
* Removes a particle denotion ("ge") from a term.
*/
private void removeParticleDenotion( StringBuilder buffer )
{
if ( buffer.length() > 4 ) {
for ( int c = 0; c < buffer.length() - 3; c++ ) {
if ( buffer.substring( c, c + 4 ).equals( "gege" ) ) {
buffer.delete( c, c + 2 );
return;
}
}
}
}
/**
* Do some substitutions for the term to reduce overstemming:
*
* - Substitute Umlauts with their corresponding vowel: äöü -> aou,
* "ß" is substituted by "ss"
* - Substitute a second char of a pair of equal characters with
* an asterisk: ?? -> ?*
* - Substitute some common character combinations with a token:
* sch/ch/ei/ie/ig/st -> $/§/%/&/#/!
*/
private void substitute( StringBuilder buffer )
{
substCount = 0;
for ( int c = 0; c < buffer.length(); c++ ) {
// Replace the second char of a pair of the equal characters with an asterisk
if ( c > 0 && buffer.charAt( c ) == buffer.charAt ( c - 1 ) ) {
buffer.setCharAt( c, '*' );
}
// Substitute Umlauts.
else if ( buffer.charAt( c ) == 'ä' ) {
buffer.setCharAt( c, 'a' );
}
else if ( buffer.charAt( c ) == 'ö' ) {
buffer.setCharAt( c, 'o' );
}
else if ( buffer.charAt( c ) == 'ü' ) {
buffer.setCharAt( c, 'u' );
}
// Fix bug so that 'ß' at the end of a word is replaced.
else if ( buffer.charAt( c ) == 'ß' ) {
buffer.setCharAt( c, 's' );
buffer.insert( c + 1, 's' );
substCount++;
}
// Take care that at least one character is left left side from the current one
if ( c < buffer.length() - 1 ) {
// Masking several common character combinations with an token
if ( ( c < buffer.length() - 2 ) && buffer.charAt( c ) == 's' &&
buffer.charAt( c + 1 ) == 'c' && buffer.charAt( c + 2 ) == 'h' )
{
buffer.setCharAt( c, '$' );
buffer.delete( c + 1, c + 3 );
substCount =+ 2;
}
else if ( buffer.charAt( c ) == 'c' && buffer.charAt( c + 1 ) == 'h' ) {
buffer.setCharAt( c, '§' );
buffer.deleteCharAt( c + 1 );
substCount++;
}
else if ( buffer.charAt( c ) == 'e' && buffer.charAt( c + 1 ) == 'i' ) {
buffer.setCharAt( c, '%' );
buffer.deleteCharAt( c + 1 );
substCount++;
}
else if ( buffer.charAt( c ) == 'i' && buffer.charAt( c + 1 ) == 'e' ) {
buffer.setCharAt( c, '&' );
buffer.deleteCharAt( c + 1 );
substCount++;
}
else if ( buffer.charAt( c ) == 'i' && buffer.charAt( c + 1 ) == 'g' ) {
buffer.setCharAt( c, '#' );
buffer.deleteCharAt( c + 1 );
substCount++;
}
else if ( buffer.charAt( c ) == 's' && buffer.charAt( c + 1 ) == 't' ) {
buffer.setCharAt( c, '!' );
buffer.deleteCharAt( c + 1 );
substCount++;
}
}
}
}
/**
* Undoes the changes made by substitute(). That are character pairs and
* character combinations. Umlauts will remain as their corresponding vowel,
* as "ß" remains as "ss".
*/
private void resubstitute( StringBuilder buffer )
{
for ( int c = 0; c < buffer.length(); c++ ) {
if ( buffer.charAt( c ) == '*' ) {
char x = buffer.charAt( c - 1 );
buffer.setCharAt( c, x );
}
else if ( buffer.charAt( c ) == '$' ) {
buffer.setCharAt( c, 's' );
buffer.insert( c + 1, new char[]{'c', 'h'}, 0, 2 );
}
else if ( buffer.charAt( c ) == '§' ) {
buffer.setCharAt( c, 'c' );
buffer.insert( c + 1, 'h' );
}
else if ( buffer.charAt( c ) == '%' ) {
buffer.setCharAt( c, 'e' );
buffer.insert( c + 1, 'i' );
}
else if ( buffer.charAt( c ) == '&' ) {
buffer.setCharAt( c, 'i' );
buffer.insert( c + 1, 'e' );
}
else if ( buffer.charAt( c ) == '#' ) {
buffer.setCharAt( c, 'i' );
buffer.insert( c + 1, 'g' );
}
else if ( buffer.charAt( c ) == '!' ) {
buffer.setCharAt( c, 's' );
buffer.insert( c + 1, 't' );
}
}
}
}