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package org.apache.lucene.analysis.nl;

/**
 * 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.
 */

import java.util.Map;

/**
 * A stemmer for Dutch words. 
 * 

* The algorithm is an implementation of * the dutch stemming * algorithm in Martin Porter's snowball project. *

* @deprecated Use {@link org.tartarus.snowball.ext.DutchStemmer} instead, * which has the same functionality. This filter will be removed in Lucene 5.0 */ @Deprecated public class DutchStemmer { /** * Buffer for the terms while stemming them. */ private StringBuilder sb = new StringBuilder(); private boolean _removedE; private Map _stemDict; private int _R1; private int _R2; //TODO convert to internal /* * Stems the given term to an unique discriminator. * * @param term The term that should be stemmed. * @return Discriminator for term */ public String stem(String term) { term = term.toLowerCase(); if (!isStemmable(term)) return term; if (_stemDict != null && _stemDict.containsKey(term)) if (_stemDict.get(term) instanceof String) return (String) _stemDict.get(term); else return null; // Reset the StringBuilder. sb.delete(0, sb.length()); sb.insert(0, term); // Stemming starts here... substitute(sb); storeYandI(sb); _R1 = getRIndex(sb, 0); _R1 = Math.max(3, _R1); step1(sb); step2(sb); _R2 = getRIndex(sb, _R1); step3a(sb); step3b(sb); step4(sb); reStoreYandI(sb); return sb.toString(); } private boolean enEnding(StringBuilder sb) { String[] enend = new String[]{"ene", "en"}; for (int i = 0; i < enend.length; i++) { String end = enend[i]; String s = sb.toString(); int index = s.length() - end.length(); if (s.endsWith(end) && index >= _R1 && isValidEnEnding(sb, index - 1) ) { sb.delete(index, index + end.length()); unDouble(sb, index); return true; } } return false; } private void step1(StringBuilder sb) { if (_R1 >= sb.length()) return; String s = sb.toString(); int lengthR1 = sb.length() - _R1; int index; if (s.endsWith("heden")) { sb.replace(_R1, lengthR1 + _R1, sb.substring(_R1, lengthR1 + _R1).replaceAll("heden", "heid")); return; } if (enEnding(sb)) return; if (s.endsWith("se") && (index = s.length() - 2) >= _R1 && isValidSEnding(sb, index - 1) ) { sb.delete(index, index + 2); return; } if (s.endsWith("s") && (index = s.length() - 1) >= _R1 && isValidSEnding(sb, index - 1)) { sb.delete(index, index + 1); } } /** * Delete suffix e if in R1 and * preceded by a non-vowel, and then undouble the ending * * @param sb String being stemmed */ private void step2(StringBuilder sb) { _removedE = false; if (_R1 >= sb.length()) return; String s = sb.toString(); int index = s.length() - 1; if (index >= _R1 && s.endsWith("e") && !isVowel(sb.charAt(index - 1))) { sb.delete(index, index + 1); unDouble(sb); _removedE = true; } } /** * Delete "heid" * * @param sb String being stemmed */ private void step3a(StringBuilder sb) { if (_R2 >= sb.length()) return; String s = sb.toString(); int index = s.length() - 4; if (s.endsWith("heid") && index >= _R2 && sb.charAt(index - 1) != 'c') { sb.delete(index, index + 4); //remove heid enEnding(sb); } } /** *

A d-suffix, or derivational suffix, enables a new word, * often with a different grammatical category, or with a different * sense, to be built from another word. Whether a d-suffix can be * attached is discovered not from the rules of grammar, but by * referring to a dictionary. So in English, ness can be added to * certain adjectives to form corresponding nouns (littleness, * kindness, foolishness ...) but not to all adjectives * (not for example, to big, cruel, wise ...) d-suffixes can be * used to change meaning, often in rather exotic ways.

