/* * Port of Snowball stemmers on C# * Original stemmers can be found on http://snowball.tartarus.org * Licence still BSD: http://snowball.tartarus.org/license.php * * Most of stemmers are ported from Java by Iveonik Systems ltd. (www.iveonik.com) * * German stemmer's port found on SourceForge site */ using System; using System.Threading; using ZeroLevel.Services.Semantic; namespace Iveonik.Stemmers { public class GermanStemmer : ILexer { private char[] word_buffer; private int STR_SIZE, R1, R2; private int BUFFER_SIZE; private const int INC = 20; // I found out this is optimal word string size public GermanStemmer() { SetInitState(); } private void SetInitState() { R1 = R2 = -1; STR_SIZE = 0; BUFFER_SIZE = INC; word_buffer = null!; word_buffer = new char[BUFFER_SIZE]; } private void Increment() { char[] tmp_buffer = word_buffer; BUFFER_SIZE += INC; word_buffer = new char[BUFFER_SIZE]; tmp_buffer.CopyTo(word_buffer, 0); tmp_buffer = null!; } // is char vowel /* * The following letters are vowels: * a e i o u y ä ö ü */ private bool vowel(char ch) { switch (ch) { case 'a': case 'e': case 'i': case 'o': case 'u': case 'y': case 'ä': case 'ö': case 'ü': return true; default: return false; } } // R1 and R2 set up in the standard way private int DefineR(int start) { int len = STR_SIZE; if (start == 0) start = 1; if ((start < len) && (start > 0)) { for (int i = start; i < len; ++i) { if ((!vowel(word_buffer[i])) && vowel(word_buffer[(i - 1)])) return ((i - start) + start + 1); } } return -1; } private void SetWord(string strWord) { // First, replace ß by ss string tmp = strWord.Replace("ß", "ss"); // adjust buffer size while (tmp.Length > BUFFER_SIZE) Increment(); STR_SIZE = tmp.Length; // fill in to buffer tmp.CopyTo(0, word_buffer, 0, STR_SIZE); } private void CutEnd(int count) { STR_SIZE -= count; } private bool EndsWith(string end) { if (STR_SIZE > end.Length) { int stop = STR_SIZE - end.Length - 1; int j = end.Length - 1; for (int i = (STR_SIZE - 1); i > stop; --i) { if (word_buffer[i] != end[j]) return false; --j; } return true; } return false; } private void preprocess() { // put u and y between vowels into upper case for (int i = 1; i < STR_SIZE; ++i) { if (word_buffer[i] == 'u') { if (vowel(word_buffer[(i - 1)]) && vowel(word_buffer[(i + 1)])) word_buffer[i] = 'U'; } else if (word_buffer[i] == 'y') { if (vowel(word_buffer[(i - 1)]) && vowel(word_buffer[(i + 1)])) word_buffer[i] = 'Y'; } } /* * R1 and R2 are first set up in the standard way, * but then R1 is adjusted * so that the region before it contains at least 3 letters */ R1 = DefineR(0); R2 = DefineR(R1); if ((R1 < 3) && (R1 > -1)) R1 = 3; } /* * Search for the longest among the following suffixes, * (a) e em en ern er es * (b) s (preceded by a valid s-ending) * and delete if in R1. * (Of course the letter of the valid s-ending is not necessarily in R1) * * (For example, äckern -> äck, ackers -> acker, armes -> arm) */ private void Step1() { if (R1 < 0) return; // e em en ern er es if (EndsWith("ern")) { if ((STR_SIZE - R1) >= 3) CutEnd(3); } else if (EndsWith("em") || EndsWith("en") || EndsWith("er") || EndsWith("es")) { if ((STR_SIZE - R1) >= 2) CutEnd(2); } else if (EndsWith("e")) { if ((STR_SIZE - R1) >= 1) CutEnd(1); } // b, d, f, g, h, k, l, m, n, r or t else if (EndsWith("bs") || EndsWith("ds") || EndsWith("fs") || EndsWith("gs") || EndsWith("hs") || EndsWith("ks") || EndsWith("ls") || EndsWith("ms") || EndsWith("ns") || EndsWith("rs") || EndsWith("ts")) { if ((STR_SIZE - R1) >= 1) CutEnd(1); } } /* * Search for the longest among the following suffixes, * (a) en er est * (b) st (preceded by a valid st-ending, itself preceded by at least 3 letters) * and delete if in R1. * * (For example, derbsten -> derbst by step 1, and derbst -> derb by step 2, since b is a valid st-ending, and is preceded by just 3 letters) */ private void Step2() { if (R1 < 0) return; // en er est if (EndsWith("est")) { if ((STR_SIZE - R1) >= 3) CutEnd(3); } else if (EndsWith("en") || EndsWith("er")) { if ((STR_SIZE - R1) >= 2) CutEnd(2); } // b, d, f, g, h, k, l, m, n or t else if (EndsWith("bst") || EndsWith("dst") || EndsWith("fst") || EndsWith("gst") || EndsWith("hst") || EndsWith("kst") || EndsWith("lst") || EndsWith("mst") || EndsWith("nst") || EndsWith("tst")) { // preceded by at least 3 letters if (STR_SIZE > 5) { if ((STR_SIZE - R1) >= 2) CutEnd(2); } } } private void Step3() { if ((R2 < 0) || (R1 < 0)) return; /* * Search for the longest among the following suffixes, * and perform the action indicated. * end ung * delete if in R2 * if preceded by ig, delete if in R2 and not preceded by e */ if (EndsWith("end") || EndsWith("ung")) { if ((STR_SIZE - R2) >= 3) CutEnd(3); if (EndsWith("ig") && (word_buffer[(STR_SIZE - 3)] != 'e')) { if ((STR_SIZE - R2) >= 2) CutEnd(2); } } /* * ig ik isch * delete if in R2 and not preceded by e */ else if ((EndsWith("ig") || EndsWith("ik")) && (word_buffer[(STR_SIZE - 3)] != 'e')) { if ((STR_SIZE - R2) >= 2) CutEnd(2); } else if (EndsWith("isch") && (word_buffer[(STR_SIZE - 5)] != 'e')) { if ((STR_SIZE - R2) >= 4) CutEnd(4); } /* * lich heit * delete if in R2 * if preceded by er or en, delete if in R1 */ else if (EndsWith("lich") || EndsWith("heit")) { CutEnd(4); // if preceded by er or en, delete if in R1 if (EndsWith("en") || EndsWith("er")) { if ((STR_SIZE - R1) >= 2) CutEnd(2); else STR_SIZE += 4; } else { STR_SIZE += 4; if ((STR_SIZE - R2) >= 4) CutEnd(4); } } /* * keit * delete if in R2 * if preceded by lich or ig, delete if in R2 */ else if (EndsWith("keit")) { if ((STR_SIZE - R2) >= 4) CutEnd(4); // if preceded by lich or ig, delete if in R2 if (EndsWith("ig")) { if ((STR_SIZE - R2) >= 2) CutEnd(2); } else if (EndsWith("lich")) { if ((STR_SIZE - R2) >= 4) CutEnd(4); } } } // Turn U and Y back into lower case, // and remove the umlaut accent from a, o and u. private void Finally() { for (int i = 0; i < STR_SIZE; ++i) { switch (word_buffer[i]) { case 'ä': word_buffer[i] = 'a'; break; case 'U': word_buffer[i] = 'u'; break; case 'ü': word_buffer[i] = 'u'; break; case 'Y': word_buffer[i] = 'y'; break; case 'ö': word_buffer[i] = 'o'; break; default: break; } } } private string Stem() { preprocess(); Step1(); Step2(); Step3(); Finally(); // return stemed word return new string(word_buffer, 0, STR_SIZE); } private int counter = 0; public string Lex(string word) { if (counter > 0) throw new Exception("German stemmer is not reenterable. Create new instance"); Interlocked.Increment(ref counter); try { Word = word.ToLowerInvariant(); return Stem(); } finally { Interlocked.Decrement(ref counter); } } private string Word { get { return new string(word_buffer, 0, STR_SIZE); } set { SetInitState(); SetWord(value); } } } }