* Remove "ing", "end", "ig", "lijk", "baar" and "bar" * * @param sb String being stemmed */ private void step3b(StringBuilder sb) { if (_R2 >= sb.length()) return; String s = sb.toString(); int index = 0; if ((s.endsWith("end") || s.endsWith("ing")) && (index = s.length() - 3) >= _R2) { sb.delete(index, index + 3); if (sb.charAt(index - 2) == 'i' && sb.charAt(index - 1) == 'g') { if (sb.charAt(index - 3) != 'e' & index - 2 >= _R2) { index -= 2; sb.delete(index, index + 2); } } else { unDouble(sb, index); } return; } if (s.endsWith("ig") && (index = s.length() - 2) >= _R2 ) { if (sb.charAt(index - 1) != 'e') sb.delete(index, index + 2); return; } if (s.endsWith("lijk") && (index = s.length() - 4) >= _R2 ) { sb.delete(index, index + 4); step2(sb); return; } if (s.endsWith("baar") && (index = s.length() - 4) >= _R2 ) { sb.delete(index, index + 4); return; } if (s.endsWith("bar") && (index = s.length() - 3) >= _R2 ) { if (_removedE) sb.delete(index, index + 3); return; } } /** * undouble vowel * If the words ends CVD, where C is a non-vowel, D is a non-vowel other than I, and V is double a, e, o or u, remove one of the vowels from V (for example, maan -> man, brood -> brod). * * @param sb String being stemmed */ private void step4(StringBuilder sb) { if (sb.length() < 4) return; String end = sb.substring(sb.length() - 4, sb.length()); char c = end.charAt(0); char v1 = end.charAt(1); char v2 = end.charAt(2); char d = end.charAt(3); if (v1 == v2 && d != 'I' && v1 != 'i' && isVowel(v1) && !isVowel(d) && !isVowel(c)) { sb.delete(sb.length() - 2, sb.length() - 1); } } /** * 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; } /** * Substitute ä, ë, ï, ö, ü, á , é, í, ó, ú */ private void substitute(StringBuilder buffer) { for (int i = 0; i < buffer.length(); i++) { switch (buffer.charAt(i)) { case 'ä': case 'á': { buffer.setCharAt(i, 'a'); break; } case 'ë': case 'é': { buffer.setCharAt(i, 'e'); break; } case 'ü': case 'ú': { buffer.setCharAt(i, 'u'); break; } case 'ï': case 'i': { buffer.setCharAt(i, 'i'); break; } case 'ö': case 'ó': { buffer.setCharAt(i, 'o'); break; } } } } /*private boolean isValidSEnding(StringBuilder sb) { return isValidSEnding(sb, sb.length() - 1); }*/ private boolean isValidSEnding(StringBuilder sb, int index) { char c = sb.charAt(index); if (isVowel(c) || c == 'j') return false; return true; } /*private boolean isValidEnEnding(StringBuilder sb) { return isValidEnEnding(sb, sb.length() - 1); }*/ private boolean isValidEnEnding(StringBuilder sb, int index) { char c = sb.charAt(index); if (isVowel(c)) return false; if (c < 3) return false; // ends with "gem"? if (c == 'm' && sb.charAt(index - 2) == 'g' && sb.charAt(index - 1) == 'e') return false; return true; } private void unDouble(StringBuilder sb) { unDouble(sb, sb.length()); } private void unDouble(StringBuilder sb, int endIndex) { String s = sb.substring(0, endIndex); if (s.endsWith("kk") || s.endsWith("tt") || s.endsWith("dd") || s.endsWith("nn") || s.endsWith("mm") || s.endsWith("ff")) { sb.delete(endIndex - 1, endIndex); } } private int getRIndex(StringBuilder sb, int start) { if (start == 0) start = 1; int i = start; for (; i < sb.length(); i++) { //first non-vowel preceded by a vowel if (!isVowel(sb.charAt(i)) && isVowel(sb.charAt(i - 1))) { return i + 1; } } return i + 1; } private void storeYandI(StringBuilder sb) { if (sb.charAt(0) == 'y') sb.setCharAt(0, 'Y'); int last = sb.length() - 1; for (int i = 1; i < last; i++) { switch (sb.charAt(i)) { case 'i': { if (isVowel(sb.charAt(i - 1)) && isVowel(sb.charAt(i + 1)) ) sb.setCharAt(i, 'I'); break; } case 'y': { if (isVowel(sb.charAt(i - 1))) sb.setCharAt(i, 'Y'); break; } } } if (last > 0 && sb.charAt(last) == 'y' && isVowel(sb.charAt(last - 1))) sb.setCharAt(last, 'Y'); } private void reStoreYandI(StringBuilder sb) { String tmp = sb.toString(); sb.delete(0, sb.length()); sb.insert(0, tmp.replaceAll("I", "i").replaceAll("Y", "y")); } private boolean isVowel(char c) { switch (c) { case 'e': case 'a': case 'o': case 'i': case 'u': case 'y': case 'è': { return true; } } return false; } void setStemDictionary(Map dict) { _stemDict = dict; } }




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